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首页> 外文期刊>Journal of Hydrology >Deriving a time series of 3D glacier motion to investigate interactions of a large mountain glacial system with its glacial lake: Use of Synthetic Aperture Radar Pixel Offset-Small Baseline Subset technique
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Deriving a time series of 3D glacier motion to investigate interactions of a large mountain glacial system with its glacial lake: Use of Synthetic Aperture Radar Pixel Offset-Small Baseline Subset technique

机译:推出3D冰川运动的时间序列,调查大型山冰水系统与其冰川湖的相互作用:使用合成孔径雷达像素偏移 - 小基线子集技术

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We investigated the interactions of Lake Merzbacher with the Southern Inylchek Glacier (Central Tien Shan) using the Synthetic Aperture Radar (SAR) Pixel Offset-Small Baseline Subset (PO-SBAS) to derive a time series of three-dimensional (3D) glacier motion. The measurements of 3D glacier velocity were similar to 17% more precise than a previous study that did not use the SBAS estimation. The velocities of the glacier were up to 58 cm/day east, 70 cm/day north, and 113 cm/day vertically. Combining these data with Landsat images indicated that movement of the glacier is sensitive to changes of Lake Merzbacher. Specifically, the entry of more lake water into the glacier during the ablation season increased englacial ablation due to thermal erosion. Moreover, ice calving begins when the lake water gradually lifts the ice dam. Calving can cause greater loss of glacier mass than normal ablation. Trying to replenish the front mass loss, the distributary accelerates and the mass loss further intensifies. A time series of the vertical velocity indicates that the glacier tongue has a huge englacial cavity. We suggest that the lake outburst is directly related to the crack of this cavity. Bursting of the lake triggers a mini-surge at the glacier tongue. The vertical velocity at the ice dam was similar to+60 cm/day before the lake outburst, and similar to-113 cm/day afterwards. After drainage of the lake, flow velocities at the distributary, do not sharply decrease because pre-drainage mass loss needs to be replenished by fast flow. Based on comparisons with previous measurements, our results indicate that the lake had an increasing influence on the glacier from 2005 to 2009. This study demonstrates that a time series of 3D glacier motion based on the PO-SBAS technique is effective for assessing the dynamics of a mountain glacial system and interactions with its glacial lake. (C) 2018 Elsevier B.V. All rights reserved.
机译:我们调查了Merzbacher Lake Merzbacher与Southern inallchek冰川(中央山)的相互作用使用合成孔径雷达(SAR)像素偏移 - 小基线子集(PO-SBA)来得出三维(3D)冰川运动的时间序列。 3D冰川速度的测量与未使用SBAS估计的先前研究比以前的研究更具精确的测量值相似。冰川的速度高达58厘米/天东,70厘米/天北,垂直113厘米/天。将这些数据与Landsat图像相结合,表明冰川的移动对默扎克湖的变化敏感。具体而言,在消融季节期间将更多湖水进入冰川,由于热腐蚀,增加了englacial消融。而且,当湖水逐渐升起冰水坝时,冰也就开始了。产犊可能会导致冰川质量的损失大于正常烧蚀。试图补充前大量损失,分配加速和大众损失进一步加剧。垂直速度的时间序列表明冰川舌头具有巨大的enylacial腔。我们建议湖爆发与这种腔的裂缝直接相关。湖泊的爆裂触发了冰川舌头的迷你浪涌。冰大坝的垂直速度与湖爆发前的+ 60厘米/天相似,然后与后面的113厘米/天相似。在湖中排水后,分配器的流速,不要急剧下降,因为需要通过快速流补充预排水质量损失。基于与先前的测量结果进行比较,我们的结果表明,湖泊从2005年到2009年对冰川的影响越来越大。本研究表明,基于PO-SBA技术的3D冰川运动的时间序列是有效评估动态山冰川系统和与冰川湖的互动。 (c)2018年elestvier b.v.保留所有权利。

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