4.6 Article

Below-cloud evaporation effect on stable water isotopes in precipitation at the eastern margin of Qinghai-Tibet Plateau

Journal

HYDROLOGICAL PROCESSES
Volume 36, Issue 10, Pages -

Publisher

WILEY
DOI: 10.1002/hyp.14699

Keywords

below-cloud evaporation; deuterium excess; Gannan plateau; stable isotopes

Funding

  1. National Natural Science Foundation of China [42161007]
  2. Innovation Foundation of Higher Education Institutions of Gansu Province [2021B-081]
  3. Foundation for Distinguished Young Scholars of Gansu Province [20JR10RA112]

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This study examines the impact of below-cloud evaporation on precipitation isotopes and discusses the factors influencing this evaporation process in the Gannan Plateau. The findings show that below-cloud evaporation is stronger in the central area compared to the surrounding area, and its impact is most significant between 9:00 and 21:00 Beijing Time. The variability of relative humidity is consistent with the remaining raindrop mass fraction and isotopic variation in raindrop below the cloud base.
Quantitatively assessing the evaporation-caused stable water isotope fractionation in precipitation below the cloud base is of great significance to understand the modern hydrological circulation especially in a plateau climate. Based on the hourly meteorological data at eight meteorological stations of the Gannan Plateau at the eastern margin of Qinghai-Tibet Plateau in 2020, we examined the spatial and temporal variations of below-cloud evaporation effect on precipitation isotopes, and then discussed the factors influencing the below-cloud evaporation across the Gannan Plateau. The contemporary observation of precipitation isotopes at one site in the Gannan Plateau is also applied to understand the local meteoric water line associated with the below-cloud evaporation. From 9:00 to 21:00 Beijing Time, the impact of below-cloud evaporation is greater than that during the rest periods. Within the study region, the below-cloud evaporation in the central area is usually stronger than that of the surrounding area. The diurnal and monthly variability of relative humidity is highly consistent with that of the remaining raindrop mass fraction after evaporation as well as the isotope variation in raindrop below the cloud base. When the relative humidity is greater than 95%, there is a linear relationship between the remaining raindrop mass fraction and the below-cloud deuterium-excess variation of approximate 1.1 parts per thousand/%. Global warming will increase the below-cloud evaporation effect across the Gannan Plateau. The findings are useful to understand the below-cloud evaporation and isotope fractionation under a plateau climate.

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