Editorial Type:
Article
Article Type:
Research Article

Trends in Intense Precipitation in the Climate Record

Pavel Ya Groisman University Corporation for Atmospheric Research, Boulder, Colorado, and NOAA/National Climate Data Center, Asheville, North Carolina

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Richard W. Knight University of North Carolina at Asheville, Asheville, North Carolina

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David R. Easterling NOAA/National Climatic Data Center, Asheville, North Carolina

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Thomas R. Karl NOAA/National Climatic Data Center, Asheville, North Carolina

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Gabriele C. Hegerl Nicholas School of the Environment and Earth Sciences, Duke University, Durham, North Carolina

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Vyacheslav N. Razuvaev Russian Institute for Hydrometeorological Information, Obninsk, Russia

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Print Publication:
01 May 2005
DOI:
https://doi.org/10.1175/JCLI3339.1
Page(s):
1326–1350
Restricted access

Abstract

Observed changes in intense precipitation (e.g., the frequency of very heavy precipitation or the upper 0.3% of daily precipitation events) have been analyzed for over half of the land area of the globe. These changes have been linked to changes in intense precipitation for three transient climate model simulations, all with greenhouse gas concentrations increasing during the twentieth and twenty-first centuries and doubling in the later part of the twenty-first century. It was found that both the empirical evidence from the period of instrumental observations and model projections of a greenhouse-enriched atmosphere indicate an increasing probability of intense precipitation events for many extratropical regions including the United States. Although there can be ambiguity as to the impact of more frequent heavy precipitation events, the thresholds of the definitions of these events were raised here, such that they are likely to be disruptive. Unfortunately, reliable assertions of very heavy and extreme precipitation changes are possible only for regions with dense networks due to the small radius of correlation for many intense precipitation events.

Corresponding author address: Pavel Ya. Groisman, UCAR Project Scientist at NCDC, National Climatic Data Center, Federal Building, 151 Patton Avenue, Asheville, NC 28801. Email: Pasha.Groisman@noaa.gov

Abstract

Observed changes in intense precipitation (e.g., the frequency of very heavy precipitation or the upper 0.3% of daily precipitation events) have been analyzed for over half of the land area of the globe. These changes have been linked to changes in intense precipitation for three transient climate model simulations, all with greenhouse gas concentrations increasing during the twentieth and twenty-first centuries and doubling in the later part of the twenty-first century. It was found that both the empirical evidence from the period of instrumental observations and model projections of a greenhouse-enriched atmosphere indicate an increasing probability of intense precipitation events for many extratropical regions including the United States. Although there can be ambiguity as to the impact of more frequent heavy precipitation events, the thresholds of the definitions of these events were raised here, such that they are likely to be disruptive. Unfortunately, reliable assertions of very heavy and extreme precipitation changes are possible only for regions with dense networks due to the small radius of correlation for many intense precipitation events.

Corresponding author address: Pavel Ya. Groisman, UCAR Project Scientist at NCDC, National Climatic Data Center, Federal Building, 151 Patton Avenue, Asheville, NC 28801. Email: Pasha.Groisman@noaa.gov

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