Meltwater runoff and glacier mass balance in the high Arctic: 1991–2022 simulations for Svalbard

IF 4.4 2区地球科学 Q1 GEOGRAPHY, PHYSICAL

Cryosphere Pub Date : 2023-07-20 DOI:10.5194/tc-17-2941-2023

L. Schmidt, T. Schuler, Erin Emily Thomas, S. Westermann

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引用次数: 2

Abstract

Abstract. The Arctic is undergoing increased warming compared to the global mean, which has major implications for freshwater runoff into the oceans from seasonal snow and glaciers. Here, we present high-resolution (2.5 km) simulations of glacier mass balance, runoff, and snow conditions on Svalbard from 1991–2022, one of the fastest warming regions in the world. The simulations are created using the CryoGrid community model forced by Copernicus Arctic Regional ReAnalysis (CARRA) (1991–2021) and AROME-ARCTIC forecasts (2016–2022). Updates to the water percolation and runoff schemes are implemented in the CryoGrid model for the simulations. In situ observations available for Svalbard, including automatic weather station data, stake measurements, and discharge observations, are used to carefully evaluate the quality of the simulations and model forcing. We find a slightly negative climatic mass balance (CMB) over the simulation period of −0.08 mw.e.yr-1 but with no statistically significant trend. The most negative annual CMB is found for Nordenskiöldland (−0.73 mw.e.yr-1), with a significant negative trend of −0.27 mw.e. per decade for the region. Although there is no trend in the annual CMB, we do find a significant increasing trend in the runoff from glaciers of 0.14 mw.e. per decade. The average runoff was found to be 0.8 mw.e.yr-1. We also find a significant negative trend in the refreezing of −0.13 mw.e. per decade. Using AROME-ARCTIC forcing, we find that 2021/22 has the most negative CMB and highest runoff over the 1991–2022 simulation period investigated in this study. We find the simulated climatic mass balance and runoff using CARRA and AROME-ARCTIC forcing are similar and differ by only 0.1 mw.e.yr-1 in climatic mass balance and by 0.2 mw.e.yr-1 in glacier runoff when averaged over all of Svalbard. There is, however, a clear difference over Nordenskiöldland, where AROME-ARCTIC simulates significantly higher mass balance and significantly lower runoff. This indicates that AROME-ARCTIC may provide similar high-quality predictions of the total mass balance of Svalbard as CARRA, but regional uncertainties should be taken into consideration. The simulations produced for this study are made publicly available at a daily and monthly resolution, and these high-resolution simulations may be re-used in a wide range of applications including studies on glacial runoff, ocean currents, and ecosystems.

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北极高地的融水径流和冰川质量平衡：1991–2022年斯瓦尔巴群岛的模拟

摘要与全球平均水平相比，北极正在经历日益加剧的变暖，这对季节性雪和冰川流入海洋的淡水产生了重大影响。在这里，我们展示了高分辨率（2.5 km）模拟了1991-2022年斯瓦尔巴群岛的冰川质量平衡、径流和雪况，斯瓦尔巴岛是世界上变暖最快的地区之一。模拟是使用哥白尼北极区域重新分析（CARRA）（1991-2021）和AROME-Arctic预测（2016-2022）强制建立的CryoGrid社区模型创建的。在CryoGrid模型中对水渗透和径流方案进行了更新，用于模拟。斯瓦尔巴群岛的现场观测，包括自动气象站数据、桩测量和流量观测，用于仔细评估模拟和模型强迫的质量。我们发现，在−0.08的模拟期内，气候质量平衡（CMB）略有负值 mw.e.yr-1，但没有统计学上显著的趋势。Nordenskiöldland的年度CMB最负（−0.73 mw.eyr-1），具有−0.27的显著负趋势该地区每十年兆瓦。尽管每年的CMB没有趋势，但我们确实发现冰川径流有显著的增加趋势，为0.14 每十年分子量。平均径流量为0.8 mw.e.yr-1。我们还发现−0.13的再冻结有显著的负趋势每十年分子量。使用AROME-ARCTIC强迫，我们发现在本研究调查的1991-2022年模拟期内，2021/22年的CMB最负，径流量最高。我们发现，使用CARRA和AROME-ARCTIC强迫模拟的气候质量平衡和径流相似，仅相差0.1 mw.e.yr-1在气候质量平衡和0.2 整个斯瓦尔巴群岛冰川径流的平均值为mw.e.yr-1。然而，与Nordenskiöldland相比有明显的差异，AROME-ARCTIC模拟了显著更高的质量平衡和显著更低的径流。这表明AROME-ARCTIC可能提供与CARRA类似的斯瓦尔巴群岛总质量平衡的高质量预测，但应考虑区域不确定性。为这项研究制作的模拟以每日和每月的分辨率公开，这些高分辨率模拟可以在广泛的应用中重复使用，包括冰川径流、洋流和生态系统的研究。

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

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.