Aerosols and Climate

H. Dolman
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Abstract

The chapter describes the important role aerosols may have played in the past and are still playing in today’s climate, discussing aerosol distribution, aerosol–climate interaction, aerosol–radiation interaction, aerosol–cloud interaction and aerosol–surface interaction. The biogeochemical aspects are illustrated using the CLAW hypothesis about feedback of dimethylsulphide on climate, and the role that volatile organic carbons may play in shaping today’s climate. Aerosol sources and sinks are shown and it is clear that a substantial part today originates from humans. The aerosols may interact with radiation through scattering and absorption and with clouds to change the availability of cloud condensation nuclei. The basic physics of these interactions are described. The role of volcanic explosions and dust is elucidated and, particularly, the role of dust and associated iron in glacial–interglacial transitions is discussed.
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气溶胶与气候
本章描述了气溶胶在过去和今天的气候中可能发挥的重要作用,讨论了气溶胶分布、气溶胶-气候相互作用、气溶胶-辐射相互作用、气溶胶-云相互作用和气溶胶-表面相互作用。生物地球化学方面使用关于二甲硫化物对气候反馈的CLAW假设,以及挥发性有机碳在塑造当今气候方面可能发挥的作用加以说明。图中显示了气溶胶的来源和汇,很明显,今天很大一部分来自人类。气溶胶可以通过散射和吸收与辐射相互作用,也可以与云相互作用,从而改变云凝结核的可用性。描述了这些相互作用的基本物理。阐明了火山爆发和粉尘的作用,特别讨论了粉尘和伴生铁在冰期-间冰期过渡中的作用。
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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