Temperature Trends
During the past century, global surface temperatures have increased at a rate near 0.6°C/century (1.1°F/century), but this trend has dramatically increased to a rate approaching 2.0°C/century (3.6°F/century) during the past 25 years. There have been two sustained periods of warming, one beginning around 1910 and ending around 1945, and the most recent beginning about 1976. Temperatures during the latter period of warming have increased at a rate comparable to the rates of warming projected to occur during the next century with continued increases of anthropogenic greenhouse gases (IPCC, 2001).
Data collected by NOAA's polar orbiting satellites and analyzed for NOAA by the University of Alabama in Huntsville (UAH) and Remote Sensing Systems (RSS, Santa Rosa, California) indicate that temperatures centered in the middle troposphere at altitudes from 2 to 6 miles made 2002 the second warmest year for the globe.
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The average lower troposphere temperature (surface to about 5 miles) for 2002 was the second warmest on record. Analysis of the satellite record that began in 1979 shows that the global average temperature in the middle troposphere has increased, but the differing analysis techniques of the two teams result in different trends. The UAH team found an increase of 0.035°C/decade (0.06°F/decade) while a trend of 0.115°C/decade (0.21°F/decade) was found by the RSS team. This compares to surface temperature increases approaching 0.5°C (0.3°F/decade) during the same period. |
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While lower tropospheric temperatures as measured by the MSU indicate
increasing temperatures over the last 2 decades, stratospheric (14 to 22 km / 9
to 14 miles) temperatures have been decreasing. This is consistent with the depletion of ozone in the lower stratosphere. The large
increase in 1982 was caused by the volcanic eruption of El Chichon, and the
increase in 1991 was caused by the eruption of Mt. Pinatubo in the
Philippines.
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Regional Temperatures
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Global temperatures were above average during 2002 throughout most land areas. The adjacent figure
depicts the warmer than average temperatures (for a 1961-1990 base period) that were widespread across much of the United States as well as most of Europe and Asia. Temperatures in these regions were 1-4°C (1.8-7.2°F) above the 1961-1990 average. This map was created using data from the Global Historical Climatology Network, a network of more
than 7,000 land surface observing stations.The only widespread areas of negative anomalies were across parts of eastern Canada as well as southern Argentina where temperatures were between 1 and 3°C (1.8-5.4°F) cooler than average.
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Notable temperature extremes during 2002 included a severe heatwave during May and June across southwest Asia. Daily maximum temperatures reached as high as 50°C (122°F) which resulted in over 1,000 deaths across India and Pakistan. A series of winter storms affected parts of Bolivia, Peru and Argentina during July and August, bringing heavy snowfall and cold temperatures that were responsible for nearly 60 deaths. Winter storms that affected southeastern Europe during January were accompanied by cold temperatures and local snow depths of over 1 meter (3.3 feet) in parts of Albania, Bulgaria and Greece. |
Global Precipitation
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Global precipitation was below the 1961-1990 average in 2002. Much of Australia experienced severe drought, with the eastern part of the country the worst affected. India monsoon rainfall was 19 percent below normal, with the resulting drought characterized as the worst since 1987. Other drought-affected areas included the western United States and portions of the north coast of China. |
After a dry beginning to 2002, several typhoons brought excessive rains to parts of southeast Asia and Japan, the southeast coast of China, Taiwan and the Philippines. In contrast to drought conditions during the first half of 2002, the onset of monsoon rains in southeast Asia promoted extensive flooding along the Mekong Delta. Seasonal flooding in much of south Asia (Nepal, Bangladesh and northeastern India) during June-August claimed more than 1,000 lives. In the eastern United States, long-term drought was ameliorated by a turn to wetter weather, due in part to moisture from tropical systems.
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Additional information on other notable weather events can be found in the Significant Events section of this report, or through the monthly Climate Perspectives reports.
References
IPCC, 2001: Climate Change 2001: The Scientific Basis, Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel of Climate Change. J.T. Houghton, Y. Ding, D.J. Griggs, M. Noguer, P.J. vander Linden, X.Dai, K. Maskell, and C.A. Johnson (Eds.), Cambridge University Press, 881 pp.
NOAA's National Climatic Data Center is the world's largest active archive of weather data. The preliminary temperature and precipitation rankings are available from the center by calling: 828-271-4800.
NOAA works closely with the academic and science communities on climate-related research projects to increase the understanding of El Niño and improve forecasting techniques. NOAA's Climate Prediction Center monitors, analyzes and predicts climate events ranging from weeks to seasons for the nation. NOAA also operates the network of data buoys and satellites that provide vital information about the ocean waters, and initiates research projects to improve future climate forecasts.
For further information, contact:
Jay Lawrimore NOAA/National Climatic Data Center 151 Patton Avenue Asheville, NC 28801-5001 fax: 828-271-4328 email: Jay.Lawrimore@noaa.gov
-or-
Scott Stephens NOAA/National Climatic Data Center 151 Patton Avenue Asheville, NC 28801-5001 fax: 828-271-4328 email: Scott Stephens@noaa.gov
Climate Monitoring / Climate of 2002 / Annual / Help
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