Abstract
AbstractThe changes in clouds and precipitation are essential to understand the variation of water cycle under a changing climate and have not been well investigated on the Tibetan Plateau (TP). In this study, the long‐term variations and the associated mechanisms of total cloud amount (TC), low cloud amount (LC), the number of precipitation days (PN) and precipitation amount (PA), as well as the number of snow cover days (SN) and mean snow depth (SD) on the TP and its subregions of northeast (NE), central south (SC) and southeast (SE) are investigated with observational data in 1979–2016. The results indicate that TC has an overall decreasing trend, while LC has a significant increasing trend on the whole TP. PA in the NE has a significant increasing trend, and that in the SE has an insignificant decreasing trend. Light precipitation events tend to decrease and heavy precipitation events tend to increase. SN and SD have significant interannual decreasing trends. It is found that the atmospheric thermodynamic condition on the TP tends to become stable under a warming climate. The northward shifting of the westerly winds in association with the Hadley cell expanding in cold seasons and the strengthening South Asian high and the South Asian monsoon in warm seasons should be directly responsible for the generally decreasing trends in TC and related precipitation events on the south TP, and the increasing trends in LC and associated warm precipitation on the whole TP.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call