Earth System Model Aerosol–Cloud Diagnostics (ESMAC Diags) package, version 2: assessing aerosols, clouds, and aerosol–cloud interactions via field campaign and long-term observations

IF 4 3区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geoscientific Model Development Pub Date : 2023-11-08 DOI:10.5194/gmd-16-6355-2023
Shuaiqi Tang, Adam C. Varble, Jerome D. Fast, Kai Zhang, Peng Wu, Xiquan Dong, Fan Mei, Mikhail Pekour, Joseph C. Hardin, Po-Lun Ma
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Abstract

Abstract. Poor representations of aerosols, clouds, and aerosol–cloud interactions (ACIs) in Earth system models (ESMs) have long been the largest uncertainties in predicting global climate change. Huge efforts have been made to improve the representation of these processes in ESMs, and the key to these efforts is the evaluation of ESM simulations with observations. Most well-established ESM diagnostics packages focus on the climatological features; however, they lack process-level understanding and representations of aerosols, clouds, and ACIs. In this study, we developed the Earth System Model Aerosol–Cloud Diagnostics (ESMAC Diags) package to facilitate the routine evaluation of aerosols, clouds, and ACIs simulated the Energy Exascale Earth System Model (E3SM) from the US Department of Energy (DOE). This paper documents its version 2 functionality (ESMAC Diags v2), which has substantial updates compared with version 1 (Tang et al., 2022a). The simulated aerosol and cloud properties have been extensively compared with in situ and remote-sensing measurements from aircraft, ship, surface, and satellite platforms in ESMAC Diags v2. It currently includes six field campaigns and two permanent sites covering four geographical regions: the eastern North Atlantic, the central US, the northeastern Pacific, and the Southern Ocean. These regions produce frequent liquid- or mixed-phase clouds, with extensive measurements available from the DOE Atmospheric Radiation Measurement user facility and other agencies. ESMAC Diags v2 generates various types of single-variable and multivariable diagnostics, including percentiles, histograms, joint histograms, and heatmaps, to evaluate the model representation of aerosols, clouds, and ACIs. Select examples highlighting the capabilities of ESMAC Diags are shown using E3SM version 2 (E3SMv2). In general, E3SMv2 can reasonably reproduce many observed aerosol and cloud properties, with biases in some variables such as aerosol particle and cloud droplet sizes and number concentrations. The coupling of aerosol and cloud number concentrations may be too strong in E3SMv2, possibly indicating a bias in processes that control aerosol activation. Furthermore, the liquid water path response to a perturbed cloud droplet number concentration behaves differently in E3SMv2 and observations, which warrants further study to improve the cloud microphysics parameterizations in E3SMv2.
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地球系统模型气溶胶-云诊断(ESMAC diag)包,版本2:评估气溶胶,云,和气溶胶-云的相互作用,通过实地活动和长期观测
摘要长期以来,地球系统模式(esm)中气溶胶、云和气溶胶-云相互作用(ACIs)的不准确表征一直是预测全球气候变化的最大不确定性。人们已经做出了巨大的努力来改善这些过程在ESM中的表现,而这些努力的关键是用观测来评估ESM模拟。大多数成熟的ESM诊断包侧重于气候特征;然而,它们缺乏对气溶胶、云和aci的过程级理解和表示。在这项研究中,我们开发了地球系统模型气溶胶-云诊断(ESMAC diag)包,以促进气溶胶、云和ACIs的常规评估,模拟了美国能源部(DOE)的能源百亿亿次地球系统模型(E3SM)。本文记录了其版本2的功能(ESMAC diag v2),与版本1相比有了实质性的更新(Tang et al., 2022a)。在ESMAC Diags v2中,模拟的气溶胶和云特性已与飞机、船舶、地面和卫星平台的原位和遥感测量结果进行了广泛的比较。它目前包括六个实地活动和两个常设地点,覆盖四个地理区域:北大西洋东部、美国中部、太平洋东北部和南大洋。这些区域经常产生液态或混合相云,美国能源部大气辐射测量用户设施和其他机构可以进行广泛的测量。ESMAC Diags v2生成各种类型的单变量和多变量诊断,包括百分比、直方图、联合直方图和热图,以评估气溶胶、云和aci的模型表示。使用E3SM版本2 (E3SMv2)显示了突出显示ESMAC diag功能的选择示例。总的来说,E3SMv2可以合理地再现许多观测到的气溶胶和云的特性,但在气溶胶颗粒和云滴大小和数量浓度等变量上存在偏差。在E3SMv2中,气溶胶和云数浓度的耦合可能太强,这可能表明控制气溶胶激活的过程存在偏差。此外,E3SMv2中液态水路径对扰动云滴数浓度的响应与观测结果存在差异,值得进一步研究以改进E3SMv2中的云微物理参数化。
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来源期刊
Geoscientific Model Development
Geoscientific Model Development GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
8.60
自引率
9.80%
发文量
352
审稿时长
6-12 weeks
期刊介绍: Geoscientific Model Development (GMD) is an international scientific journal dedicated to the publication and public discussion of the description, development, and evaluation of numerical models of the Earth system and its components. The following manuscript types can be considered for peer-reviewed publication: * geoscientific model descriptions, from statistical models to box models to GCMs; * development and technical papers, describing developments such as new parameterizations or technical aspects of running models such as the reproducibility of results; * new methods for assessment of models, including work on developing new metrics for assessing model performance and novel ways of comparing model results with observational data; * papers describing new standard experiments for assessing model performance or novel ways of comparing model results with observational data; * model experiment descriptions, including experimental details and project protocols; * full evaluations of previously published models.
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