Response of Mixed-Phase Cloud Microphysics to Aerosol Perturbations at the Contrasting Sites of Limassol, Cyprus, and Punta Arenas, Chile

IF 3.4 2区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES

Journal of Geophysical Research: Atmospheres Pub Date : 2025-09-29 DOI:10.1029/2024JD043157

Yun He, Patric Seifert, Cristofer Jimenez, Martin Radenz, Albert Ansmann, Johannes Bühl, Rodanthi-Elisavet Mamouri, Boris Barja González

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引用次数: 0

Abstract

Ice crystal number concentrations (ICNC) of shallow stratiform mixed-phase clouds (MPCs) were contextualized with the ice nucleating particle concentrations (INPC) of the same airmass in which the cloud layers formed. Prerequisite are ground-based lidar and cloud radar observations from two sites with contrasting aerosol conditions: Limassol (34.67 $°$ N, 33.04 $°$ E), Cyprus, dominated by desert dust and continental aerosols, and Punta Arenas (53.13 $°$ S, 70.88 $°$ W), Chile, where marine aerosol and a so far unquantified fraction of aerosol from other sources prevails. For each MPC case, cloud-level INPC is derived from lidar observations of the cloud-free surroundings. The ICNC nucleated within the MPC is derived 180 m below the liquid-dominated cloud-top layer based on the synergetic observations from lidar and radar. At Limassol, both ICNC and INPC in dust-embedded MPC range from 0.05 to 3 L⁻¹ and show good correlation. At similar temperatures, INPC derived in the free troposphere above Punta Arenas are at least one order of magnitude lower than at Limassol. In contrast, an agreement between ICNC (0.02–2 L⁻¹) and INPC (0.01–0.1 L⁻¹) at temperatures below $- 27$ $°$ C is not observed at Punta Arenas. Given the previously demonstrated reliability of the ICNC retrieval, we suggest that current parameterizations of free-tropospheric INPC at temperatures below $- 28$ $°$ C in the Southern Hemisphere midlatitudes might lack relevant components, due to scarcity of long-term in situ data sets of INPC at these conditions. Despite the identified discrepancies for Punta Arenas, our study highlights the crucial role of ice-nucleating particles in the primary ice formation of shallow stratiform MPCs.

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塞浦路斯利马索尔和智利蓬塔阿雷纳斯对比站点混合相云微物理对气溶胶扰动的响应

将浅层状混合相云（MPCs）的冰晶数浓度（ICNC）与形成云层的同一气团的冰核粒子浓度（INPC）进行了背景分析。前提条件是两个地点的地面激光雷达和云雷达观测结果具有不同的气溶胶条件：利马索尔（34.67°${}^{\circ}$ N, 33.04°${}^{\circ}$ E），塞浦路斯，主要是沙漠沙尘和大陆气溶胶，蓬塔阿里纳斯(53.13°${}^{\circ}$ S，70.88°${}^{\circ}$ W)，智利，那里主要是海洋气溶胶和迄今尚未量化的其他来源气溶胶的一部分。对于每个MPC案例，云级INPC是由激光雷达对无云环境的观测得出的。在MPC内形成核的ICNC是基于激光雷达和雷达的协同观测，在液体占主导地位的云顶层以下180米处得出的。在利马索尔，ICNC和INPC在0.05 ~ 3 L−1范围内，具有良好的相关性。在相似的温度下，蓬塔阿雷纳斯上空自由对流层的INPC至少比利马索尔低一个数量级。相比之下，ICNC （0.02-2 L−1）和INPC （0.01-0.1 L−1）在低于- 27${-}27$°${}}^{\circ}$ C的温度下在Punta Arenas没有观察到一致。考虑到先前ICNC反演的可靠性，我们认为目前南半球中纬度温度低于- 28${-}28$°${}}^{\circ}$ C的自由对流层INPC参数化可能缺乏相关分量。由于缺乏在这些条件下INPC的长期原位数据集。尽管在蓬塔阿雷纳斯发现了差异，但我们的研究强调了冰核粒子在浅层状MPCs的初级冰形成中的关键作用。

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来源期刊

Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics

CiteScore

7.30

自引率

11.40%

发文量

684

期刊介绍： JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.