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| | | Climate Variability and Climate Change |
Maintained by WMO |
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| | Natural or man-made? | | |  Human activities are increasing the atmospheric concentrations of greenhouse gases (which tend to warm the atmosphere) and, in some regions, aerosols (which tend to cool the atmosphere). These changes in greenhouse gases and aerosols, taken together, are projected to lead to regional and global changes in climate and climate-related parameters such as temperature, precipitation, soil moisture and sea level. Based on the range of sensitivities of climate to increases in greenhouse gas concentrations reported by the Intergovernmental Panel on Climate Change (IPCC) and plausible ranges of emissions and aerosol concentrations, climate models project an increase in global mean surface temperature of about 1-3.5°C by 2100 and an associated increase in sea level of about 15-95 cm. The reliability of regional-scale predictions is still low and the degree to which climate variability may change is uncertain. However, potentially serious changes have been identified, including an increase in some regions in the incidence of extreme high-temperature events, floods and droughts, with resultant consequences for fires, pest outbreaks, and ecosystem composition, structure and functioning, including primary productivity. [Figure: variation in global mean annual air temperature since 1860, by courtesy of the UK Met Office] | | | | Adapting to the consequences | | |  Policymakers will have to decide to what degree they want to take precautionary measures by mitigating greenhouse gas emissions and enhancing the resilience of vulnerable systems by means of adaptation. Uncertainty does not mean that a nation or the world community cannot position itself better to cope with the broad range of possible climate changes or protect against potentially costly future outcomes. Delaying such measures may leave a nation or the world poorly prepared to deal with adverse changes and may increase the possibility of irreversible or very costly consequences. Options for adapting to change or mitigating change that can be justified for other reasons today (e.g., abatement of air and water pollution) and make society more flexible or resilient to anticipated adverse effects of climate change appear particularly desirable. (Image courtesy of FAO/G Bizzarri.) | | | | |
 | | | | | | | Title | Climate Change 2001: The Scientific Basis
( DOCUMENT )
| | Author(s) / Editor(s) | Intergovernmental Panel on Climate Change | | Description | Simply put, this latest assessment of the IPCC will again form the standard scientific reference for all those concerned with climate change and its consequences, including students and researchers in environmental science, meteorology, climatology, biology, ecology and atmospheric chemistry, and policymakers in governments and industry worldwide. | | Keywords | CLIMATE; CHANGE; IPCC | |
| Content Language(s) | English | |
| Web Address | http://www.ipcc.ch | |
| Type of Document | Report: Annual report | | Document Status | Finished | |
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| Jennifer Perce
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1076 Topics - 5135 Related Knowledge - 2534 Members - 34 Editors |
