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Abstract
The Southeastern Tibetan Plateau (SETP) and the Middle Yangtze River Basin (MYRB) show a large difference in their levels of precipitation, despite the fact that they are located within the same latitude band. The annual precipitation in the MYRB is much higher than in the SETP. Precipitation has decreased in the past three decades in both regions. To clarify the difference in precipitation and its changes between these two regions in recent decades, a quasi-isentropic backward trajectory (QIBT) model is used to track the evaporative source with the ERA-Interim reanalysis as the baseline. The wet seasons (from April to September) over the period of 1982–2011 were analyzed. Evaporative sources were divided into an oceanic portion and a terrestrial portion, in which local recycling was included. Our conclusions are as follows. A terrestrial evaporative source, including a neighboring terrestrial land source and local source, dominates both regions, although the summer monsoon regulates precipitation in the wet season. The local precipitation recycling ratio is 35% in the SETP and 29% in the MYRB. The oceanic evaporative source in the MYRB is five times larger than that in the SETP. The decrease in the oceanic evaporative source in the Indian Ocean is responsible for the decrease in precipitation in the SETP. In the MYRB, decreases in neighboring terrestrial sources dominate the precipitation decline. Regardless of the decreases in the remote oceanic or neighboring terrestrial evaporative sources, the local recycling ratio increased in both regions.
Highlights
The Asian summer monsoon system brings strong moisture advection and results in heavy precipitation in the summer rainy season [1,2,3]
The major contributors are distributed in the south and west for the Southeast of the Tibetan Plateau (TP) (SETP), but mainly in the south for the Middle Yangtze River Basin (MYRB)
Early-generation recycling models suffer from certain assumptions which may overestimate or underestimate the land–atmosphere interaction strength
Summary
The Asian summer monsoon system brings strong moisture advection and results in heavy precipitation in the summer rainy season [1,2,3]. At the same latitude as the MYRB and influenced by the Indian summer monsoon, and as the richest region in terms of precipitation over the Tibetan Plateau (TP) [7,8,9,10,11,12], the Southeast of the TP (SETP) experiences much less precipitation than the MYRB [1,13]. It is queried whether the precipitation has decreased due to the weakening of the Asian summer monsoon and, if so, how did the large-scale weakening of the monsoon influence the precipitation in different longitudinal regions? All of these questions pose interesting research objectives
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