Recent climate-induced shape changes of the ice summit of Kebnekaise, Northern Sweden

IF 1.4 4区地球科学 Q3 GEOGRAPHY, PHYSICAL

Geografiska Annaler Series A-Physical Geography Pub Date : 2018-11-19 DOI:10.1080/04353676.2018.1542130

P. Holmlund, E. S. Holmlund

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引用次数: 1

Abstract

ABSTRACT The ice summit of Kebnekaise is slowly melting down as a consequence of climate change. In August 2018 this peak, which for a long time has been the highest in Sweden, reached an elevation a few decimetres lower than the nearby situated northern summit in solid rock. It has become a symbol of the fragility of nature. Its areal extent and shape have varied over time and its height has ranged within approximately 15 m during the twentieth century. Since the turn of the century, the ice summit has decreased to a new lower and smaller level but the changes are not uniform, and they show a complex relation between weather parameters and the shape and size of the summit. Layers in the ice include climate information of past changes. But what changes are we able to determine by examining gradually exposed dust layers, or by coring the summit. In this paper, we are analysing the late changes in shape and volume of the ice summit and we place the results into a paleo climate discussion. We have used photogrammetric methods to map the geometry of the summit at different dates when data has been available. We have also done a multiple regression to analyse the relation between the summit elevation and the net mass balance of the nearby located Storglaciären. The correlation is good from mid 1970s until now but weak prior to that. It is herein explained by former uncertainties of the geographic position of the summit.

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最近气候引起的瑞典北部Kebnekaise冰顶的形状变化

由于气候变化的影响，凯布内凯兹冰峰正在缓慢融化。2018年8月，这座长期以来一直是瑞典最高峰的山峰，其海拔比附近位于坚固岩石中的北部峰顶低了几厘米。它已经成为大自然脆弱的象征。它的面积和形状随着时间的推移而变化，其高度在20世纪约为15米。自世纪之交以来，冰川峰顶下降到一个新的更低、更小的高度，但变化并不均匀，天气参数与峰顶形状和大小之间存在复杂的关系。冰层中包含了过去变化的气候信息。但是，我们可以通过检查逐渐暴露的尘埃层或对山顶进行取样来确定哪些变化。在这篇论文中，我们分析了冰顶的形状和体积的后期变化，并将结果用于古气候的讨论。我们使用摄影测量方法绘制了在不同日期获得数据时峰顶的几何形状。我们还做了一个多元回归来分析峰顶海拔与附近Storglaciären的净质量平衡之间的关系。从20世纪70年代中期到现在，相关性很好，但在此之前相关性较弱。这里用以前对峰顶地理位置的不确定来解释。

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

Geografiska Annaler Series A-Physical Geography 地学-地质学

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Geografiska Annaler: Series A, Physical Geography publishes original research in the field of Physical Geography with special emphasis on cold regions/high latitude, high altitude processes, landforms and environmental change, past, present and future. The journal primarily promotes dissemination of regular research by publishing research-based articles. The journal also publishes thematic issues where collections of articles around a specific themes are gathered. Such themes are determined by the Editors upon request. Finally the journal wishes to promote knowledge and understanding of topics in Physical Geography, their origin, development and current standing through invited review articles.