In-situ observations of cloud microphysics over Arabian Sea during dust transport events

IF 2.5 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Environmental Research Communications Pub Date : 2024-05-10 DOI:10.1088/2515-7620/ad443d

Sudarsan Bera, Sachin Patade, Thara Prabhakaran

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引用次数: 0

Abstract

The unique in situ measurements of clouds and precipitation within the shallow and deep cumulus over the north-eastern Arabian Sea region during the Indian monsoon are illustrated in this study with a focus on droplet spectral parameters. The observational period showed a significant incursion of Arabian dust and the presence of giant cloud condensation nuclei (GCCN), modifying the cloud and precipitation spectral properties. Warm rain microphysics supported the mixed-phase development in these clouds and exhibited hydrometeors of snow, graupel and large aggregates as part of ice processes. Cloud base droplet number concentration is about 142

79 cm⁻³ which is one third of the cloud condensation nuclei (CCN) number concentration at 0.2% supersaturation. A rapid broadening of droplet size distribution (DSD) near to the cloud base was noted in contrast to polluted continental clouds. Relationship between the relative dispersion (

ε;

the ratio of DSD spectral width (

) to mean radius (

)) and liquid water adiabatic fraction (AF) indicates that the entrainment effect has increased relative dispersion significantly (2–3 times larger) in these clouds. Effective radius (

reff

) is found to be proportional to mean volume radius (

) with a proportionality constant (

) that varies between 1.0–1.6, depending on the spectral dispersion parameter. Drop size distributions for the small cloud droplets with size range 2–50

m and the large drizzle drops (or ice hydrometeors) with size range 100–6400

m are parameterized using the gamma function distributions useful for large-scale cloud models.

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沙尘迁移事件期间阿拉伯海上空云微观物理原位观测数据

本研究对印度季风期间阿拉伯海东北部地区浅积云和深积云内的云层和降水进行了独特的实地测量，重点是液滴光谱参数。观测期间，阿拉伯尘埃的大量入侵和巨型云凝结核（GCCN）的存在改变了云和降水的光谱特性。暖雨微观物理支持了这些云中的混合相发展，并显示出作为冰过程一部分的雪、灰凝胶和大聚合体的水介质。云基液滴数量浓度约为 142 ± 79 cm-3，是过饱和度为 0.2% 时云凝结核（CCN）数量浓度的三分之一。与受污染的大陆云相比，云基附近的液滴大小分布（DSD）迅速扩大。相对分散度（ε；DSD 光谱宽度 (σ) 与平均半径 (rm) 之比）与液态水绝热分数 (AF) 之间的关系表明，夹带效应显著增加了这些云中的相对分散度（2-3 倍）。研究发现，有效半径 (reff) 与平均体积半径 (rv) 成正比，比例常数 (β)在 1.0-1.6 之间变化，具体取决于光谱弥散参数。对于粒径范围为 2-50 μm 的小云滴和粒径范围为 100-6400 μm 的大雨滴（或冰流体），使用对大尺度云模型有用的伽马函数分布对其粒径分布进行了参数化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Research Communications ENVIRONMENTAL SCIENCES-

CiteScore

3.50

自引率

0.00%

发文量

136

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