The Characteristics of Water Vapor Transport and Its Linkage with Summer Precipitation over the Source Region of the Three-River

Abstract

Abstract Precipitation is one of the most important meteorological factors affecting the water cycle and ecological system over the Source Region of the Three-River (SRTR), where the Yangtze River, Yellow River, and Lantsang River originated. The characteristics of water vapor transport and budget in annual and summer over the SRTR are analyzed using monthly observational and reanalysis datasets during 1980-2019. The linkage between water vapor transport and summer precipitation is also explored in this study. The results show that the Global Precipitation Climatology Project (GPCP) data are in agreement with the measured precipitation well. The SRTR is a sink region for water vapor, where the water vapor content shows an increasing trend with a rate of 0.2 mm/10a in annual and 0.3 mm/10a in summer. The water vapor mainly flows into the SRTR from the lower (521.2×106 kg s−1) and the middle (195.7×106 kg s−1) layers of the southern boundary in summer, while it exports from the middle (208.1×106 kg s−1) layer of the eastern boundary. The abnormal wind convergence and the low-pressure system, combining with the effects of the Western Pacific Subtropical High and the Mongolian High, provide conditions for the transport of water vapor and precipitation over the SRTR. A close relationship is found between water vapor flux and precipitation from the Singular Value Decomposition (SVD) analysis. The Brahmaputra River basin is the key region of water vapor transport over the SRTR, which contributes to further understanding the mechanisms of water vapor transport and the regional water cycle.