Uncovering Below Cloud Rain-Vapor Interactions During Tropical Rain Events Through Simultaneous and Continuous Real-Time Monitoring of Rain and Vapor Isotopes

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Shaoneng He, Dominik Jackisch, Lujia Feng, Dhrubajyoti Samanta, Xianfeng Wang, Nathalie F. Goodkin
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引用次数: 0

Abstract

Due to limited water vapor measurements, vapor isotopes have been traditionally estimated under the assumption of isotopic equilibrium between rain and vapor below cloud base. However, recent advancements in analytical instruments allow more vapor isotopic measurements that have challenged this assumption. To enhance our understanding of rain-vapor interactions below cloud base in tropical regions, we established an automated system to measure rain and vapor isotopes simultaneously and continuously in real time at minute intervals in Singapore. Among 324 rain events monitored from 2016 to 2019, 81% exhibited a substantial departure of rain and vapor isotopes from the expected equilibrium. This departure suggests that raindrop evaporation plays a larger role in determining their isotopes. The conclusion is supported by the generally lower slopes of the local meteoric water line. Seasonal variations in rain event characteristics indicate changing influences of rain-vapor interactions: during monsoons, more frequent heavy rainfall maintains relatively high humidity below cloud base, favoring rain-vapor isotopic equilibrium, whereas during inter-monsoons, more light rain events lead to pronounced rain evaporation and larger isotopic differences. Furthermore, rain-vapor interactions below cloud base significantly modulated their isotope evolution during individual events. As events progressed, reduced humidity favored evaporation, increasing rain isotope values and decreasing its d-excess, whereas vapor isotope values decreased and its d-excess increased. Our study introduces a new approach to capturing real-time high-resolution rain and vapor isotopes at minute intervals to understand the dynamics of rain-vapor interactions below cloud base. Findings underscore the crucial role of these interactions in influencing rain and vapor isotopes during tropical rain events.

通过同时和连续实时监测雨水和水汽同位素,揭示热带降雨过程中云层以下雨水和水汽之间的相互作用
由于水汽测量数据有限,水汽同位素传统上是根据云底以下雨水和水汽之间同位素平衡的假设来估算的。然而,最近分析仪器的进步使得更多的水汽同位素测量数据对这一假设提出了挑战。为了加深我们对热带地区云底以下雨水与水汽相互作用的了解,我们在新加坡建立了一个自动化系统,以分钟为间隔,同时、连续地实时测量雨水和水汽同位素。在 2016 年至 2019 年期间监测到的 324 次降雨事件中,81% 的降雨和水汽同位素表现出与预期平衡的大幅偏离。这种偏离表明,雨滴蒸发在决定其同位素方面发挥了更大的作用。当地流星水线的斜率普遍较低,也支持了这一结论。降雨事件特征的季节性变化表明雨水-水汽相互作用的影响在不断变化:在季风期间,更频繁的强降雨会使云基以下保持相对较高的湿度,有利于雨水-水汽同位素平衡;而在间季风期间,更多的小雨事件会导致雨水蒸发明显和更大的同位素差异。此外,云底以下的雨水与水汽之间的相互作用也极大地调节了单个事件中雨水与水汽的同位素演变。随着事件的发展,湿度的降低有利于蒸发,从而增加了雨水的同位素值并降低了其 d-外差,而水汽的同位素值则降低了,其 d-外差增加了。我们的研究引入了一种新方法,即以分钟为间隔实时捕捉高分辨率雨水和水汽同位素,以了解云底以下雨水与水汽相互作用的动态。研究结果强调了这些相互作用在热带降雨事件中影响雨和水汽同位素的关键作用。
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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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