AWG Glenwood Sprs, Oct 2007 Understanding the Polar Regions in Climate Change STEM Polar Connections Outline -- What are the Polar Regions Important to Everyone? Geography of the Poles Oceans, land, sea ice and ice sheets Definition of the Arctic Tilt of the Earth Cause of Seasons Changes in Day Length Seasonal Productivity Links to CO2 Earth in the Balance Oceans and THC Atmosphere T and P Cryosphere sea ice snow cover/albedo ice and CO2 Bjerknes Center image, Bergen Continent landmass covered with glacial ice surrounded by Ocean Deep Ocean surrounded by Land and world s largest continental shelves Average depth of the Arctic Ocean is 1038 meters (3407 ft). The deepest point is in the Eurasian Basin, at 5450 meters (17,881 ft). Entire basin is 1.5 x size of the contiguous US Best known for its ice cover! 1
Earth s north pole is in the Arctic Ocean over the deep Eurasian Basin 60% of the Arctic ocean is underlain by shallow continental shelves -- the largest in the world!! Greenland Ice sheet Whiteness! Ice and snow If it melted, the water would return to the sea and raise global sea level ~ 6.5 m (21 ft.) 2
Contrasts in landscapes Vegetation Contrasts Boreal forests of birch, spruce Treeline ecotone Open Tundra How does the Earth work? What controls changes in the oceans and the atmosphere? What makes this a habitable planet? What results from the contrast between the tropics and the poles? 3
Two ways to move heat : Ocean currents and Atmospheric Circulation 68 100 Gulf Stream Earth s has an axial tilt of about 23. 44 degrees, always tilted In the same direction throughout the year. But as the Earth orbits the sun, tilt changes which hemisphere receives more Sunlight causing the Seasons. 4
Effect of different angles of sun Summer solstice more concentrated. Winter solstice less concentrated, spread out Summer solstice hot weather on the way. Winter cooler. Winter solstice in northern hem Sunlight conc. Same time, southern hem, sun light is LESS conc. Northern hem winter solstice, just the opposite. Recall Dec 21, ~Xmas Australians celebrate Xmas in the summer Ray s slide for sun path 5
Impact on Temperature Impact on Oceans and ocean circulation Temperature and Beaufort Sea The annual cycle of global radiation (brown line) and surface air temperature (blue line) at a grid cell location in the central Beaufort Sea. Values were drawn from the Arctic Meteorology and Climate Atlas gridded fields for global radiation and two-meter air temperature. http://nsidc.org/arcticmet/factors/ Low latitude oceans are warm and move heat to the poles Gulf of Mexico Caribbean Sea Gulf Stream 0 (Equator) 30 S 60 N North Atlantic Current North Atlantic Subtropical Gyre N. Equatorial Current Eq. Countercurrent Brazil Current Canary Current S. Equatorial Current Subtropical Gyre South Atlantic Mediterranean Sea 30 N Benguela Current West Wind Drift 60 S East Wind Drift 6
The great ocean conveyer: of heat and salts Seasonal Movement of the ITCZ January (N. Hemisphere winter) July (N. Hemisphere summer) Thermohaline circulation --warm waters move northward by winds, lose heat to the atm by evaporation, become saltier, cool and sink to deep ocean Understanding and Projecting the Changes in the Oceanic Conveyor Belt is a Critical Question for Science WHOI 7
Arctic inflow Arctic outflow The North Atlantic Current provides about 60% of the inflow to the Arctic Ocean bringing warmer water from the Atlantic Ocean. Some water also moves into the Arctic Ocean from the Bering Sea and the Pacific Ocean, by way of the Bering Strait. Water flows from the Arctic Ocean into the Pacific and Atlantic Oceans, as well as into a number of surrounding seas. By far, the greatest volume of water leaves the Arctic Ocean through the passage between Greenland and Spitsbergen. http://www.aquatic.uoguelph.ca/oceans/articoceanweb/currents The snow and ice that cover the Arctic reflect about 90% of the sun's energy, so the Arctic is constantly losing heat. However, the ocean currents also exchange heat; currents from the Atlantic bring warm water into the Arctic, while currents traveling southwards discharge cold water. 1979 2003 Sea ice extent in the Arctic has huge image on albedo - reflectivity of Earth Surface 2010-2030 2040-2060 8
Why the Arctic Warms Faster Why the Arctic Warms Faster A Critical Reason is that: Timeless Arctic Marine Transport INSROP (1999) 9
Reduced sea ice is very likely to increase marine transport and access to resources. Laser altimeter measurements of Greenland Ice Sheet from aircraft GPS tracking of ice movement But wow! In 2007, we reached what was predicted for 2070 only a few years ago! Recent results suggest more snow is falling on top of ice sheet, but it is melting faster than that at the edges. Enough liquid water to fill 51 cubic kilometers in a year (lake 30 miles x 30 miles x 70 feet deep or.005 inches over the world ocean Cartoon x-section of ice sheet 10
ice sheet models of size of Greenland during normal warm periods Letréguilly et al. 1991 Tarasov & Peltier 2003 CAPE Synthesis: CircumArctic Last Interglacial 5e Reconstruction CAPE Project members, Quaternary Science Reviews, 2006 Science, 2006 Documented Sea ice extent, ice sheet melt, paleoenvironmental reconstructions & modeling Huybrechts 2002 2.2 m min SL rise 3.4 m max SL rise Cuffey & Marshall 2000 We are tracking high end predictions Thermal expansion greater: 93-03 data 1.6 m/myr Not IPCC2007 40±20 cm Best estimate 80 cm global; max. 1 m? Rahmsdorf et al. (2007) Long Beach Island, NJ Human stabilized Increase in heat W/m 2 Willis et al. (2004) Natural movement 400 m Courtesy N. Psuty 11
Where Al got it wrong 80 cm-1m in 100 yrs with subsidence making it worse in some places Insurance Rates? Disaster relief? Both need forecasting and planning Greenland (= 6 m of sea level) is thinning now But did not disappear during the last Interglacial Season Change in the Biosphere Season changes cause zigzags in CO 2 in Atm. Esp. driven by Northern Hemisphere. In Spring - photosynthesis drops CO 2, in Fall, decomposition causes increase in CO 2 12
Monitoring of CO2 and other Greenhouse gases recorded around the world All get very similar measurements Why? Now at 380 ppm Source: Petit et al., 1999 13
There is no analog for the future we face; we need no regrets strategies to reduce vulnerability(nas, 2002) 1600 1200 800 400 Petit et al. (1999) Nature 399:429-436 Vostok Ice Core Today 400 350 300 250 200 150 100 50 kyr BP IPCC Projections 2100 AD CO 2 (450-1100) CH 4 (1500-3700) 360 380 300 240 180 Summary From NOAA For hundreds of thousands of years, the Earth has imported heat in the tropics and exported heat via the poles maintaining a balance. We are certain that as CO2 goes up and down, the temperature of the earth follows. The lost of reflective surfaces in the Arctic with increasing global temperatures leads to positive feedbacks that warm the earth even more. CO2 is rising fast because of us; Mother Earth is responding. NO REGRETS STRATEGIES (National Research Council Report, 2002) to reduce vulnerability and increase adaptation at little or no cost, by nudging research and policy in directions that will increase the adaptability of systems Energy Policies - to slow climate change Ecological Policies -- land use & coastal planning Forecasting of weather and weather related events Institutions -- water systems, insurance, and statistical data for policy reform Strong Science Rational Decision Making Geological Past and Study of Depositional and Biological Systems of Environmental Change Global Environ -mental Policy 14