目前的相关性不足以预测 E3SM v2 中人为气溶胶造成的云反照率变化

IF 5.2 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Naser Mahfouz, Johannes Mülmenstädt, Susannah Burrows
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引用次数: 0

摘要

摘要。云反照率对液滴数量扰动的敏感性仍然是理解气溶胶-云相互作用以及过去和现在气候状态的不确定性来源。通过能源超大规模地球系统模式(E3SM)v2 实验,我们探究了竞争过程对东北太平洋低海平面层积云反照率的影响。我们发现,在当今条件下,气溶胶对降水的抑制增加会提高云反照率,而云沉积的增加则会降低云反照率。通过构建一个在所有条件下都表现出负易感性的假设模型配置,我们得出结论:气溶胶扰动导致的云反照率变化无法通过 E3SM v2 中的现今共变量进行预测。因此,至少在气溶胶扰动引起的云反照率变化方面,我们在此得出的无效结果对当今气候观测足以制约过去状态的假设提出了挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Present-day correlations are insufficient to predict cloud albedo change by anthropogenic aerosols in E3SM v2
Abstract. Cloud albedo susceptibility to droplet number perturbation remains a source of uncertainty in understanding aerosol–cloud interactions and thus both past and present climate states. Through the Energy Exascale Earth System Model (E3SM) v2 experiments, we probe the effects of competing processes on cloud albedo susceptibility of low-lying marine stratocumulus in the northeast Pacific. In present-day conditions, we find that increasing precipitation suppression by aerosols increases cloud albedo susceptibility, whereas increasing cloud sedimentation decreases it. By constructing a hypothetical model configuration exhibiting negative susceptibility under all conditions, we conclude that cloud albedo change due to aerosol perturbation cannot be predicted by present-day co-variabilities in E3SM v2. As such, our null result herein challenges the assumption that present-day climate observations are sufficient to constrain past states, at least in the context of cloud albedo changes to aerosol perturbation.
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来源期刊
Atmospheric Chemistry and Physics
Atmospheric Chemistry and Physics 地学-气象与大气科学
CiteScore
10.70
自引率
20.60%
发文量
702
审稿时长
6 months
期刊介绍: Atmospheric Chemistry and Physics (ACP) is a not-for-profit international scientific journal dedicated to the publication and public discussion of high-quality studies investigating the Earth''s atmosphere and the underlying chemical and physical processes. It covers the altitude range from the land and ocean surface up to the turbopause, including the troposphere, stratosphere, and mesosphere. The main subject areas comprise atmospheric modelling, field measurements, remote sensing, and laboratory studies of gases, aerosols, clouds and precipitation, isotopes, radiation, dynamics, biosphere interactions, and hydrosphere interactions. The journal scope is focused on studies with general implications for atmospheric science rather than investigations that are primarily of local or technical interest.
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