Abstract
The deuterium excess (d) in precipitation, determined by the stable hydrogen and oxygen isotopes (δ2H and δ18O), is a widely applied parameter in tracing the water vapor source. Based on the multiple-year observations of stable water isotopes in precipitation at four stations in the Lanzhou city, Northwest China, we analyzed the variations in deuterium excess in precipitation at the Asian monsoon margin region. The mean value of deuterium excess at the study region is 11.0‰ in the dry season and 8.0‰ in the wet season. The d value in precipitation negatively correlates with air temperature and vapor pressure. The low d value during the wet season reflects the monsoon moisture transported from long distances. During the dry season, the continental air masses correspond to the higher d value in precipitation. The moisture regimes based on reanalysis data are generally consistent with the findings using a stable isotopic approach, and the monsoon moisture is highlighted in summer precipitation at these monsoon margin sites.
Highlights
Water resources and especially fresh water are indispensable for human survival and development [1,2]
The regional mean d value is 11.0‰ in the dry season and 8.0‰ in the wet season, respectively
The d value in precipitation usually presents a negative correlation with local air temperature and vapor pressure
Summary
Water resources and especially fresh water are indispensable for human survival and development [1,2]. The Lanzhou city, located in the Loess Plateau of China, is impacted by both westerlies and monsoon water vapor [32,33,34] This region is considered to be the western vertex of the Chinese “Monsoon Triangle” defined by Li et al [35], and is usually sensitive to modern and paleo climate change. 2011 and October 2014 [33], we aim (1) to present new detailed information regarding the d value in precipitation in the study region, (2) to clarify the relation between d value and meteorological factors (especially temperature and vapor pressure) and (3) to discuss the linkage of stable isotopes and water vapor origin for these monsoon margin stations
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