Geology of the lithosphere The lithosphere is the outer solid part of the earth, including the crust and uppermost mantle. The lithosphere is about 100 km thick, although its thickness is age dependent (older litho- sphere is thicker). The lithosphere below the crust is brittle enough at some locations to produce earthquakes by faulting, such as within a subducted oceanic plate. Source: USGS THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300 o C ISOTHERM
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Geology of the
lithosphere
The lithosphere is the outer solid part of the earth including
the crust and uppermost mantle The lithosphere is about 100
km thick although its thickness is age dependent (older litho-
sphere is thicker) The lithosphere below the crust is brittle
enough at some locations to produce earthquakes by faulting
such as within a subducted oceanic plate Source USGS
THE BASE OF THE LITHOSPHERE IS DEFINED AS
THE 1300oC ISOTHERM
The Earth loses heat through itrsquos surface
Volcanoes produce molten rock suggesting internal heat is much hotter than surface
heat
Generally the temperature increases depth 1km deep =30oC above surface
temperatures
The rate at which temperature rises (geothermal gradient) varies
In some parts of the crust the temperature rises slowly whilst in other parts it
rises rapidly
Steep geothermal gradients are found in areas of igneous activity magma chambers
or cooling batholiths provide heat sources at depth
Since the inside of the earth is hotter than the outside it follows that heat must
flow outwards
HEAT FLOW is measured in joules per square metre per second (J m-2 s-1 )
The steeper the geothermal gradient the greater the heat flow
Rocks which are relatively good conductors permit a high heat flow
Heat flow is measured at depths below 30m so that solar input does not affect
results
Heat flow over the earth
There is a general relationship of high heat flow associated
with the igneous activity of oceanic ridges and young mountain
ranges while lowest values are found in ancient shield areas
Area of Earthrsquos Surface Heat Flow (J m-2 s-1 )
Whole Earth 0069
All Oceans 0069
All Continents 0069
Ocean Basins 0053
Oceanic Ridges 0080
Oceanic Trenches 0049
Ancient Shield areas 0041
(older than 570 Ma)
Platform areas 0062
(younger than 570 Ma)
Old mountain areas 0060
(570-225 Ma)
Young mountain areas 0074
(younger than 225 Ma)
Average heat flows from continental and oceanic crust are about
equal
Observed heat flow of continental crust could easily be produced
by the rocks of the continental crust
Continental crust appears to have a higher concentration
(compared to Oceanic crust) of long-lived radioactive isotopesmdashthe
decay of which is the most important source of the earthrsquos heat
Oceanic crust could not produce the observed heat flow so it would
appear that the heat is comes from the underlying mantle
This suggests that the mantle under the oceans is hotter than the
mantle under the continents
This suggests that convection currents exist under the oceans but
not under the continents
The currents bring heat from greater depth they turn and flow
under the oceanic giving off heat which escapes through the crust
The fact that the highest levels of heat flow occur at the ocean
ridges an decreases across the ocean basins (lowest values at ocean
trenches) suggests that the currents rise under the ridges flow
under the ocean basins and sink under the ocean trenches
Just to jog your memories from last year
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
The Earth loses heat through itrsquos surface
Volcanoes produce molten rock suggesting internal heat is much hotter than surface
heat
Generally the temperature increases depth 1km deep =30oC above surface
temperatures
The rate at which temperature rises (geothermal gradient) varies
In some parts of the crust the temperature rises slowly whilst in other parts it
rises rapidly
Steep geothermal gradients are found in areas of igneous activity magma chambers
or cooling batholiths provide heat sources at depth
Since the inside of the earth is hotter than the outside it follows that heat must
flow outwards
HEAT FLOW is measured in joules per square metre per second (J m-2 s-1 )
The steeper the geothermal gradient the greater the heat flow
Rocks which are relatively good conductors permit a high heat flow
Heat flow is measured at depths below 30m so that solar input does not affect
results
Heat flow over the earth
There is a general relationship of high heat flow associated
with the igneous activity of oceanic ridges and young mountain
ranges while lowest values are found in ancient shield areas
Area of Earthrsquos Surface Heat Flow (J m-2 s-1 )
Whole Earth 0069
All Oceans 0069
All Continents 0069
Ocean Basins 0053
Oceanic Ridges 0080
Oceanic Trenches 0049
Ancient Shield areas 0041
(older than 570 Ma)
Platform areas 0062
(younger than 570 Ma)
Old mountain areas 0060
(570-225 Ma)
Young mountain areas 0074
(younger than 225 Ma)
Average heat flows from continental and oceanic crust are about
equal
Observed heat flow of continental crust could easily be produced
by the rocks of the continental crust
Continental crust appears to have a higher concentration
(compared to Oceanic crust) of long-lived radioactive isotopesmdashthe
decay of which is the most important source of the earthrsquos heat
Oceanic crust could not produce the observed heat flow so it would
appear that the heat is comes from the underlying mantle
This suggests that the mantle under the oceans is hotter than the
mantle under the continents
This suggests that convection currents exist under the oceans but
not under the continents
The currents bring heat from greater depth they turn and flow
under the oceanic giving off heat which escapes through the crust
The fact that the highest levels of heat flow occur at the ocean
ridges an decreases across the ocean basins (lowest values at ocean
trenches) suggests that the currents rise under the ridges flow
under the ocean basins and sink under the ocean trenches
Just to jog your memories from last year
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Heat flow over the earth
There is a general relationship of high heat flow associated
with the igneous activity of oceanic ridges and young mountain
ranges while lowest values are found in ancient shield areas
Area of Earthrsquos Surface Heat Flow (J m-2 s-1 )
Whole Earth 0069
All Oceans 0069
All Continents 0069
Ocean Basins 0053
Oceanic Ridges 0080
Oceanic Trenches 0049
Ancient Shield areas 0041
(older than 570 Ma)
Platform areas 0062
(younger than 570 Ma)
Old mountain areas 0060
(570-225 Ma)
Young mountain areas 0074
(younger than 225 Ma)
Average heat flows from continental and oceanic crust are about
equal
Observed heat flow of continental crust could easily be produced
by the rocks of the continental crust
Continental crust appears to have a higher concentration
(compared to Oceanic crust) of long-lived radioactive isotopesmdashthe
decay of which is the most important source of the earthrsquos heat
Oceanic crust could not produce the observed heat flow so it would
appear that the heat is comes from the underlying mantle
This suggests that the mantle under the oceans is hotter than the
mantle under the continents
This suggests that convection currents exist under the oceans but
not under the continents
The currents bring heat from greater depth they turn and flow
under the oceanic giving off heat which escapes through the crust
The fact that the highest levels of heat flow occur at the ocean
ridges an decreases across the ocean basins (lowest values at ocean
trenches) suggests that the currents rise under the ridges flow
under the ocean basins and sink under the ocean trenches
Just to jog your memories from last year
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Average heat flows from continental and oceanic crust are about
equal
Observed heat flow of continental crust could easily be produced
by the rocks of the continental crust
Continental crust appears to have a higher concentration
(compared to Oceanic crust) of long-lived radioactive isotopesmdashthe
decay of which is the most important source of the earthrsquos heat
Oceanic crust could not produce the observed heat flow so it would
appear that the heat is comes from the underlying mantle
This suggests that the mantle under the oceans is hotter than the
mantle under the continents
This suggests that convection currents exist under the oceans but
not under the continents
The currents bring heat from greater depth they turn and flow
under the oceanic giving off heat which escapes through the crust
The fact that the highest levels of heat flow occur at the ocean
ridges an decreases across the ocean basins (lowest values at ocean
trenches) suggests that the currents rise under the ridges flow
under the ocean basins and sink under the ocean trenches
Just to jog your memories from last year
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Just to jog your memories from last year
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Rock strength related to temperature
We all know that rocks near the surface of the Earth behave in a brittle
manner Crustal rocks are composed of minerals like quartz and feldspar
which have high strength particularly at low pressure and temperature
As we go deeper in the Earth the strength of these rocks initially in-
creases At a depth of about 15 km we reach a point called the brit-
tle-ductile transition zone Below this point rock strength decreases
because fractures become closed and the temperature is higher
making the rocks behave in a ductile manner At the base of the crust
the rock type changes to peridotite which is rich in olivine Olivine is
stronger than the minerals that make up most crustal rocks so the upper
part of the mantle is again strong But just as in the crust increasing
temperature eventually predominates and at a depth of about 40 km the
brittle-ductile transition zone in the mantle occurs Below this point
httpwwwtulaneedu~sanelsongeol111deformhtm
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Diagram 1
Diagram 3
Diagram 2
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
C
C
Look at the four diagrams provided
Explain the distinction between the Lithosphere and Asthenosphere (quote from the diagrams)
What is the difference in the melting points of wet and dry granite
Diagram 4
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Read page 142mdashWebster
With the aid of diagrams explain why localised melting in the asthenosphere generates basaltic magmas
Use geological terminology including Benioff zone
Why could this scenario be classified as idealistic
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
THE BASE OF THE LITHOSPHERE IS DEFINED AS THE 1300oC ISOTHERM
What is meant by the term isotherm
Describe the pattern of lithospheric thickness using the diagram above
How might this relate to the age of the lithosphere
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Seismic waves are waves of energy that travel through the earth for example as a
result of an earthquake explosion or some other process that imparts low-
frequency acoustic energy The propagation velocity of the waves depends on den-
sity and elasticity of the medium Velocity tends to increase with depth and ranges
from approximately 2 to 8 kms in the Earths crust up to 13 kms in the deep man-
tle
Earthquakes create various types of waves with different velocities when reaching
seismic observatories their different travel time enables the scientists to locate
the epicenter In geophysics the refraction or reflection of seismic waves is used
for research of the Earths interior and artificial vibrations to investigate subsur-
face structures
Seismology and the Lithospshere
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Read page 119 of McLeish
Draw and label diagram 68
Add bullet points about the velocities of earthquake waves
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Body waves
Body waves travel through the interior of the Earth They follow raypaths refracted
by the varying density and modulus (stiffness) of the Earths interior The density
and modulus in turn vary according to temperature and composition This effect is
similar to the refraction of light waves
P-waves
P waves (primary waves) are compressional waves that are longitudinal in nature P
waves are pressure waves that are the initial set of waves produced by an earth-
quake These waves can travel through any type of material and can travel at nearly
twice the speed of S waves 1450 ms in water and about 5000 ms in granite
S-waves
S waves (secondary waves) are shear waves that are transverse in nature These
waves typically follows P waves during an earthquake and displaces the ground per-
pendicular to the direction of propagation S waves can travel only through solids as
fluids (liquids and gases) do not support shear stresses S waves are slower than P
waves and speeds are typically around 60 of that of P waves in any given material
Both waves get slower as the density of the medium increases
P waves get faster as the compressibility decreases
S waves get faster as rigidity increases (Liquids have a zero rigidity)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Read pages 121122123 of McLeish
1 Draw and explain diagram 613
2 Draw and explain 614
A) Why do the waves bend
B) Why do the waves speed up with depth
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
3 What is the Moho (this is covered in more detail in the next few pages)
4 What is the thickness of oceanic and continental crust
5 What happens to P and S waves just below the Moho
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Using the diagram above describe the relationship between velocity and depth of the seismic P wave
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Using the diagrams above describe the relationship between velocity and depth of the seismic S
waves suggest an explanation for this occurrence
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
How can such data be used to show crustal layering
What can be deduced about the internal structure of the crust
How can such data be used to calculate the thickness of the crust
Why are earthquakes rare occur in the asthenosphere
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
The Consortium for Continental Reflection Profiling (COCORP)
pioneered the use of multichannel seismic reflection profiling
for the systematic exploration of the continental lithosphere
COCORP-type profiles routinely probe to the base of the crust
and frequently deeper COCORP has collected over eleven thou-
sand kilometers of profiling at thirty sites in the United
States Among the best known of COCORPs US results are its
demonstration of large-scale low-angle thrust faulting in the
Appalachians confirmation of a thrust origin for Laramide
basement uplifts delineation of the variable character of the
continental Moho including new evidence for its post-orogenic
re-equilibration its multi-genetic origin (including phase
changes) and possible role as a structural detachment magma
bright spots beneath Cenozoic rifts of the western US
crustal-scale detachment faults in the eastern Basin and
Range mapping of major buried Precambrian layered sequences
in interior US and definition of crustal shear zones marking
major Proterzoic sutures of the buried craton
The success of COCORP stimulated major deep seismic explo-
ration programs in over twenty countries including Great Brit-
ain (BIRPS) France (ECORS) Germany (DEKORP) and Canada
(LITHOPROBE)
Extra Reading and research can be found at COCORP and
BIRPS
Below is an extract from the COCORP website -
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Using Figures 2a and 2b complete Figure 2c to show the Lithosphere and Astheno-
sphere
Looking back at the thickness of the lithosphere how do you think depth of the
low velocity zone correlates to the distance from the oceanic ridges
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
The Mohorovičić discontinuity (Croatian pronunciation [mɔhɔˈrɔvitʃitɕ]) (MOE-HOE-
ROE-vee-cheech) usually referred to as the Moho is the boundary between the
Earths crust and the mantle Named after the pioneering Croatian seisomologist
Andrija Mohorovičić the Moho separates both oceanic crust and continental crust
from underlying mantle The Moho mostly lies entirely within the lithosphere only
beneath mid-ocean ridges does it define the lithosphere ndash asthenosphere boundary
The Mohorovičić discontinuity was first identified in 1909 by Mohorovičić when he
observed that seismograms from shallow-focus earthquakes had two sets of P-waves
and S-waves one that followed a direct path near the Earths surface and the other
refracted by a high velocity medium[1]
The Mohorovičić discontinuity is 5 to 10 kilometres (3ndash6 mi) below the ocean floor
and 20 to 90 kilometres (10ndash60 mi) beneath typical continents with an average of 35
kilometres (22 mi) beneath them
Two paths of a P-wave one direct and one refracted as it crosses the Moho
Immediately above the Moho the velocities of primary seismic waves (P-waves) are
approximately those of basalt (67 ndash 72 kms) and below they are that of peri-
dotitic or dunitic Earth-materials (76 ndash 86 kms)[3] That suggests the Moho marks
a change of composition but the interface appears to be too even for any believable
sorting mechanism within the Earth Near-surface observations suggest such sorting
produces an irregular surface Some history of suggestions that the boundary marks
instead a phase change controlled by a temperature gradient in the Earth (See
McLeish page 122123 for further detail)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
The Moho is a high velocity medium Which P wave would travel fastestmdashthe wave
that passed through the Moho or the wave that travelled within the overlying crust
From Specimen paper
3 Describe and explain how a study of earthquake body waves provides
evidence for the variation in thickness and mechanical properties of the
lithosphere and asthenosphere
[25]
Use the text books classwork and research to plan the answer to the above essay
The mark scheme below should help you
3 Holistic approach (12+1 marks description) (12+1 marks explanation)
Define earthquake body waves
Use ofexplanation of formulae for P and S wave velocities
Incompressibility v density changes - P-wave
Rigidity v density - S-wave
Depth profile of P and S waves to show velocity variation
Depth of the Low velocity zone with distance from spreading centre
Thickening of the lithosphere with age and distance from ridge
Diagrams credited
Definition of the difference between Lithosphere and Asthenosphere in terms of
mechanical
properties
Lithosphere = plate Cold (lt1300o C isotherm) -Brittle thus fractures
You will have 35 minutes to write the response under timed conditions in class
You may on this first occasion use your notes
Poor responses will have to repeat the timed task after college until an accept-
able standard is achieved
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Oceanic crust is the part of Earths lithosphere that surfaces in the
ocean basins Oceanic crust is primarily composed of mafic rocks which
is rich in iron and magnesium It is thinner than continental crust gener-
ally less than 10 kilometers thick however it is denser having a mean
density of about 33 grams per cubic centimeter
Although a complete section of oceanic crust has not yet been drilled
geologists have several pieces of evidence that help them understand
the ocean floor Estimations of composition are based on analyses of
ophiolites (sections of oceanic crust that are preserved on the conti-
nents) comparisons of the seismic structure of the oceanic crust with
laboratory determinations of seismic velocities in known rock types and
samples recovered from the ocean floor by submersibles dredging
(especially from ridge crests and fracture zones) and drilling Oceanic
crust is significantly simpler than continental crust and generally can be
divided in three layers
Layer 1 is on an average 04 km thick It consists of unconsolidated or
semiconsolidated sediments usually thin or even not present near the
mid-ocean ridges but thickens farther away from the ridge Near the
continental margins sediment is terrigenous meaning derived from the
land unlike deep sea sediments which are made of tiny shells of marine
organisms usually calcareous and siliceous or it can be made of volcanic
ash and terrigenous sediments transported by turbidity currents
Layer 2 could be divided into two parts layer 2A ndash 05 km thick upper-
most volcanic layer of glassy to finely crystalline basalt usually in the
form of pillow basalt and layer 2B ndash 15 km thick layer composed of dia-
base dykes
Layer 3 is formed by slow cooling of magma beneath the surface and
consists of coarse grained gabbros and cumulate ultramafic rocks It
constitutes over two-thirds of oceanic crust volume with almost 5 km
thickness
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Label the Moho in the above diagram
Note the diagrams below show symmetry You can be asked to complete half a diagram in the exam
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Label the Moho
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
2002
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Ophiolites
Ophiolites are pieces of oceanic plate that have been thrusted (obducted) onto the
edge of continental plates They provide models for processes at mid-ocean ridges
Ophiolites are an assemblage of mafic and ultramafic lavas and hypabyssal rocks
found in association with sedimentary rocks like greywackes and cherts They are
found in areas that have complex structure Cross-sections simplified from RC
Coleman 1981 Journal of Geophysical Research v 86 p 2497-2508
Ophiolites have been found in Cyprus New Guinea Newfoundland California and
Oman The Samail ophiolite in southeastern Oman has probably been studied in the
greatest detail The rocks probably formed in the Cretaceous not far from the what is
now the Persian Gulf The rocks were later thrust (pushed uphill at a low angle)
westward onto the Arabian shield
Why do Ophiolites give evidence for the composition of oceanic crust and upper
mantle
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Ophiolites are characterized by a classic sequence of rocks This sequence is well
exposed at the Samail ophiolite The base of the sequence is sedimentary rocks of
the Arabian shield not part of the ophiolite on which the oceanic plate was pushed
From base to top the ophiolite is made of peridotite layered gabbro massive gab-
bro dykes and volcanic rocks At Samail this entire sequence is 15 km thick The
basal peridotite is made of a rock called harzburgite (made mostly of the minerals
olivine and enstatite) Within the peridotite are many dikes of gabbro and dunite
The peridotite is deformed The peridotite is overlain by dunite (an intrusive igneous
rock made mostly of the mineral olivine) that grades upward to gabbro (an intrusive
igneous rock made mostly of plagioclase and clinopyroxene - augite) The sequence
is capped by dikes and volcanic rocks (pillow basalts that erupted on the ocean
floor) Sequence of rocks simplified from RC Coleman (1981)
This Oman classic ophiolite complex should be studied carefully
You can be examined on this or a similar sequence
This is an American diagram in UK
we spell DYKES
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
From a tectonic perspective the peridotite is depleted mantle that was under the magma chamber
at the mid-ocean ridge crest The gabbro layer is related in some way to the crystallization of the
magma chamber (probably with repeated injections of magma) The dikes and volcanic rocks are
formed by magma in transit to or at the surface Cross-section simplified from Pallister JS and
Hopson CA 1981 Journal of Geophysical Research v 86 p 2593-2644
To learn more about gabbro and other igneous rocks review the Geotour Igneous Rocks Module or
visit the petrography homepage
To see a classic bit of oceanic crust that has been thrusted up on a continent (an ophiolite ) visit the
Oman Virtual Field Trip
Source of Information
McBirney AR 1985 Igneous petrology Freeman Cooper amp Co
Space for your own notesresearch
Where can ophiolites be found in Britain
Why do ophiolites not typically show magnetic anomalies
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
How can ocean drilling be used to provide evidence for the
composition of oceanic crust and upper mantle
Give an example of an ocean core
How might the evidence compare with that of ophiolites
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
2004
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What do these two diagrams show
Oceanic
Continental
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Complete this diagram
Extra Read pages 174176 McLeish
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What does the above diagram indicate about the plate movements in the Atlantic and Pacific Oceans Work out the rate of movement for each ocean What does the diagram below indicate
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What is the relationship between the direction of magnetism and the table above
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
How can the diagrams above help to provide a frame of reference for calculating the rate of seafloor spreading How can radiometric dating and ocean drilling be used to date magnetic anomalies
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Hot Spots
Read page 4445 of the OCR book
Copy the formula to calculate the rates of sea floor spreading
Answer questions 12 and 3 from page 45
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Oceanic lithosphere consists mainly of mafic crust and
ultramafic mantle (peridotite) and is denser than the
continental lithosphere for which the mantle is associated with
crust made of silicic rocks Oceanic lithosphere thickens as it
ages and moves away from the mid-ocean ridge This
thickening occurs by conductive cooling which converts hot
asthenosphere into lithospheric mantle and causes the
oceanic lithosphere to become increasingly thick and dense
with age Oceanic lithosphere is less dense than
asthenosphere for a few tens of millions of years but after this
becomes increasingly denser than the asthenosphere The
gravitational instability of mature oceanic lithosphere has the
effect that at subduction zones the oceanic lithosphere
invariably sinks underneath the overriding lithosphere which
can be oceanic or continental New oceanic lithosphere is
constantly being produced at mid-ocean ridges and is
recycled back to the mantle at subduction zones As a result
oceanic lithosphere is much younger than continental
lithosphere the oldest oceanic lithosphere is about 170 million
years old while parts of the continental lithosphere are billions
of years old
Write a definition for each of the following terms
MAFIC
ULTRAMAFIC
SILICIC
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What conclusions can be drawn from the diagram above
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Firstly describe the pattern of earthquakes then try to explain the trend shown Look
back at the previous page
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Label a likely location for Ophiolites
Explain why the volcano could produce basalt andesite or granite
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Explain how an accretionary prism is formed
LABEL THE DIRECTION OF PLATE MOVEMENT
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Use page 39 of the OCR text book to complete the above diagram
Use notes from page 40 Oceanicmdashcontinental convergent plate margin to
explain the processes below
LEARN THIS DIAGRAM FOR ESSAYS
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Create a mind map for the information on page 40 OCR book Oceanic ndashOceanic convergent plate margin Include the diagram of the cross section
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Draw diagram b from page 39 of the OCR text book and write 10 bullet points to explain the process Make sure you give specific examples throughout
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Make notes on the ppt point presentation given in class Use page 43 of the OCR book to supplement your notes
GL5 Theme 4 Key Idea 2 The J Tuzo Wilson Cycle ndash
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Oceanic-continental destructive plate margineg Andes South America
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Continental-continental destructive plate margineg IndiaTibet and the Alps
Age of crust is calculated using radio isotope dating
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Iapetus ocean closed causing the Caledonian orogeny (Siliurian to Early Devonian roughly 440-390Ma)
Tethys ocean closed as India collided with Eurasia forming the Himalayas and Africa collided with Europe forming the Alps (end Cretaceous early Tertiary)
(see movie)
Past examples of ocean formation and closure
GEOLOGY GL5THEMATIC UNIT 4
GEOLOGY OF THE LITHOSPHEREAM MONDAY 24 June 2002
4 Describe and explain the evidence for ocean basin evolution
(formation growth and destruction) as proposed in the J Tuzo Wilson
cycle
[25]
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Why does the continental lithosphere resist subduction
What does this suggest about the age of continental crust
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What conclusions can be drawn about the distribution of the ages of the rocks in the diagrams above What do you think an inside out continent would be (Extra reading Super continent by Ted Neild
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Partial Melting and granite magmatism In pairs try to answer Q1 2008 paper Then write 10 bullet points for your notes
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
ISOSTASY
Use Webster page 17 and your own research to explain isostatic uplift and gravitation collapse Make sure you use
diagrams
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Use the internet to research isostasy
Use published lithosphere sections and densities to compare the relative weights and
heights of columns of continental and oceanic lithosphere
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What is delamination
How might this explain the Tibetan Plateau
What impact could this have on the direction of stress and subsequent
faulting in the Tibetan Plateau region
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Read 157158159 of Webster
Use diagrams and bullet points to show how the fold mountains were formed during the closing of the Iapetus Ocean
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
4 (a) Describe how fold mountains are formed
(b) Evaluate the importance of isostasy during their formation [25] 2010
You will write this under timed conditions 35mins (Remember to include diagrams) You must achieve
your target grade or you will have repeat the exercise under timed conditions in your lunchtime
Use the space below to plan your response
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
What type of faults are above
What is the direction of stress
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
Use Webster page 100157158 to explain the formation of the Moine Thrust
(Note the folding takes place before the faulting)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
httpwwwseeleedsacukstructurefaultsstress
Research and make notes from this website on the direction of stress in faults Use diagrams Then answer Q1 2004
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)
4 (a) Describe how forces acting on continental lithosphere may cause brittle or ductile
deformation
(b) Evaluate the importance of the depth in the lithosphere on the types of deformation
produced [25]
Research for homework -to be completed under timed conditions
Use the past papers to complete the data response and essay questions you have not yet done
This is good for revision
Please see me if you get stuck and use the mark schemes to help you understand what the exam-
iners are looking for
(There are one or two essay questions that would not now be in GL5 but in GL4 instead)