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Stable Isotope Characteristics for PrecipitationEvents and Their Responses to Moistureand Environmental Changes During the SummerMonsoon Period in Southwestern China

Chengcheng Xia, Guodong Liu, Ke Chen, Yue Hu, Jing Zhou, Yaping Liu, Jie Mei

2020Polish Journal of Environmental Studies30 citationsDOIOpen Access PDF

Abstract

Samples of hydrogen and oxygen stable isotopes in precipitation collected and analyzed during the summer monsoon in 2017 and 2018 in Chengdu are reported in this paper.Increasing (decreasing) trends of isotope values (δD and δ 18 O) occur from May to June (September to October), and the valleys occur from July to August.The correlation between δD and δ 18 O for both precipitation events and monthly average precipitation is significant, with high R 2 values (≥0.98).The differences in regression lines may be due to the comprehensive influence of moisture sources, transport path and sub-cloud processes.Combining the d-excess values of precipitation and air mass trajectories generated by the HYSPLIT model, precipitation with a low (high) d-excess value and a more (less) negative δ 18 O corresponds to moisture from ocean (inland) sources.The δ 18 O-temperature (T) and δ 18 O-precipitation (P) correlations are not significant and vary greatly among different periods, which may be attributed to the mutual masking of different effects and the influence of atmospheric circulation processes.The results imply that the negative values in biological and geological proxies may be related to warmer climate, higher precipitation and a larger contribution of oceanic monsoon precipitation, but cannot indicate the changes in temperature and precipitation quantifiably.

Topics & Concepts

PrecipitationMonsoonEnvironmental sciencePeriod (music)ClimatologyMoistureChinaStable isotope ratioAtmospheric sciencesEast Asian MonsoonGeologyMeteorologyGeographyArchaeologyAcousticsPhysicsQuantum mechanicsIsotope Analysis in EcologyGroundwater and Isotope GeochemistryGeology and Paleoclimatology Research