Dynamics of a retreating ice sheet: a LiDAR study in Värmland, SW Sweden

IF 1.2 4区地球科学 Q2 GEOLOGY

Gff Pub Date : 2020-10-01 DOI:10.1080/11035897.2020.1822437

A. Goodship, H. Alexanderson

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引用次数: 6

Abstract

ABSTRACT Värmland in south western Sweden lies across the established zone of marine-terrestrial transition of the Scandinavian Ice Sheet (SIS) margin. The region lies inside the Younger Dryas maximum limit reached at 12.7 cal ka BP and the area of rapid final SIS retreat from 11.5 cal ka BP. LiDAR data across Värmland allows more detailed observation and analysis of glacial landforms formed during this stage than previously possible. This study synthesises geomorphological mapping performed on highly detailed digital elevation models (DEMs) and field observations across the region around Torsby in northern Värmland to reconstruct the dynamics of the ice sheet as it retreated. Several landforms that developed during deglaciation are identified and clearly reflect the change from a marine to terrestrially terminating ice margin. Ice-marginal deltas suggest a slowing of retreat at the point of marine-terrestrial transition. Increased topographic control on ice-sheet flow, pattern of drainage and ice sheet decay is indicated by the distribution of streamlined terrain, eskers, and outwash material. Hummocky terrain across low ground and incised valleys suggest persistence of ice in topographic lows beyond the retreat of the main ice front. Combined analysis of identified landforms allows a model for the pattern of retreat to be produced that traces the retreating ice sheet margin in far greater detail than previously has been possible in this area. This provides important data for understanding the final retreat of the SIS and details processes likely occurring beneath the margin of the Greenland Ice Sheet today.

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退缩冰盖的动力学:瑞典西南部Värmland的激光雷达研究

摘要瑞典西南部的Värmland位于斯堪的纳维亚冰盖（SIS）边缘的海陆过渡区。该区域位于达到12.7卡BP的Younger Dryas最大限度内，以及SIS从11.5卡BP快速最终消退的区域内。整个Värmland的激光雷达数据可以对这一阶段形成的冰川地貌进行比以前更详细的观测和分析。这项研究综合了在高度详细的数字高程模型（DEM）上进行的地貌测绘和对Värmland北部Torsby周围地区的实地观测，以重建冰盖退缩时的动态。已经确定了冰川消融期间形成的几种地貌，这些地貌清楚地反映了从海洋到陆地的冰缘变化。冰缘三角洲表明，在海陆过渡点，退缩速度有所放缓。流线型地形、eskers和外部冲刷物质的分布表明，地形对冰盖流动、排水模式和冰盖衰减的控制有所增加。低地和下切山谷中的丘状地形表明，在主冰锋退缩之外的地形低点，冰仍存在。对已识别地貌的综合分析可以产生一个后退模式的模型，该模型比以前在该地区更详细地追踪后退的冰盖边缘。这为了解SIS的最终消退提供了重要数据，并详细说明了今天格陵兰冰盖边缘下可能发生的过程。

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

Gff 地学-地质学

CiteScore

2.80

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： GFF is the journal of the Geological Society of Sweden. It is an international scientific journal that publishes papers in English covering the whole field of geology and palaeontology, i.e. petrology, mineralogy, stratigraphy, systematic palaeontology, palaeogeography, historical geology and Quaternary geology. Systematic descriptions of fossils, minerals and rocks are an important part of GFF''s publishing record. Papers on regional or local geology should deal with Balto-Scandian or Northern European geology, or with geologically related areas. Papers on geophysics, geochemistry, biogeochemistry, climatology and hydrology should have a geological context. Descriptions of new methods (analytical, instrumental or numerical), should be relevant to the broad scope of the journal. Review articles are welcome, and may be solicited occasionally. Thematic issues are also possible.