2008-2019年奥地利达尔丰纳冰川(斯匹次卑尔根岛)体积和几何形状的变化

IF 1.6 4区 地球科学 Q4 ENVIRONMENTAL SCIENCES
A. Terekhov, U. Prokhorova, A. L. Borisik, V. Demidov, S. Verkulich
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引用次数: 1

摘要

先前发表的大地测量物质平衡数据表明,自20世纪初以来,斯瓦尔巴群岛巴伦支堡地区的冰川在十年时间尺度上萎缩。然而,能够计算质量平衡年际变化的较短时间跨度的观测很少。该研究展示了对位于巴伦支堡镇南部斯匹次卑尔根岛的Austre Dahlfonna冰川(2平方公里)的地面GNSS和GPR调查的结果。根据2019年春季50 MHz频率探地雷达调查,面积平均冰厚为82 m,最大值为170 m。结果证实了冰川的多热结构,下面有一层温带冰。自小冰期结束以来,奥斯特达尔丰纳的面积减少了一半。通过对比GNSS调查结果(2019年)的融冰季节结束的co-registered存档遥感数据(2013年和2008年S0 Terrengmodell ArcticDEM地带),它是计算,在过去的12年(2008 - 2019),Austre Dahlfonna失去了16%的体积,这对应于一个大地质量平衡的-12.05±0.85 m·w·e。质量损失在2008 - 2013年(5.22±0.37 w·e。)低于2013 - 2019年(6.83±0.48 w·e。)这与正在进行的对邻近的奥地利Grønfjordbreen冰川的直接测量以及整个群岛的质量平衡模式是一致的。我们证明,在2005-2012年期间发生的、之前在整个群岛都检测到的不那么剧烈的冰川质量损失,肯定也发生在巴伦支堡地区。这一时间间隔的特点是NAO负相位的普遍存在(65%的复发率),这可能表明较冷的北极气团更频繁地侵入。这一事实证明,巴伦支堡地区冰川的物质平衡变率在5-10年的时间跨度内受区域尺度因素的支配,可能是受大气环流变化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in volume and geometry of the Austre Dahlfonna glacier (Spitsbergen island) in 2008–2019
Previously published geodetic mass balance data indicate glacier shrinkage in the Barentsburg area of Svalbard since the beginning of the 20th century on the decadal time scale. However, observations for shorter time spans allowing one to compute the inter-annual variability of the mass balance are scarce. The study presents results of ground-based GNSS and the GPR surveys of the Austre Dahlfonna glacier (2 sq km) located on Spitsbergen island, south of the town of Barentsburg. According to the GPR survey of spring 2019 at 50 MHz frequency, the area-averaged ice thickness was equal to 82 m, while the maximum was 170 m. The results confirm the polythermal structure of the glacier, with a layer of underlying temperate ice. Since the end of the Little Ice Age, the area of Austre Dahlfonna has halved. By comparing the GNSS survey results (the end of the melt season of 2019) with the co-registered archived remote sensing data (ArcticDEM strip of 2013 and S0 Terrengmodell of 2008), it was computed that, within the last 12 years (2008–2019), Austre Dahlfonna lost 16 % of its volume, which corresponds to a geodetic mass balance of –12.05 ± 0.85 m w. e. The mass loss in 2008–2013 (5.22 ± 0.37 m w. e.) was lower than in 2013–2019 (6.83 ± 0.48 m w. e.), which is in agreement with the ongoing direct measurements on the neighboring Austre Grønfjordbreen glacier and with the archipelago-wide mass-balance patterns. We demonstrate that the less intensive glacier mass loss, which occurred in 2005–2012 and was detected previously for the whole archipelago, definitely took place in the Barentsburg area as well. This time interval is characterized by the prevalence of a negative NAO phase (65 % of recurrence), which may indicate more frequent intrusions of colder Arctic air masses. This fact proves that the mass-balance variability of the Barentsburg area glaciers is governed in time spans of 5–10 years by regional-scale factors, presumably by shifts in the atmospheric circulation regimes.
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来源期刊
CiteScore
3.00
自引率
5.00%
发文量
37
审稿时长
7 months
期刊介绍: The mission of Arctic, Antarctic, and Alpine Research (AAAR) is to advance understanding of cold region environments by publishing original scientific research from past, present and future high-latitude and mountain regions. Rapid environmental change occurring in cold regions today highlights the global importance of this research. AAAR publishes peer-reviewed interdisciplinary papers including original research papers, short communications and review articles. Many of these papers synthesize a variety of disciplines including ecology, climatology, geomorphology, glaciology, hydrology, paleoceanography, biogeochemistry, and social science. Papers may be uni- or multidisciplinary but should have interdisciplinary appeal. Special thematic issues and proceedings are encouraged. The journal receives contributions from a diverse group of international authors from academia, government agencies, and land managers. In addition the journal publishes opinion pieces, book reviews and in memoria. AAAR is associated with the Institute of Arctic and Alpine Research (INSTAAR) the oldest active research institute at the University of Colorado Boulder.
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