Exploring satellite-derived relationships between cloud droplet number concentration and liquid water path using a large-domain large-eddy simulation

S. Dipu, M. Schwarz, A. Ekman, E. Gryspeerdt, T. Goren, O. Sourdeval, J. Mülmenstädt, J. Quaas
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引用次数: 1

Abstract

Important aspects of the adjustments to aerosol-cloud interactions can be examined using the relationship between cloud droplet number concentration (Nd) and liquid water path (LWP). Specifically, this relation can constrain the role of aerosols in leading to thicker or thinner clouds in response to adjustment mechanisms. This study investigates the satellite retrieved relationship between Nd and LWP for a selected case of mid-latitude continental clouds using high-resolution Large-eddy simulations (LES) over a large domain in weather prediction mode. Since the satellite retrieval uses adiabatic assumption to derive the Nd (NAd), we have also considered NAd from the LES model for comparison. The NAd-LWP relationship in the satellite and the LES model show similar, generally positive, but non-monotonic relations. This case over continent thus behaves differently compared to previously-published analysis of oceanic clouds, and the analysis illustrates a regime dependency (marine and continental) in the NAd-LWP relation in the satellite retrievals. The study further explores the impact of the satellite retrieval assumptions on the Nd-LWP relationship. When considering the relationship of the actually simulated cloud-top Nd, rather than NAd, with LWP, the result shows a much more nonlinear relationship. The difference is much less pronounced, however, for shallow stratiform than for convective clouds. Comparing local vs large-scale statistics from satellite data shows that continental clouds exhibit only a weak nonlinear Nd-LWP relationship. Hence a regime based Nd-LWP analysis is even more relevant when it comes to continental clouds.

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利用大域大涡模拟探索卫星云滴数浓度与液态水路径之间的关系
气溶胶-云相互作用调整的重要方面可以通过云滴数浓度(Nd)和液态水路径(LWP)之间的关系来检验。具体地说,这种关系可以约束气溶胶在响应调节机制而导致云层变厚或变薄方面的作用。本研究利用高分辨率大涡模拟(LES)在大范围天气预报模式下对中纬度大陆云的Nd和LWP之间的卫星反演关系进行了研究。由于卫星反演使用绝热假设来推导Nd (NAd),我们也考虑了LES模型中的NAd进行比较。卫星的NAd-LWP与LES模式的NAd-LWP关系相似,一般为正,但非单调关系。因此,大陆上空的这种情况与以前发表的海洋云分析不同,分析说明了卫星检索中的NAd-LWP关系中的状态依赖关系(海洋和大陆)。本研究进一步探讨了卫星反演假设对Nd-LWP关系的影响。当考虑实际模拟的云顶Nd而不是NAd与LWP的关系时,结果显示出更非线性的关系。然而,与对流云相比,浅层云的差异要小得多。比较卫星数据的局地和大尺度统计数据表明,大陆云只表现出微弱的非线性Nd-LWP关系。因此,当涉及到大陆云时,基于Nd-LWP分析的制度就更加相关了。
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