Optical absorption by aerosol black carbon and dust in a desert region of Central Asia

Atmospheric Environment. Part A. General Topics Pub Date : 1993-11-01 DOI:10.1016/0960-1686(93)90025-T

A.D.A. Hansen , V.N. Kapustin , V.M. Kopeikin , D.A. Gillette , B.A. Bodhaine

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引用次数: 60

Abstract

In September 1989 a joint U.S.S.R.-U.S. study of the causes and effects of desert dust on the environment was conducted in the Tadzhik S.S.R. in Soviet Central Asia. The objectives of the study included measurements of optical absorption by suspended material, both windblown dust and aerosol “black” carbon. This latter material is a combustion effluent, prevalent in emissions from poorly controlled burning, with a long atmospheric lifetime and a large cross-section for the absorption of visible radiation. The measurements obtained from the analysis of filter samples indicate that only during periods of active dust production was there a significant contribution of dust to total absorption. At other times, the presence of black carbon from local and regional sources accounted for approximately 90° of the total aerosol optical absorption. The conclusions are that fuel combustion may produce a greater optical impact on the atmosphere in less-developed areas of the world than that arising from the effects of desert dust production.

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中亚沙漠地区气溶胶黑碳和粉尘的光学吸收

1989年9月，苏联和美国在苏联中亚的塔日克进行了一次关于沙漠沙尘对环境的原因和影响的联合研究。这项研究的目标包括测量悬浮物质的光学吸收，包括风吹的灰尘和气溶胶“黑”碳。后一种物质是燃烧流出物，普遍存在于控制不佳的燃烧排放中，具有很长的大气寿命和很大的吸收可见辐射的截面。从过滤器样品分析中获得的测量结果表明，只有在活跃的粉尘产生期间，粉尘对总吸收量的贡献才显著。在其他时间，来自本地和区域源的黑碳的存在约占总气溶胶光学吸收的90°。结论是，在世界欠发达地区，燃料燃烧对大气产生的光学影响可能比沙漠粉尘产生的影响更大。

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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Atmospheric Environment. Part A. General Topics

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