从太空测量晴空垂直运动

IF 8.3 Q1 GEOSCIENCES, MULTIDISCIPLINARY
AGU Advances Pub Date : 2024-08-01 DOI:10.1029/2024AV001267
Basile Poujol, Sandrine Bony
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引用次数: 0

摘要

由于大气中的垂直速度很小,因此测量垂直速度一直是个难题。利用垂直运动对自由对流层相对湿度的调制作用,我们推导出了分析关系,使我们能够通过对地静止测量水汽红外吸收波段的亮度温度来检索晴朗空气中的垂直运动。新的观测数据在时间和空间上的分辨率分别为 1 小时和 2 公里。它们捕捉到了实地活动中测量到的中尺度和大尺度垂直速度的变化。在中对流层,晴空垂直运动大多在减弱,但在空间和时间上高度异构。在有组织的深对流系统周围,几百公里的距离内都能观测到强烈的下沉(500 hPa-day-1)。与此相反,在中尺度上会出现高达 100 hPa-day-1 的瞬时上升运动。晴空大气中的垂直运动似乎主要与中尺度的浮力波和重力波有关,在更大的空间尺度上则与辐射冷却和赤道波有关。这一新的检索揭示了以前看不到的丰富的动力学特征,从而为热带气象学提供了新的启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Measuring Clear-Air Vertical Motions From Space

Measuring Clear-Air Vertical Motions From Space

Measuring vertical velocity in the atmosphere has long been a challenge due to its small magnitude. Taking advantage of the modulation of free tropospheric relative humidity by vertical motions, we derive analytical relationships that allow us to retrieve vertical motions in clear air from geostationary measurements of brightness temperature in the infrared absorption band of water vapor. The new observations have a resolution of 1 hr and 2 km in time and space, respectively. They capture the variability of mesoscale and large-scale vertical velocity measured during field campaigns. In the mid-troposphere, clear-sky vertical motions are mostly subsiding but highly heterogeneous in space and time. Around organized deep convective systems, strong subsidence (>500 hPa·day−1) is observed within a distance of a few hundred kilometers. In contrast, transient upward motions of up to 100 hPa·day−1 can occur at the mesoscale. Vertical motions in the clear-sky atmosphere appear to be primarily associated with buoyancy and gravity waves at the mesoscale, and with radiative cooling and equatorial waves at larger spatial scales. This new retrieval reveals a rich range of dynamical features that were previously invisible, thus shedding new light on tropical meteorology.

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CiteScore
2.90
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