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Seasonal precipitation variability in mainland China based on entropy theory
International Journal of Climatology ( IF 3.9 ) Pub Date : 2021-04-04 , DOI: 10.1002/joc.7128 Guocan Wu 1 , Shun Qin 1 , Chengcheng Huang 2 , Zhanshan Ma 3 , Chunming Shi 1
International Journal of Climatology ( IF 3.9 ) Pub Date : 2021-04-04 , DOI: 10.1002/joc.7128 Guocan Wu 1 , Shun Qin 1 , Chengcheng Huang 2 , Zhanshan Ma 3 , Chunming Shi 1
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Precipitation plays a fundamental role in terrestrial modelling and is extremely vulnerable to climate change. It is particularly challenging to describe precipitation due to its intermittency and fluctuation at nearly all temporal and spatial scales. Precipitation variability represents the degree of unevenness in its distribution or its lack of uniformity over different scales. This study examined the seasonal variability of meteorological station precipitation observations during 1961–2018 over mainland China using entropy theory. The intensity disorder index (IDI) and apportionment disorder index (ADI) were used to characterize the distribution unevenness, including the number of precipitation days, and precipitation amounts. Six special regions were selected according to their geographical location and climate conditions to show the regional differences of the disorder indices. At the daily scale, the regional mean IDI was 0.4081 for the eastern Tibetan Plateau and the regional mean ADI was 0.9984 for north China, which were the largest value among the six regions investigated. The regional mean IDI was 0.1128 and the regional mean ADI was 0.4071 both for the Yangtze River Basin, which were the smallest value among the six regions investigated. Temporal variations of the DIs were also detected. The IDI have decreased not significantly in most regions, except increasing by 0.0223/decade and 0.0129/decade in southwest China during nighttime and daytime, respectively. The ADI decreased by −0.0191, −0.0275, −0.0229, and −0.0203/decade and passed the significant test at .05 level for northwest, northeast, north China, and eastern Tibetan Plateau at the daily scale, respectively. The results quantify the precipitation unevenness over mainland China, which can be treated as a reference for water resources management and land surface model evaluation.
更新日期:2021-04-04
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