Future state of Norwegian glaciers: Estimating glacier mass balance and equilibrium line responses to projected 21st century climate change

IF 16.4 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Accounts of Chemical Research Pub Date : 2023-07-07 DOI:10.1177/09596836231183069

A. Nesje

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引用次数: 0

Abstract

Glaciers and ice caps in Norway are presently undergoing mass loss, areal reduction, and frontal retreat, mainly a result of increased summer ablation due to rising summer temperatures over Scandinavia, especially after 2000 CE. In this paper, the glacier mass-balance response of 10 Norwegian glaciers with continuous mass balance observations (>10 years) to climate projections from 1971–2000 to 2071–2100 have been estimated. Projected changes in mean summer temperature and mean winter precipitation from 1971–2000 to 2071–2100, applying the RCP8.5 emission scenario for five different regions in Norway; ‘Sogn og Fjordane’ and ‘Hordaland’, now Vestland County in western Norway, ‘Oppland’, now part of Innlandet County in eastern Norway, and Nordland County and Finnmark County, both in Northern Norway), range between +3.5°C and +5.0°C, and between +5% and +25%, respectively. These climate projections have been converted (by linear regression with overlapping observational mass-balance data) into specific surface glacier mass balance [winter balance (Bw), summer balance (Bs), and annual balance (Ba) for 10 glaciers in Norway with mass-balance series [Ålfotbreen, Nigardsbreen (part of Jostedalsbreen), Austdalsbreen (part of Jostedalsbreen), Rembesdalskåka (part of Hardangerjøkulen), Blomstølskardsbreen (part of Søre Folgefonna), Storbrean, Hellstugubrean, Gråsubrean, Engabreen (part of Vestre Svartisen, Langfjordjøkelen (data: http://glacier.nve.no/glacier/viewer/ci/no/) yielding a total, cumulative surface glacier mass loss from 2000 to 2100 CE in the range of -85.2 ± 4 to -197.3 ± 10 m water equivalents. The estimated changes in equilibrium-line altitudes (ELAs), in the range of 230 ± 10 to 630 ± 30 m, indicate that the mean ELA may reach the upper part of 7 of the 10 glaciers included in this study [Ålfotbreen, Austdalsbreen, Rembesdalskåka, Blomstølskardsbreen, Gråsubrean, Engabreen and Langfjordjøkelen] by the end of the 21st century. The projected glacier mass loss and ELA rise, and thus changes in glacier length, area and volume, will most likely have profound consequences for future glacier hydrology (runoff), hydropower production, wildlife, ecosystems, glacier hazards, and tourism.

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挪威冰川的未来状态:估计冰川质量平衡和平衡线对21世纪预估气候变化的响应

挪威的冰川和冰盖目前正在经历质量损失、面积减少和锋面退缩，这主要是由于斯堪的纳维亚半岛夏季气温上升，特别是2000年之后，夏季消融增加的结果 CE。在本文中，挪威10座冰川在连续质量平衡观测（>10 年）与1971-2000年至2071-2100年的气候预测之间的关系。1971年至2000年至2071年至2100年的夏季平均温度和冬季平均降水量的预测变化，适用挪威五个不同地区的RCP8.5排放情景；”Sogn og Fjordane’和‘Hordaland’，现在是挪威西部的维斯特兰县，‘Oppland’，现在属于挪威东部的Innlandet县，Nordland县和Finnmark县，都在挪威北部），范围分别在+3.5°C和+5.0°C之间，以及+5%和+25%之间。这些气候预测已（通过具有重叠观测质量平衡数据的线性回归）转换为挪威10座冰川的特定表面冰川质量平衡[冬季平衡（Bw）、夏季平衡（Bs）和年度平衡（Ba（属于Hardangerjøkulen）、Blomstølskardsbreen（属于Søre Folgefonna）、Storbrean、Hellstugubrean、Gråsubran、Engabreen（属于Vestre Svartisen、Langfjordjøkelen）（数据：http://glacier.nve.no/glacier/viewer/ci/no/)从公元2000年到2100年，地表冰川的总累积质量损失在-85.2之间 ± 4至-197.3 ± 10 m水当量。平衡线高度（ELAs）的估计变化，在230的范围内 ± 10至630 ± 30 m、表明到21世纪末，平均ELA可能达到本研究中包括的10座冰川中的7座的上部[Ålfotgreen、Austdalsbreen、Rembesdalskåka、Blomstølskardsbreen、Gråsubran、Engabreen和Langfjordjøkelen]。预计的冰川质量损失和ELA上升，以及冰川长度、面积和体积的变化，很可能会对未来的冰川水文（径流）、水电生产、野生动物、生态系统、冰川灾害和旅游业产生深远影响。

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来源期刊

Accounts of Chemical Research 化学-化学综合

CiteScore

31.40

自引率

1.10%

发文量

312

审稿时长

2 months

期刊介绍： Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.