The Arctic Where is the Arctic? Summer 2010 Workshop in Biology and Multimedia for High School Teachers http://upload.wikimedia.org/wikipedia/commons/ thumb/9/92/Arctic_%28orthographic_projection %29.svg/541px-Arctic_%28orthographic_projection %29.svg.png http://en.wikipedia.org/wiki/File:Arctica_surface.jpg http://en.wikipedia.org/wiki/ File:Sunny_Skies_over_the_Arctic_in_Late_June_2010.jpg Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers
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The Arctic Where is the Arctic?
Summer 2010 Workshopin Biology and Multimedia for High School Teachers
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers
Arctic BiodiversityThe Tundra!
False color satellite image of the north slope of Alaska. At the bottom is the Brooks Range with several major rivers flowing north across tundra to the arctic ocean, which is covered in sea ice. Light blues are snow and ice, dark blue is open water, green is vegetation, pink is bare ground.
Alaskan tundra looking south the Brooks range. The tundra is largely flat with low vegetation and frequent large ponds. http://en.wikipedia.org/wiki/File:NorthSlopeAlaska_L7_20010616.jpg
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers
Activity!
• Use the cards provided by your teacher to research the flora and fauna of the tundra.
• Now use your cards to build a basic trophic pyramid for the tundra.
• Now make a food web with your cards.
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for
Biology Teachers
How will climate change alter Arctic
biodiversity?
• Remember that all ecosystems respond over time to local abiotic factors (climate).
• Now lets look at how the tundra might respond to modern climate change.
• First we will look at evidence for anthropogenic climate change and then at a case study of how climate change may alter the arctic tundra ecosystem.
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for
Biology Teachers
Climate Change
Global average temperature over the last 2000+ years.
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers
Climate Change
Global average temperature over the last 35 years. Note that while there is variation between years (some warm and some cold) the overall upward trend over time is clear. Climate is defined as the 30 year average of local weather, therefore this 35 year record shows a clear warming of the global climate.
The greenhouse effect: Solar radiation is absorbed by the Earth. The earth then radiates infra-red light (heat) back towards space. Greenhouse gases, like carbon dioxide, absorb some of this heat and store that energy in the atmosphere. This process makes the atmosphere warm enough for life to exist all over the planet.
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers
Note that the high arctic tundra is projected to warm more than any other terrestrial biome, potentially up to 5.5°C!
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for
Biology Teachers
Final Activity!
• “The arctic fox and the snowy owl have been declining through the last decade . . .”
• “. . . generalist predators like the red fox seem to be spreading northward . . .”
• “Intense winter breeding, leading to rapid population growth under the snow, precedes peak years in arctic lemmings . . . . Seasonal peak densities are then reached in the spring.”
• “For small mammals, deep snow offers protections both from low ambient temperatures and from many predators.”
• “In areas with short winters and a shallow snow cover, it seems that voles [and lemmings] always decline to very low populations densities in the spring.”
• “Specialist predators [like the snowy owl and arctic fox] depend on a high density of of prey [lemmings] in the spring to breed successfully.”
• “Models of climate change predict that winters in the Arctic will become considerably warmer and more variable . . . .”
Print these quotes and cut out each one. Now arrange them in an order that leads to a logical argument about the effects of climate change on this ecosystem. Depending on your result, rearrange your food web diagram to show how the tundra system might change as a result of climate change. Discuss with the class.
Ims, Rolf A., Eva Fuglei. Trophic Interaction Cycles in Tundra Ecosystems and the Impact of Climate Change. BioScience. April 2005/Vol. 55 No.4. Accessed on 7/17/10 at http://www.arcus.org/alaskafws/downloads/pdf/general_arctic_change/Ims2005.pdf
Harvard University Life Sciences - HHMI Outreach Summer 2010 Workshop for Biology Teachers