The potential environmental and climate impacts of stratospheric aerosol injection: a review†

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
Han N. Huynh and V. Faye McNeill
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Abstract

Given the rise in global mean temperature as a direct consequence of increasing levels of greenhouse gases (GHG) in the atmosphere, a variety of climate engineering approaches, including stratospheric aerosol injection (SAI), have been proposed. Often criticized as a distraction from global efforts towards reducing GHG emissions, SAI aims to increase the Earth's albedo by seeding aerosols in the lower stratosphere. Inspired in part by observations of temporary cooling of the Earth's surface following major volcanic eruptions which introduced significant loadings of sulfate particles into the stratosphere, SAI has been explored extensively in modeling studies. The cooling effect may be accompanied by other significant consequences including stratospheric heating, stratospheric ozone (O3) depletion, and reduced global mean precipitation. In order to understand the potential environmental and climate impacts of SAI, we review the state of the knowledge regarding these issues, starting from an aerosol science perspective. We summarize aerosol radiative properties and the role they play in defining the optimal chemical and physical aerosol characteristics for SAI, and their implications for lower stratospheric warming. We then review in depth the impacts of stratospheric aerosol heterogeneous chemistry on global O3 levels. We review SAI modeling studies as well as their uncertainties, in comparison to the observed environmental and climate impacts of volcanically derived sulfate aerosols, including impacts on global temperature, stratospheric warming, and hydrological cycle. We also briefly discuss the current governance and economic considerations of the application of SAI and raise essential questions from both research and social standpoints that should be addressed before SAI is deployed for climate change mitigation.

Abstract Image

平流层气溶胶注入对环境和气候的潜在影响:综述†
鉴于全球平均气温上升是大气中温室气体(GHG)含量增加的直接后果,人们提出了各种气候工程方法,包括平流层气溶胶注入(SAI)。平流层气溶胶注入通常被批评为分散全球减少温室气体排放努力的注意力,其目的是通过在低平流层播撒气溶胶来增加地球的反照率。在某种程度上,SAI 的灵感来自于对大面积火山爆发后地球表面暂时冷却的观测,这些火山爆发向平流层引入了大量的硫酸盐颗粒,SAI 在建模研究中得到了广泛的探讨。降温效应可能伴随着其他重大后果,包括平流层升温、平流层臭氧(O3)耗竭和全球平均降水量减少。为了了解 SAI 对环境和气候的潜在影响,我们从气溶胶科学的角度出发,回顾了有关这些问题的知识现状。我们总结了气溶胶的辐射特性及其在确定 SAI 的最佳化学和物理气溶胶特性方面所起的作用,以及它们对低平流层变暖的影响。然后,我们深入回顾了平流层气溶胶异质化学对全球臭氧水平的影响。我们回顾了 SAI 模型研究及其不确定性,并将其与观测到的火山衍生硫酸盐气溶胶对环境和气候的影响(包括对全球气温、平流层变暖和水文循环的影响)进行对比。我们还简要讨论了当前应用 SAI 的治理和经济考虑因素,并从研究和社会角度提出了在部署 SAI 以减缓气候变化之前应解决的基本问题。
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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CiteScore
2.90
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