Climate and Tropospheric Oxidizing Capacity

IF 11.3 1区 地球科学 Q1 ASTRONOMY & ASTROPHYSICS Annual Review of Earth and Planetary Sciences Pub Date : 2024-01-12 DOI:10.1146/annurev-earth-032320-090307
Arlene M. Fiore, Loretta J. Mickley, Qindan Zhu, Colleen B. Baublitz
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Abstract

The hydroxyl radical (OH) largely controls the tropospheric self-cleansing capacity by reacting with gases harmful to the environment and human health. OH concentrations are determined locally by competing production and loss processes. Lacking strong observational constraints, models differ in how they balance these processes, such that the sign of past and future OH changes is uncertain. In a warmer climate, OH production will increase due to its water vapor dependence, partially offset by faster OH-methane loss. Weather-sensitive emissions will also likely increase, although their net impact on global mean OH depends on the balance between source (nitrogen oxides) and sink (reactive carbon) gases. Lightning activity increases OH, but its response to climate warming is of uncertain sign. To enable confident projections of OH, we recommend efforts to reduce uncertainties in kinetic reactions, in measured and modeled OH, in proxies for past OH concentrations, and in source and sink gas emissions. ▪ OH is strongly modulated by internal climate variability despite its lifetime of a few seconds at most, with implications for interpreting trends in methane. ▪ Improved kinetic constraints on key reactions would strengthen confidence in regional and global OH budgets, and in the response of OH to climate change. ▪ Future OH changes will depend on uncertain and compensating processes involving weather-sensitive chemistry and emissions, plus human choices. ▪ Technological solutions to climate change will likely impact tropospheric oxidizing capacity and merit further study prior to implementation.Expected final online publication date for the Annual Review of Earth and Planetary Sciences, Volume 52 is May 2024. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.
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气候与对流层氧化能力
羟基自由基(OH)通过与对环境和人类健康有害的气体发生反应,在很大程度上控制着对流层的自净能力。羟基自由基的浓度是由相互竞争的产生和损失过程决定的。由于缺乏强有力的观测约束,模型在如何平衡这些过程方面存在差异,因此过去和未来 OH 变化的迹象并不确定。在气候变暖的情况下,由于羟基甲烷依赖于水汽,羟基甲烷的产生量将会增加,但羟基甲烷的损失速度会加快,从而部分抵消羟基甲烷的产生量。对天气敏感的排放物也可能会增加,尽管它们对全球平均 OH 的净影响取决于源气体(氮氧化物)和汇气体(活性碳)之间的平衡。闪电活动会增加 OH,但其对气候变暖的反应还不确定。为了能够对 OH 进行可靠的预测,我们建议努力减少动力学反应、测量和模拟的 OH、过去 OH 浓度的代用指标以及源和汇气体排放中的不确定性。尽管 OH 的寿命最长只有几秒钟,但它受到内部气候变异的强烈调节,这对解释甲烷的变化趋势有影响。改进对关键反应的动力学约束将增强对区域和全球 OH 预算以及 OH 对气候变 化响应的信心。未来 OH 的变化将取决于涉及对天气敏感的化学和排放的不确定补偿过程,以及人 类的选择。气候变化的技术解决方案可能会影响对流层的氧化能力,在实施之前值得进一步研究。《地球和行星科学年度评论》第 52 卷的最终在线出版日期预计为 2024 年 5 月。修订后的估计日期请参见 http://www.annualreviews.org/page/journal/pubdates。
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
Annual Review of Earth and Planetary Sciences
Annual Review of Earth and Planetary Sciences 地学天文-地球科学综合
CiteScore
25.10
自引率
0.00%
发文量
25
期刊介绍: Since its establishment in 1973, the Annual Review of Earth and Planetary Sciences has been dedicated to providing comprehensive coverage of advancements in the field. This esteemed publication examines various aspects of earth and planetary sciences, encompassing climate, environment, geological hazards, planet formation, and the evolution of life. To ensure wider accessibility, the latest volume of the journal has transitioned from a gated model to open access through the Subscribe to Open program by Annual Reviews. Consequently, all articles published in this volume are now available under the Creative Commons Attribution (CC BY) license.
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