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Temperature and precipitation extremes in century‐long gridded observations, reanalyses, and atmospheric model simulations
Ist Teil von
Journal of geophysical research. Atmospheres, 2016-10, Vol.121 (19), p.11,174-11,189
Ort / Verlag
Washington: Blackwell Publishing Ltd
Erscheinungsjahr
2016
Link zum Volltext
Quelle
Wiley Online Library All Journals
Beschreibungen/Notizen
Knowledge about long‐term changes in climate extremes is vital to better understand multidecadal climate variability and long‐term changes and to place today's extreme events in a historical context. While global changes in temperature and precipitation extremes since the midtwentieth century are well studied, knowledge about century‐scale changes is limited. This paper analyses a range of largely independent observations‐based data sets covering 1901–2010 for long‐term changes and interannual variability in daily scale temperature and precipitation extremes. We compare across data sets for consistency to ascertain our confidence in century‐scale changes in extremes. We find consistent warming trends in temperature extremes globally and in most land areas over the past century. For precipitation extremes we find global tendencies toward more intense rainfall throughout much of the twentieth century; however, local changes are spatially more variable. While global time series of the different data sets agree well after about 1950, they often show different changes during the first half of the twentieth century. In regions with good observational coverage, gridded observations and reanalyses agree well throughout the entire past century. Simulations with an atmospheric model suggest that ocean temperatures and sea ice may explain up to about 50% of interannual variability in the global average of temperature extremes, and about 15% in the global average of moderate precipitation extremes, but local correlations are mostly significant only in low latitudes.
Key Points
Changes in climate extremes over the twentieth century are analyzed in gridded observations, reanalyses, and SST‐driven model runs
On global average there is consistent warming of temperature and intensification of wet precipitation extremes since the midtwentieth century
There are larger interdata set uncertainties in the first half of the twentieth century