Potential impacts of climate change

	Potential Impacts of Climate Change
HOME PAGE Chemtrails Web Polymers Patents Pic Gallery Aircraft Charts Health Issues Atmospheric Physics HAARP Geoegineering Global Warming Climate Change Ozone Depletion Greenhouse Gases Phytoplankton Oceans Bush File Cheney File Iraq War "You take the blue pill and the story ends. You wake in your bed and you believe whatever you want to believe." Escape Enter "You take the red pill and you stay in Wonderland and I'll show you how deep the rabbit-hole goes." Store and Support	Vital Climate Graphics 18. Potential climate change impacts If greenhouse gas concentrations keep rising, climatic changes are likely to result. Those changes will potentially have wide-ranging effects on the environment and socio-economic sectors. 19. The six IPCC scenarios The projection of future climate change depends partly on the assumptions made about future emissions of greenhouse gases and aerosol precursors and the proportion of emissions remaining in the atmosphere. 20. Projected changes in CO2 and climate: summary of assumptions in the IPCC 1992 alternative scenarios Projected anthropogenic CO2 emissions from fossil fuel use, deforestation and cement production for the six IPCC emission scenarios. 21. Projected Changes in Global Temperature Climate models calculate that the global mean surface temperature could rise by about 1 to 4.5 centigrade by 2100. 22. Scenarios of sea level rise Models project an increase in global mean sea level of between 13 and 94 cm by the year 2100. 23. Sensitivity, Adaptability and Vulnerability The potential impacts of climate change on the environment and socio-economic systems can be understood in terms of sensitivity, adaptability and vulnerability of the system. 24. The great weather and flood catastrophes over the last forty years Some reports suggest that increase in climate variability or extremes has taken place in recent decades. Forests 25. Forest composition case study in North America 26. Impact on mountain vegetation zones The figure shows a comparison of current vegetation zones at a hypothetical dry temperate mountain site with simulated vegetation zones under a climate-warming scenario. Cryosphere 27. Thinning of the Arctic sea-ice Ice draft in the 1990s is more than a meter thinner than it was 20 to 40 years earlier. 28. Evolution of the ice-breaking date in the River Torino (Finland) Winter ice on the Tornio River in Finland has broken up earlier and earlier since records began in 1693. 29. Changes in permafrost temperatures at various depths in Fairbanks (Alaska) Widespread loss of discontinous permafrost will trigger erosion or subsidence of ice-rich landscapes, change hydrologic processes, and release CO2 and methane to the atmosphere. Oceans and coastal areas 30. Great ocean conveyor belt The global conveyor belt thermohaline circulation is driven primarily by the formation and sinking of deep water (from around 1500m to the Antarctic bottom water overlying the bottom of the ocean) in the Norwegian Sea. 31. Potential impact of sea-level rise on Bangladesh Bangladesh, one of the world's poorest nations is also the country most vulnerable to sea-level rise. 32. Potential impact of sea level rise: Nile Delta (today) The Nile Delta is one of the oldest intensely cultivated areas on earth. It is very heavily populated, with population densities up to 1600 inhabitants per square kilometer. The low lying, fertile floodplains are surrounded by deserts. Only 2,5% of Egypt's land area, the Nile delta and the Nile valley, is suitable for intensive agriculture. Most of a 50 km wide land strip along the coast is less than 2 m above sea-level and is protected from flooding by a 1 to 10 km wide coastal sand belt only, shaped by discharge of the Rosetta and Damietta branches of the Nile. Erosion of the protective sand belt is a serious problem and has accelerated since the construction of the Aswan dam. 33. Potential impact of sea level rise: Nile Delta (0.5 to 1.0 metres) Rising sea level would destroy weak parts of the sand belt, which is essential for the protection of lagoons and the low-lying reclaimed lands. The impacts would be very serious: One third of Egypt's fish catches are made in the lagoons. Sea level rise would change the water quality and affect most fresh water fish. Valuable agricultural land would be innundated. Agriculture 34. Changes on cereal production under three different GCM equilibrium scenarios The figure shows change in cereals production under three different GCM equilibrium scenarios (percent from base estimated in 2060). 35. Impact of temperature rise on robusta coffee in Uganda In Uganda, the total area suitable for growing Robusta coffee would be dramatically reduced with a temperature increase of 2 centigrades. Freshwater resources 36. Freshwater stress Even if the world maintained the pace of the 1990s in water supply development, it would not be enough to ensure that everyone had access to safe drinkning water by 2025. 37. Population and freshwater stress One study suggests that although global water conditions may worsen by 2025 due to population pressure, climate change could have a net positive impact on global water resources. Human health 38. Spread of major tropical vector-borne diseases Climate change and altered weather patters would affect the range (both altitude and latitude), intensity, and seasonality of many vector-borne and other infectioius diseases. 39. Potential dengue transmission in case of temperature rise A warmer climate increases occasions of vector borne tropical diseases. The figure depicts weeks of potential dengue transmission under current temperature and 2°C and 4 °C warming. 40. Malaria. Plasmodium vivax, with the Anopheles mosquito as a vector, is an organism causing malaria. The main climate factors that have bearing on the malarial transmission potential of the mosquito population are temperature and precipitation. Vital Climate Graphics FAIR USE NOTICE. This document contains copyrighted material whose use has not been specifically authorized by the copyright owner. GeoCrisis is making this article available in our efforts to advance the understanding of environmental justice issues, corporate accountability, human rights, labor rights, social understanding. We believe that this constitutes a 'fair use' of the copyrighted material as provided for in section 107 of the U.S. Copyright Law. If you wish to use this copyrighted material for purposes of your own that go beyond 'fair use,' you must obtain permission from the copyright owner

Potential Impacts

of Climate Change

HOME PAGE

"You take the blue pill and the story ends. You wake in your bed and you believe whatever you want to believe."

Escape Enter

"You take the red pill and

you stay in Wonderland and I'll show you how deep the rabbit-hole goes."

Store and Support

Vital Climate Graphics

18. Potential climate change impacts
If greenhouse gas concentrations keep rising, climatic changes are likely to result. Those changes will potentially have wide-ranging effects on the environment and socio-economic sectors.

19. The six IPCC scenarios
The projection of future climate change depends partly on the assumptions made about future emissions of greenhouse gases and aerosol precursors and the proportion of emissions remaining in the atmosphere.

20. Projected changes in CO2 and climate: summary of assumptions in the IPCC 1992 alternative scenarios
Projected anthropogenic CO2 emissions from fossil fuel use, deforestation and cement production for the six IPCC emission scenarios.

21. Projected Changes in Global Temperature
Climate models calculate that the global mean surface temperature could rise by about 1 to 4.5 centigrade by 2100.

22. Scenarios of sea level rise
Models project an increase in global mean sea level of between 13 and 94 cm by the year 2100.

23. Sensitivity, Adaptability and Vulnerability
The potential impacts of climate change on the environment and socio-economic systems can be understood in terms of sensitivity, adaptability and vulnerability of the system.

        24. The great weather and flood catastrophes over the last forty years
Some reports suggest that increase in climate variability or extremes has taken place in recent decades.

Forests
         25. Forest composition case study in North America

         26. Impact on mountain vegetation zones
The figure shows a comparison of current vegetation zones at a hypothetical dry temperate mountain site with simulated vegetation zones under a climate-warming scenario.

Cryosphere
          27. Thinning of the Arctic sea-ice
Ice draft in the 1990s is more than a meter thinner than it was 20 to 40 years earlier.

28. Evolution of the ice-breaking date in the River Torino (Finland)
Winter ice on the Tornio River in Finland has broken up earlier and earlier since records began in 1693.

29. Changes in permafrost temperatures at various depths in Fairbanks (Alaska)
Widespread loss of discontinous permafrost will trigger erosion or subsidence of ice-rich landscapes, change hydrologic processes, and release CO2 and methane to the atmosphere.

Oceans and coastal areas

          30. Great ocean conveyor belt
The global conveyor belt thermohaline circulation is driven primarily by the formation and sinking of deep water (from around 1500m to the Antarctic bottom water overlying the bottom of the ocean) in the Norwegian Sea.

               31. Potential impact of sea-level rise on Bangladesh
Bangladesh, one of the world's poorest nations is also the country most vulnerable to sea-level rise.

              32. Potential impact of sea level rise: Nile Delta (today)
The Nile Delta is one of the oldest intensely cultivated areas on earth. It is very heavily populated, with population densities up to 1600 inhabitants per square kilometer. The low lying, fertile floodplains are surrounded by deserts. Only 2,5% of Egypt's land area, the Nile delta and the Nile valley, is suitable for intensive agriculture. Most of a 50 km wide land strip along the coast is less than 2 m above sea-level and is protected from flooding by a 1 to 10 km wide coastal sand belt only, shaped by discharge of the Rosetta and Damietta branches of the Nile. Erosion of the protective sand belt is a serious problem and has accelerated since the construction of the Aswan dam.

              33. Potential impact of sea level rise: Nile Delta (0.5 to 1.0 metres)
Rising sea level would destroy weak parts of the sand belt, which is essential for the protection of lagoons and the low-lying reclaimed lands. The impacts would be very serious: One third of Egypt's fish catches are made in the lagoons. Sea level rise would change the water quality and affect most fresh water fish. Valuable agricultural land would be innundated.

Agriculture

34. Changes on cereal production under three different GCM equilibrium scenarios
The figure shows change in cereals production under three different GCM equilibrium scenarios (percent from base estimated in 2060).

35. Impact of temperature rise on robusta coffee in Uganda
In Uganda, the total area suitable for growing Robusta coffee would be dramatically reduced with a temperature increase of 2 centigrades.

Freshwater resources

36. Freshwater stress
Even if the world maintained the pace of the 1990s in water supply development, it would not be enough to ensure that everyone had access to safe drinkning water by 2025.

37. Population and freshwater stress
One study suggests that although global water conditions may worsen by 2025 due to population pressure, climate change could have a net positive impact on global water resources.

Human health

       38. Spread of major tropical vector-borne diseases
Climate change and altered weather patters would affect the range (both altitude and latitude), intensity, and seasonality of many vector-borne and other infectioius diseases.

              39. Potential dengue transmission in case of temperature rise
A warmer climate increases occasions of vector borne tropical diseases. The figure depicts weeks of potential dengue transmission under current temperature and 2°C and 4 °C warming.

           40. Malaria.
Plasmodium vivax, with the Anopheles mosquito as a vector, is an organism causing malaria. The main climate factors that have bearing on the malarial transmission potential of the mosquito population are temperature and precipitation.

Vital Climate Graphics

FAIR USE NOTICE. This document contains copyrighted material whose use has not been specifically authorized by the copyright owner. GeoCrisis is making this article available in our efforts to advance the understanding of environmental justice issues, corporate accountability, human rights, labor rights, social understanding. We believe that this constitutes a 'fair use' of the copyrighted material as provided for in section 107 of the U.S. Copyright Law. If you wish to use this copyrighted material for purposes of your own that go beyond 'fair use,' you must obtain permission from the copyright owner