Biogeography Study of distribution of organisms. Biogeography Comparative observational science Experiments – limited utility Multiple scales Comparative.
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Biogeography
Study of distribution of organisms
Biogeography
• Comparative observational science
• Experiments – limited utility
• Multiple scales
• Comparative has uses, though
• Synthetic science
Subjects Used in Biogeography
• Anatomy• Physiology• Taxonomy• Developmental• Evolution• Geology• Geography• Ecology• Climatology, Paleontology……
Relevance of Biogeography
• What enables a species to live where it doe, and what prevents it from colonizing other areas?
• What are a species closest relatives and where can they be found? Where did its ancestors live?
• How have historical events shaped a species’ distribution?
Overarching question: What shapes global patterns of biodiversity?
The Importance of Time
• Historical biogeography
• Ecological biogeography
• Paleoecology
“While the process of science owes much to admirable human traits……..it is also
retarded by characteristics such as prejudice, jealousy, short-sightedness, and
stupidity.”
History of Biogeography
• Roots from questions that developed during the “Age of Exploration”
• Shares common lineage with ecology
• Early questions– From where did life come?– How did it diversify across the planet?
Persistent Themes in Biogeography
• Classifying geographic regions based on their biota
• Reconstructing historical development or lineages and biota, including their origin, spread, and diversification
• Explaining differences in numbers and types of species among geographic areas, and along geographic gradients
• Explaining geographic variation in characteristics of individuals and populations of closely related species
Age of Exploration
• 250 yr ago, only 1% of species known today identified
• Mission – reveal mysteries of creation by learning of the diversity of life
• Prevailing view – stasis
• With increasing identification of species, was a clear need for organization
Carolus Linneaus (1707 – 1778)
• Understanding organization would lead to knowing Creator’s plan
• Took static view of Earth• Explain origin and spread of
life• Challenge was to explain
diversity and distribution
Carolus Linneaus (1707 – 1778)
• How could life have spread from Paradise then landing spot of the Ark
• Linnaeus – “Paradisical Mountain” – a mountain island life along the slopes, perfectly adapted for biotic and abiotic conditions at their “station”
• Based on known conditions of tropical mountains
• Later formation of land allowed spread
Comte de Buffon (1707 – 1788)
• Contemporary of Linaeus• Disagreed with his view of
spread of life (living and fossil specimens)
• Places with same climate had different species
• Inhospitable environment around Mount Ararat
• Proposed origin in northern Europe
• Buffon’s hypothesis – climate was cooler at time allowing species to move to new areas and change
• Key points – climate and species were dynamic (central to modern biogeographic theory and precursor to development of evolutionary theory)
Comte de Buffon (1707 – 1788)
• Buffon’s Law – Environmentally similar but separated regions have different species of birds and mammals
• Considered first principle of biogeography
• Later studies by Joseph Banks and Johann Forster found Buffon’s Law applied to plants
Phytogeography
• End of 18th century – natural theology still primary biological theory
• Willdenow (1765-1812) and Humboldt (1769-1859) – phytogeography – geographic distribution of plants
• Studies of plant distribution on Andes mountain (5,600 m elevation
Mt. Chimbaruzo
Phytogeography
• Identified floristic belts from tropical to arctic
• Observed plant communities closely associated with local climate
• Hints at competition (Candolle) Mt. Chimbaruzo
Biogeography of 19th Century
• First three themes established– Classifying geographic regions based on their
biota– Reconstructing historical development or
lineages and biota, including their origin, spread, and diversification
– Explaining differences in numbers and types of species among geographic areas, and along geographic gradients
Biogeography of 19th Century
• Buffon’s Law– Early biogeographers tested– Classify regions based on biota (theme 1)– Reconstructing origin and spread of life
(theme 2)– Changes along gradients (theme 3)– Established approachs still used
• Perception of static earth and life to dynamic
Limitations
• Number of local species increased with area
• Number of species decreased from equator
• Needed to move to next step (rigorous testing) but first needed
WHY??????
Needs for Better Understanding
• Better estimate of age of Earth (natural theology and 6,000 yr)
• Understanding of dynamic nature of continents and oceans
• Understanding of spread and diversification – dispersal, vicariance, extinction, evolution)
Early Advances of 19th Century
• Borngniart – father of paleobotany• Lyell – father of geology• Both used fossil record to conclude climate
changes over time (life forms of tropical climates in northern Europe
• Lyell – changes in sea level and the lifting and erosion of mountains; extinction
• New species arose through new creations after extinctions; new species created for new climate
Early Advances of 19th Century
• Lyell proposed uniformitarianism
• Also, realization that processes occur slowly (gradualism)
• Time needed for geological processes + continual replacement of biota = Earth much older than 6,000 years
Four British Scientists
• Charles Darwin, Joseph Hooker, Philip Sclater, Alfred Russell Wallace
• Naturalists, traveling the world and discovering diversity
• Shared their observations, building a broader image of life
• Did not agree on all points
Darwin
• Origin of Species – contribution is obvious
• Proposed ideas on dispersal of life (countering Agassiz’s view of point near creation)
• The “dispersalist” view made dispersal dynamic
• Disagreement then moved to mechanisms of dispersal (dispersalists vs. extensionists)
Extensionists &Land Bridges
Further Contributions
• Hooker – study of southern hemisphere plant distributions lead to development of vicariance biogeography
• Sclater – used distribution of passerine (perching) birds to develop a system of six biogeographic regions still used today
• Also developed zones based on marine mammals (Fig. 2.8)
Wallace
• Greatest contributions to biogeography (father of zoogeography)
• Expanded view provided by Sclater’s zones
• Established many of the basic principles of biogeography (see Box 2.1)
• Observed a distinct change in fauna of Southeast Asia and Australasia (Wallace Line)
Other 19th Century Contributions
• Bergmann’s rule – homeotherms, body size, and surface-to-volume ratio from poles
• Allen’s rule – limbs of birds and mammals become shorter and stouter as move from equator.
• Cope’s rule – groups tend to increase in size during their evolution
• Limitation of generalities but open new thoughts
Other 19th Century Contributions
• Merriam’s life zones
• Study of elevational changes – found vegetation types and species composition are similar to longitudinal patterns
• Confirmed Humboldt’s work
Twentieth Century
• Burdgeoning info from paleontology
• Origin, dispersal, radiation, and decline of terrestrial vertebrates
• Development of phylogenies– New groups rise– Increase in number of species– Radiate to fill niches and expand range
• Still – question of how dispersed
Twentieth Century
• Relationships between geological and ecological properties of environment
• Patterns of morphological variation
• Coincided with Modern Synthesis
• Linking lead to formulation of biological species concept (Ernst Mayr)
• Also identified allopatric speciation
Continental Drift
• Earth’s crust believed fixed until 1960s
• Continental drift 1st proposed 1858
• Resurfaced by Wegener and Taylor using geological and ecological evidence
• Criticized and denied until evidence became overwhelming
• Changed dispersal from land bridges to movements of continents
New Phylogenetic Methods
• Continental drift lead to study of disjunctions
• Vicariance biogeography
• Examination and revision of phylogenies
Further Aids
• Computers
• Geographic information systems
• Geostatistics
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