Long-term continuous monitoring of precipitation isotopes has great potential to advance our understanding of mechanisms that determine stable isotope variability in hydrological processes of monsoon regions. This study presents a 4-year daily data set of precipitation isotopes from Yungui Plateau of southwest China, influenced by southwest monsoon and East Asian monsoon. The local meteoric water line [LMWL, δ2H=8.12 (±0.04) δ18O+11.2(±0.4)] was established at the Tengchong (TC) site, which was similar to the global meteoric water line (GMWL, δ2H=8 δ18O+10) indicating little secondary sub-cloud evaporation in the falling rain. Precipitation δ18O exhibited significant inverse relationships with precipitation amount (r = -0.42) and air temperature (r = -0.43) throughout the entire period, which indicated that precipitation isotopic variability largely depended on the local meteorological conditions. Precipitation δ18O values are characterized by remarkably seasonal variability: In the summer monsoon period, moisture sources primarily originated from BoB source towards TC site experiencing local moisture recycling over land. The air masses were derived from the northern region of Africa and East Asia with the longest transporting distance and cyclonic activity over the source region in the Fall-winter period characterized with the depleted δ18O values. Precipitation δ18O at the TC site was estimated by a Rayleigh fractionation model considering rainout over BoB and land (Myanmar) during the vapor advection, and local recycling processes consistent with the observed precipitation δ18O values. These findings enhance our understanding of hydrological cycle in the Southwest monsoon regions and will potentially facilitate the interpretation of numerous isotopic proxy records from this region.
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