1. Assessment Statements
6.1.3 – Discuss qualitatively the potential effects of increased mean global temperature
6.1.4 – Discuss the feedback mechanisms that would be associated with an increase in mean global temperature

2. Potential Effects of Increased Mean Global Temperature
Sea level rise
Thermal expansion
Ice melt
Outcome
Flooding of cities, estuaries, wetlands, reefs
Beach erosion
Disruption of fisheries
Contamination of coastal aquifers with salt

3. Potential Effects Coastal residents forced to migrate inland
Results in overcrowding of inland cities
Lack of infrastructure to support population
Result in shortages of resources

4. Potential Effects Increase in sea temperatures
Results in more intense hurricanes and typhoons

5. Potential Effects
Increased temperature also changes the density of ocean water
Affects the upwelling of deep ocean water
Affects the global conveyor belt that moves the heat energy around the planet
This could ultimately push the world climate into another ice age

6. Potential Effects Effects on polar ice caps:
Greenland ice sheet completely melts
Slows/stops North Atlantic Drift (NAD) current by diluting the salt water.
If the NAD current and the Gulf Stream slow/stop -climate of the UK and Scandinavia would be much colder
The melting of the Artic
could open up trade routes
allow for exploitation of undersea minerals and fossil fuel reserves.
Methane clathrate is a form of ice under the Artic ocean floor that traps methane. If it were to melt and reach the surface, the release of methane might trigger a rapid increase in temperatures.

7. Potential Effects Effects on biodiversity and ecosystems:
Melting of tundra permafrost - release methane trapped in the frozen soils.
Animals can move to cooler regions plants cannot.
The distribution of plants can shift as they disperse seeds which germinate and grow in more favourable habitats
could be too slow to stop them from becoming extinct
Alpine, tundra, and polar species could become extinct
Birds and butterflies have already shifted their ranges to higher latitudes.
Plants are breaking their winter dormancy earlier.
Loss of glaciers decrease the salinity of marine waters and changes to ocean currents alter habitats.

8. Potential Effects Effects on food production: Agriculture
Higher temp = increase biochemical reactions (photosynthesis)
Higher temp = increase in respiration – therefore no increase in NPP
In Europe the crop growing season has expanded.
If biomes shift away from the equator, there will be winners and losers. It depends on the fertility of soils as well. For example if production shifts northwards from the Ukraine with its rich black soils to Siberia with its thinner, less fertile soils, NPP will decrease.
In seas, a small increase in temperature can kill plankton, the basis of many marine food webs.
Agriculture
Shifts in growing areas
Changes in crop yields
Increased irrigation demands
Increases pests, crop diseases and weeds

9. Potential Effects Effects on human health:
malaria, yellow fever, and dengue fever could spread to higher latitudes.
In a wetter climate fungal diseases will increase.
In a drier climate dust increases leading to asthma and chest infections.
Warmer temperatures in higher latitudes would reduce the number of people dying from the cold each year and reduce heating bills for households.

10. Potential Effects Effects on human migration:
If people can not grow food or find water, they will move to regions where they can.
Global migration of millions of environmental refugees is quite possible and this would have implications for nation states, services and economic and security policies.
The IPCC estimates that a 150 million refugees from climate change in 2050.

11. Potential Effects Effects on national economies:
Some economies would suffer if water supplies decrease or drought occurs.
This could open up new resources such as tar sands in Canada and Siberia, which have been frozen under permafrost.
If rivers don’t freeze hydroelectric power generation will be possible at higher latitudes.
Agricultural production may increase in higher latitudes but fall in the tropics

12. Impacts of Global Climate Change in U.S.
Arid deserts in Southwestern U.S. will shrink as precipitation increases
Savanna/shrub/woodland systems will replace grasslands in the Great Plains
Eastern U.S. – forests will expand northerly – weather conditions will become more severe
Southeastern U.S. – increasing droughts will bring more fires – triggering a rapid change from broadleaf forests to Savannas
Present day
Predicted Distribution
forest
grassland
arid
woodland
shrub
land
shrub land

13. Impacts of Global Climate Change
Increases in evaporation in tropical areas
Results in a change in global rain patterns
Increased precipitation resulting in increased flooding
Decreased precipitation may result in drought, crop failures and famine