Spatial distribution of oceanic moisture contributions to precipitation over the Tibetan Plateau
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Published:2022-12-21
Issue:24
Volume:26
Page:6413-6426
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ISSN:1607-7938
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Container-title:Hydrology and Earth System Sciences
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language:en
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Short-container-title:Hydrol. Earth Syst. Sci.
Author:
Li YingORCID, Wang ChenghaoORCID, Huang Ru, Yan Denghua, Peng Hui, Xiao Shangbin
Abstract
Abstract. Evaporation from global oceans is an important moisture
source for glaciers and headwaters of major Asian rivers in the Tibetan
Plateau (TP). Although the accelerated global hydrological cycle, the
altered sea–land thermal contrast and the amplified warming rate over the
TP during the past several decades are known to have profound effects on the
regional water balance, the spatial distribution of oceanic moisture
contributions to the vast TP remains unclear. This hinders the accurate
quantification of regional water budgets and the reasonable interpretation
of water isotope records from observations and paleo archives. Based on
historical data and moisture tracking, this study systematically quantifies
the absolute and relative contributions of oceanic moisture to long-term
precipitation in the TP. Results show that the seasonal absolute and
relative oceanic contributions are generally out of phase, revealing the
previously underestimated oceanic moisture contributions brought by the
westerlies in winter and the overestimated moisture contributions from the
Indian Ocean in summer. Quantitatively, the relative contribution of
moisture from the Indian Ocean is only ∼30 % in the south
TP and further decreases to below 10 % in the northernmost TP. The
absolute oceanic contribution exhibits a spatial pattern consistent with the
dipole pattern of long-term precipitation trends across the Brahmaputra
Canyon region and the central-northern TP. In comparison, relative oceanic
contributions show strong seasonal patterns associated with the seasonality
of precipitation isotopes across the TP.
Funder
National Key Research and Development Program of China Natural Science Foundation of Hubei Province National Natural Science Foundation of China
Publisher
Copernicus GmbH
Subject
General Earth and Planetary Sciences,General Engineering,General Environmental Science
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