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Global Warming CLIM 101 // Fall 2012 George Mason University 18 Sep 2012.

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Presentation on theme: "Global Warming CLIM 101 // Fall 2012 George Mason University 18 Sep 2012."— Presentation transcript:

1 Global Warming CLIM 101 // Fall 2012 George Mason University 18 Sep 2012

2 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Global Warming Global Warming is the increase in the average surface air temperature of the Earth since direct measurements have been taken. 0.76°C (1.4°F) since 1900 0.55°C (1.0°F) since 1979

3 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Global Warming (Trend 1979-2005)

4 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Global Warming - Terminology “Climate Change: Are We on the Brink of a Pronounced Global Warming” (Broecker, 1975, Science) “Global” signifies average conditions over the whole Earth. However, global warming does not mean equal warming everywhere on the planet; in fact, some regions may be cooling while the global average is warming. Global Climate Change: Suggests changes other than temperature increase. Often used to indicate changes to which human Activities contribute (greenhouse gases, land degradation, deforestation) Global Heating: implies humans are involved; used by Gaia theorist, James Lovelock

5 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 LAST TWO MILLENIA OR SO … 2000 Year Northern Hemisphere Reconstruction of Surface Air Temperatures Temperature Anomaly ( o C)

6 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 LAST CENTURY OR SO …

7 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012

8 What’s Happening in the Ocean?

9 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Global Sea Level Change, 1993-2006, from radar altimeters on TOPEX/Poseidon and Jason-1 (From Mitchum and Nerem, in Our Changing Planet: The View From Space, 2007) Spatial distribution of sea level change, 1993-2006 Globally averaged sea level rise, 1993-2006 0.17 m (7.5”) since 1900 thermal expansion added freshwater

10 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 NH Average Snow-Covered Area (SCA)

11 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 2007: 38% below average 2008: 34% below average

12 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Greenland Ice Sheet Melt 1 Trillion Tons of Ice Melt since 2003 (Enough to fill 11 Chesapeake Bays) Melting of Greenland ice sheet will rise global sea level by 7 m.

13 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Recent analyses of satellite measurements do not indicate a long-term trend in solar irradiance (the amount of energy received by the sun), Frohlich and Lean (2005) Solar Irradiance No significant trend

14 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 CO2 emissions have grown by 80% between 1970 and 2004.CO2 emissions have grown by 80% between 1970 and 2004. (2005: 379 ppm; All GHG: 455 ppm (CO2 equivalent); Primary reason: fossil fuel use and land-use change) Rate of increase of CO 2, CH 4, N 2 O was the largest in 10,000 years.Rate of increase of CO 2, CH 4, N 2 O was the largest in 10,000 years. ------------------------------------------------------------------------------------------------------------------------------------------------------------------------ Global mean surface temperature increase (linear trend) 0.76 o C in 100 years (1906-2005).Global mean surface temperature increase (linear trend) 0.76 o C in 100 years (1906-2005). 12 of the past 13 years have been the warmest on record.12 of the past 13 years have been the warmest on record. In the past 500 years, the warmest 50 year period was 1951-2000.In the past 500 years, the warmest 50 year period was 1951-2000. The Knowns (Observed)

15 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Sea level has risen 1.8 mm/yr since 1961; 3.1 mm/yr since 1993.Sea level has risen 1.8 mm/yr since 1961; 3.1 mm/yr since 1993. Arctic sea ice extent reduced by 2.7% per decade since 1978.Arctic sea ice extent reduced by 2.7% per decade since 1978. (The summer minimum on record; 2007) Enhanced run-off and earlier spring peak discharge in many glaciers and snow-fed rivers.Enhanced run-off and earlier spring peak discharge in many glaciers and snow-fed rivers. Extreme hot nights have increased ; frost days have decreased.Extreme hot nights have increased ; frost days have decreased. -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Earlier timing of spring events (blooms) on land.Earlier timing of spring events (blooms) on land. Poleward and upward shifts in plant and animal ranges.Poleward and upward shifts in plant and animal ranges. Changes in algal, plankton, and fish abundances (~Temp.).Changes in algal, plankton, and fish abundances (~Temp.). Increase in the acidity of oceans.Increase in the acidity of oceans. The Knowns (Observed)

16 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 An Elegant Science Question: Are increases in greenhouse gases responsible for increase in global mean temperature (global warming)? 0.76°C (1.4°F) since 1900 0.55°C (1.0°F) since 1979 395 365 335 305 275 14.6 14.4 14.0 13.8 13.4 14.2 13.6 Global Temperature & Carbon Dioxide 1860-2008

17 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Greenhouse gases increase due to human activities. Global warming is due to increases in greenhouse gases. Global warming is due to human activities. Hypothesis Alternative Hypothesis Global warming is due to natural variations of climate. How do you test such hypotheses? Climate Models; IPCC

18 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Ecosystems Weather Climate Humans

19 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 How Should We Characterize these Relationships (arrows)? Cause and Effect - changes may occur on either side of the arrow … which is the cause and which is the effect? More specifically, what is the proximate cause and the ultimate cause of any given phenomenon? – Example: Does deforestation change the climate or does climate change alter the trees (or both … see “feedback” below)? Magnitude - to what degree does one system affect another? – Example: How large a change in climate is required to change the flora or fauna in a given location? Time Scale - do changes in one system respond on the same time scale as changes in another? – Example: How long must a heat wave persist in order to result in human fatalities? Feedback - does a change in one system, that results in a change in another, in turn cause the first system to respond? – Positive feedback: the cycle of changes tends to amplify the responses – Negative feedback: the responses in one system tend to reverse the changes in the forcing system – Example: Deforestation may reduce the precipitation in a given region making it unlikely that the forest will grow back

20 CLIM 101 // Global Warming, Weather, Climate and Society // Fall 2012 Summary Global average Earth surface temperature is known to vary annually, interannually, decadally, and on longer time scales Over the past 150 years or so, especially since 1970, the surface temperature has increased more rapidly than at any time in the current climate epoch Simultaneously, human activities have substantially increased the concentrations of greenhouse gases Large trends in other potential (natural) factors determining the mean surface temperature have not been discerned An elegant scientific question can be posed: are increasing greenhouse gases due to human activity responsible for the observed global warming?


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