Exploring the ability of the variable-resolution Community Earth System Model to simulate cryospheric–hydrological variables in High Mountain Asia

IF 4.4 2区 地球科学 Q1 GEOGRAPHY, PHYSICAL Cryosphere Pub Date : 2023-09-05 DOI:10.5194/tc-17-3803-2023
R. Wijngaard, A. Herrington, W. Lipscomb, G. Leguy, Soon-Il An
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Abstract

Abstract. Earth system models (ESMs) can help to improve the understanding of climate-induced cryospheric–hydrological impacts in complex mountain regions, such as High Mountain Asia (HMA). Coarse ESM grids, however, have difficulties in representing cryospheric–hydrological processes that vary over short distances in complex mountainous environments. Variable-resolution (VR) ESMs can help to overcome these limitations through targeted grid refinement. This study investigates the ability of the VR Community Earth System Model (VR-CESM) to simulate cryospheric–hydrological variables such as the glacier surface mass balance (SMB) over HMA. To this end, a new VR grid is generated, with a regional grid refinement up to 7 km over HMA. Two coupled atmosphere–land simulations are run for the period 1979–1998. The second simulation is performed with an updated glacier cover dataset and includes snow and glacier model modifications. Comparisons are made to gridded outputs derived from a globally uniform 1∘ CESM grid, observation-, reanalysis-, and satellite-based datasets, and a glacier model forced by a regional climate model (RCM). Climatological biases are generally reduced compared to the coarse-resolution CESM grid, but the glacier SMB is too negative relative to observation-based glaciological and geodetic mass balances, as well as the RCM-forced glacier model output. In the second simulation, the SMB is improved but is still underestimated due to cloud cover and temperature biases, missing model physics, and incomplete land–atmosphere coupling. The outcomes suggest that VR-CESM could be a useful tool to simulate cryospheric–hydrological variables and to study climate change in mountainous environments, but further developments are needed to better simulate the SMB of mountain glaciers.
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探索变分辨率群落地球系统模式模拟亚洲高山冰冻圈水文变量的能力
摘要地球系统模式(esm)有助于提高对复杂山区气候诱导的冰冻圈-水文影响的认识,如高山亚洲(HMA)。然而,粗糙的ESM网格在表示复杂山区环境中短距离变化的冰冻圈-水文过程方面存在困难。可变分辨率(VR) esm可以通过有针对性的网格细化来帮助克服这些限制。本研究探讨了VR社区地球系统模型(VR- cesm)模拟HMA上冰川表面质量平衡(SMB)等冰冻圈水文变量的能力。为此,生成了一个新的VR网格,并在HMA上进行了高达7公里的区域网格细化。在1979-1998年期间进行了两次大气-陆地耦合模拟。第二次模拟使用更新的冰川覆盖数据集进行,包括雪和冰川模型的修改。将网格化的结果与全球统一的1°CESM网格、观测、再分析和卫星数据集以及由区域气候模式(RCM)强迫的冰川模式得出的网格化结果进行比较。与粗分辨率CESM网格相比,气候偏差通常会减小,但冰川SMB相对于基于观测的冰河学和大地质量平衡以及rcm强迫冰川模式输出而言过于负。在第二次模拟中,SMB得到了改进,但由于云层覆盖和温度偏差、模型物理缺失以及陆地-大气耦合不完全,SMB仍然被低估。结果表明,VR-CESM可以作为模拟冰冻圈水文变量和研究山地环境气候变化的有用工具,但需要进一步发展以更好地模拟山地冰川的SMB。
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来源期刊
Cryosphere
Cryosphere GEOGRAPHY, PHYSICAL-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
8.70
自引率
17.30%
发文量
240
审稿时长
4-8 weeks
期刊介绍: The Cryosphere (TC) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on all aspects of frozen water and ground on Earth and on other planetary bodies. The main subject areas are the following: ice sheets and glaciers; planetary ice bodies; permafrost and seasonally frozen ground; seasonal snow cover; sea ice; river and lake ice; remote sensing, numerical modelling, in situ and laboratory studies of the above and including studies of the interaction of the cryosphere with the rest of the climate system.
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