Abstract
In this work, we examined spatial and temporal trends for light rain days based on daily precipitation measurements, obtained from 1960 to 2014, from 590 meteorological stations in China. For the analyzed time interval, light rain days over eastern China were determined to decrease by 0.23 days·year−1. In western China, they increased by 0.3 days·year−1. To detect underlying causes for changes in light rain days, lower-tropospheric relative humidity was set as a proxy for light rain days. We then calculated the respective impacts of lower-tropospheric temperature and specific humidity on changes in light rain days. A comparison of the contributions of temperature and specific humidity resulted in the identification of the main cause of changes. Our results indicated that increases in lower-tropospheric temperatures reduced light rain days over the entire country, while variations in specific humidity dominated regional differences for light rain day trends.
Highlights
Global warming has been estimated to increase the content of atmospheric water vapor and to accelerate the hydrological cycle [1,2,3]
The results revealed a significant reduction in light rain days over eastern China and a significant increase for western China
Most of the stations with decreasing trends were located within eastern China
Summary
Global warming has been estimated to increase the content of atmospheric water vapor and to accelerate the hydrological cycle [1,2,3]. Global mean annual precipitation has increased in recent decades and is thought to be related to global warming [4]. Such changes are based on the Clausius–Clapeyron equation, which roughly describes a 7% increase in atmospheric moisture storage potential per degree Kelvin [5,6,7]. Average precipitation has not displayed significant trends over China, in recent years, obvious regional changes have been documented [8,9,10,11]. Increases have been documented for northwest China [12,16]. Many studies have focused on regional variations that can lead to the extreme precipitation that causes local flooding over a short period of time and that results in tremendous economic loss [12,17,18]
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