Insights on sources and formation mechanisms of liquid-bearing clouds over MOSAiC examined from a Lagrangian framework

IF 4.7 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
I. Silber, M. Shupe
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引用次数: 4

Abstract

Understanding Arctic stratiform liquid-bearing cloud life cycles and properly representing these life cycles in models is crucial for evaluations of cloud feedbacks as well as the faithfulness of climate projections for this rapidly warming region. Examination of cloud life cycles typically requires analyses of cloud evolution and origins on short time scales, on the order of hours to several days. Measurements from the recent Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition provide a unique view of the current state of the central Arctic over an annual cycle. Here, we use the MOSAiC radiosonde measurements to detect liquid-bearing cloud layers over full atmospheric columns and to examine the cloud-generating air masses’ properties. We perform 5-day (120 h) back-trajectory calculations for every detected cloud and cluster them using a unique set of variables extracted from these trajectories informed by ERA5 reanalysis data. This clustering method enables us to separate between the air mass source regions such as ice-covered Arctic and midlatitude open water. We find that moisture intrusions into the central Arctic typically result in multilayer liquid-bearing cloud structures and that more than half of multilayer profiles include overlying liquid-bearing clouds originating in different types of air masses. Finally, we conclude that Arctic cloud formation via prolonged radiative cooling of elevated stable subsaturated air masses circulating over the Arctic can occur frequently (up to 20% of detected clouds in the sounding data set) and may lead to a significant impact of ensuing clouds on the surface energy budget, including net surface warming in some cases.
从拉格朗日框架研究马赛克上空含液云的来源和形成机制
了解北极层状含液云的生命周期,并在模式中恰当地表示这些生命周期,对于评估云反馈以及对这一快速变暖地区的气候预测的准确性至关重要。对云生命周期的检查通常需要在短时间尺度上(从几小时到几天)分析云的演变和起源。最近北极气候研究多学科漂流观测站(MOSAiC)的测量提供了一个独特的视角,以年为周期观察北极中部的现状。在这里,我们使用MOSAiC无线电探空仪测量来探测整个大气柱上的含液体云层,并检查产生云的气团的性质。我们对每个检测到的云进行了5天(120小时)的反轨迹计算,并使用ERA5再分析数据提供的从这些轨迹中提取的一组独特变量对它们进行了聚类。这种聚类方法使我们能够区分气团源区域,如冰雪覆盖的北极和中纬度开放水域。我们发现,水汽侵入北极中部通常会导致多层含液云结构,而且超过一半的多层剖面包括上覆的源自不同类型气团的含液云。最后,我们得出结论,北极云的形成是通过在北极上空循环的升高的稳定亚饱和气团的长时间辐射冷却而形成的,这种情况可能经常发生(在探测数据集中高达20%的检测到的云),并可能导致随后的云对地表能量预算的显著影响,包括在某些情况下的地表净变暖。
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来源期刊
Elementa-Science of the Anthropocene
Elementa-Science of the Anthropocene Earth and Planetary Sciences-Atmospheric Science
CiteScore
6.90
自引率
5.10%
发文量
65
审稿时长
16 weeks
期刊介绍: A new open-access scientific journal, Elementa: Science of the Anthropocene publishes original research reporting on new knowledge of the Earth’s physical, chemical, and biological systems; interactions between human and natural systems; and steps that can be taken to mitigate and adapt to global change. Elementa reports on fundamental advancements in research organized initially into six knowledge domains, embracing the concept that basic knowledge can foster sustainable solutions for society. Elementa is published on an open-access, public-good basis—available freely and immediately to the world.
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