The added value of using convective-permitting regional climate model simulations to represent cloud band events over South America.

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Climate Dynamics Pub Date : 2024-01-01 Epub Date: 2024-10-16 DOI:10.1007/s00382-024-07460-3
Marcia T Zilli, Murilo Ruv Lemes, Neil C G Hart, Kate Halladay, Ron Kahana, Gilberto Fisch, Andreas Prein, Kyoko Ikeda, Changhai Liu
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引用次数: 0

Abstract

Climate science has long explored whether higher resolution regional climate models (RCMs) provide improved simulation of regional climates over global climate models (GCMs). The advent of convective-permitting RCMs (CPRCMs), where sufficiently fine-scale grids allow explicitly resolving rather than parametrising convection, has created a clear distinction between RCM and GCM formulations. This study investigates the simulation of tropical-extratropical (TE) cloud bands in a suite of pan-South America convective-permitting Met Office Unified Model (UM) and Weather Research and Forecasting (WRF) climate simulations. All simulations produce annual cycles in TE cloud band frequency within 10-30% of observed climatology. However, too few cloud band days are simulated during the early summer (Nov-Dec) and too many during the core summer (Jan-Feb). Compared with their parent forcing, CPRCMs simulate more dry days but systematically higher daily rainfall rates, keeping the total rain biases low. During cloud band systems, the CPRCMs correctly reproduced the observed changes in tropical rain rates and their importance to climatology. Circulation analysis suggests that simulated lower subtropical rain rates during cloud bands systems, in contrast to the higher rates in the tropics, are associated with weaker northwesterly moisture flux from the Amazon towards southeast South America, more evident in the CPRCMs. Taken together, the results suggest that CPRCMs tend to be more effective at producing heavy daily rainfall rates than parametrised simulations for a given level of near-surface moist energy. The extent to which this improves or degrades biases present in the parent simulations is strongly region-dependent.

使用允许对流的区域气候模型模拟来表示南美洲上空云带事件的附加值。
长期以来,气候科学一直在探索,与全球气候模式相比,分辨率更高的区域气候模式 (RCMs)是否能更好地模拟区域气候。对流允许区域气候模式(CPRCMs)的出现明确区分了区域气候模式和全球气候模式。本研究调查了在一套泛南美洲对流允许气象局统一模式(UM)和天气研究与预报(WRF)气候模拟中对热带-外热带(TE)云带的模拟。所有模拟产生的 TE 云带频率年周期都在观测气候的 10-30% 范围内。但是,初夏(11 月至 12 月)模拟的云带日数太少,而核心夏季(1 月至 2 月)模拟的云带日数太多。与母模式相比,CPRCM 模拟的干旱日数较多,但日降雨率却较高,从而使总雨量偏差保持在较低水平。在云带系统期间,CPRCMs 正确再现了观测到的热带降雨率变化及其对气候的重要性。环流分析表明,在云带系统期间,模拟的亚热带降雨率较低,而热带降雨率较高,这与亚马逊向南美洲东南部的西北气流较弱有关,这在 CPRCMs 中更为明显。总之,研究结果表明,在给定的近地面湿润能量水平下,CPRCM 比参数化模拟更能有效地产生日降雨量。这在多大程度上改善或降低了母模拟中存在的偏差,在很大程度上取决于地区。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Climate Dynamics
Climate Dynamics 地学-气象与大气科学
CiteScore
8.80
自引率
15.20%
发文量
483
审稿时长
2-4 weeks
期刊介绍: The international journal Climate Dynamics provides for the publication of high-quality research on all aspects of the dynamics of the global climate system. Coverage includes original paleoclimatic, diagnostic, analytical and numerical modeling research on the structure and behavior of the atmosphere, oceans, cryosphere, biomass and land surface as interacting components of the dynamics of global climate. Contributions are focused on selected aspects of climate dynamics on particular scales of space or time. The journal also publishes reviews and papers emphasizing an integrated view of the physical and biogeochemical processes governing climate and climate change.
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