Spatiotemporal evolution of dust over Tarim Basin under continuous clear-sky

IF 4.5 2区地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES

Atmospheric Research Pub Date : 2024-11-04 DOI:10.1016/j.atmosres.2024.107764

Xiaokai Song , Tian Zhou , Yufei Wang , Xingran Li , Dongsheng Wu , Yonghong Gu , Zikai Lin , Sabur F. Abdullaev , Mansur O. Amonov

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Abstract

The unique terrain and complex atmospheric boundary layer (ABL) processes result in a distinctive spatiotemporal distribution of dust in the Tarim Basin; however, this distribution remains unclear under continuous clear-sky conditions. In this study, 382 cases were selected to investigate the spatiotemporal evolution of dust and its potential mechanisms based on MERRA-2 and ERA5 reanalysis datasets combined with MODIS satellite observations during the warm seasons from 2000 to 2023. Taking the typical case of a completely cloudless on July 24–27, 2016, the dust aerosol optical depth (DAOD) at the margin of the Tarim Basin increased with time. The climatological characteristics showed a high DAOD in the northern, western, and southwestern regions and a relatively low DAOD in the central area. Nocturnal low-level jets dominated by northeasterly winds enhance the low-level westward airflow in weak anticyclonic systems, causing dust accumulation in the west and north of the basin. Vertical mixing within the ABL during the daytime increases dust loading in the residual layer, and these dust particles can ascend to high altitudes after breaking through the ABL by the vertical circulation. The dust loading at the lower level during the daytime was higher than that at night, whereas the opposite was true for the upper level. The downward airflow in the northwest slope of the Tibetan plateau weakens at night, leading to dust being uplifted to higher altitudes and transported outside the Tarim Basin by the westerlies. These results enhance our understanding of dust distribution and related mechanisms in Tarim Basin and support the development and utilization of climatic resources in this region.

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连续晴空下塔里木盆地上空尘埃的时空演变

独特的地形和复杂的大气边界层（ABL）过程导致塔里木盆地沙尘在时空上的独特分布；然而，在连续晴空条件下，这种分布仍不清楚。本研究基于 MERRA-2 和 ERA5 再分析数据集，结合 MODIS 卫星在 2000 年至 2023 年暖季期间的观测数据，选取了 382 个案例来研究沙尘的时空演变及其潜在机制。以2016年7月24-27日完全无云的典型情况为例，塔里木盆地边缘的沙尘气溶胶光学深度（DAOD）随时间而增加。气候学特征显示，北部、西部和西南部地区的DAOD较高，中部地区的DAOD相对较低。以东北风为主的夜间低空喷流增强了弱反气旋系统中的低空西风气流，造成盆地西部和北部的沙尘堆积。白天 ABL 内的垂直混合增加了残留层的沙尘负荷，这些沙尘颗粒在垂直环流的作用下突破 ABL 后可上升到高空。白天低层的沙尘负荷高于夜间，而高层则相反。青藏高原西北坡的下沉气流在夜间减弱，导致沙尘被抬升到高空，并被西风输送到塔里木盆地之外。这些结果加深了我们对塔里木盆地沙尘分布及相关机制的认识，为该地区气候资源的开发利用提供了支持。

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

Atmospheric Research 地学-气象与大气科学

CiteScore

9.40

自引率

10.90%

发文量

460

审稿时长

47 days

期刊介绍： The journal publishes scientific papers (research papers, review articles, letters and notes) dealing with the part of the atmosphere where meteorological events occur. Attention is given to all processes extending from the earth surface to the tropopause, but special emphasis continues to be devoted to the physics of clouds, mesoscale meteorology and air pollution, i.e. atmospheric aerosols; microphysical processes; cloud dynamics and thermodynamics; numerical simulation, climatology, climate change and weather modification.