Turbulent heat fluxes in the North Water Polynya and ice estimated based on ASRv2 data and their impact on cloud

IF 6.4 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Hai-Yi Ren , Mohammed Shokr , Tian-Yu Zhang , Zhi-Lun Zhang , Feng-Ming Hui , Xiao Cheng
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Abstract

The presence or absence of sea ice introduces a substantial perturbation to surface‒atmosphere energy exchanges. Comprehending the effect of varying sea ice cover on surface‒atmosphere interactions is an important consideration for understanding the Arctic climate system. The recurring North Water Polynya (NOW) serves as a natural laboratory for isolating cloud responses to a rapid, near-step perturbation in sea ice. In this study, we employed high-resolution Arctic System Reanalysis version 2 (ASRv2) data to estimate turbulent heat fluxes over the NOW and nearby sea ice (NSI) area between 2005/2006 and 2015/2016. The results indicate that the average turbulent heat fluxes in the polynya are about 87% and 86% higher than in the NSI area over the 10 years during the entire duration of the polynya and during polar night, respectively. Enhanced turbulent heat fluxes from the polynya tend to produce more low-level clouds. The relationship between the polynya and low cloud in winter was examined based on Cloud‒Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO). The low-cloud fraction (0–2 km) was about 7%–34% larger over the polynya than the NSI area, and the ice water content below 200 m was about 250%–413% higher over the former than the latter. The correlation between cloud fraction and turbulent heat fluxes in the polynya peaks around the altitude of 200–300 m. These results suggest that the NOW affects the Arctic boundary layer cloudiness and structure in wintertime. Furthermore, higher horizontal resolution reanalysis data can advance our understanding of the cloud-polynya response.
根据 ASRv2 数据估算的北水域波利尼亚和冰层的湍流热通量及其对云层的影响
海冰的存在与否会对地表-大气能量交换造成巨大干扰。理解不同海冰覆盖对地表-大气相互作用的影响是了解北极气候系统的一个重要考虑因素。经常出现的北水环带(NOW)是一个天然实验室,可用于分离云层对海冰快速、近乎阶跃式扰动的反应。在这项研究中,我们采用了高分辨率的北极系统再分析版本 2 (ASRv2) 数据来估算 2005/2006 年至 2015/2016 年期间 NOW 和附近海冰 (NSI) 区域的湍流热通量。结果表明,在这 10 年中,在整个多雨带期间和极夜期间,多雨带的平均湍流热通量分别比 NSI 地区高出约 87% 和 86%。来自极夜的湍流热通量的增加往往会产生更多的低层云。根据云-气溶胶激光雷达和红外探路者卫星观测数据(CALIPSO),研究了极夜与冬季低云之间的关系。多云间地区的低云率(0-2 公里)比 NSI 地区高出约 7%-34%,200 米以下的冰水含量前者比后者高出约 250%-413%。这些结果表明,NOW 会影响冬季北极边界层的云量和结构。此外,更高水平分辨率的再分析数据可以加深我们对云-多云层响应的理解。
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来源期刊
Advances in Climate Change Research
Advances in Climate Change Research Earth and Planetary Sciences-Atmospheric Science
CiteScore
9.80
自引率
4.10%
发文量
424
审稿时长
107 days
期刊介绍: Advances in Climate Change Research publishes scientific research and analyses on climate change and the interactions of climate change with society. This journal encompasses basic science and economic, social, and policy research, including studies on mitigation and adaptation to climate change. Advances in Climate Change Research attempts to promote research in climate change and provide an impetus for the application of research achievements in numerous aspects, such as socioeconomic sustainable development, responses to the adaptation and mitigation of climate change, diplomatic negotiations of climate and environment policies, and the protection and exploitation of natural resources.
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