Causes and effects of Shisper glacial lake outburst flood event in Karakoram in 2022

IF 4.5 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geomatics Natural Hazards & Risk Pub Date : 2023-10-03 DOI:10.1080/19475705.2023.2264460

Sandeep Kumar Mondal, Vatsal D. Patel, Rishikesh Bharti, Ramesh P. Singh

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引用次数: 0

Abstract

Karakoram Himalayas are vulnerable to glacial lake outburst floods (GLOFs), which cause catastrophic floods in the surrounding areas. The increasing natural and anthropogenic activities, especially in the Indo-Gangetic Plains at the southern flank of the towering Himalayas, could be the cause of climate change affecting the frequency of the natural hazards in the Himalayas. In the present study, a detailed analysis of the Shisper Lake breach of 7 May 2022 is carried out using satellite remote sensing. A decreasing trend in the glacial mass balance is observed between 2017 and 2021; in this period, frequent GLOF episodes occurred. A pronounced decline in the snow cover and glacial debris (before the cascade) and an abnormal increase in land surface temperature (LST) retrieved from satellite data could be responsible for the enhanced snow/glacial melting prior to the breach. Alteration in glacial mobility (cm/12 days) is observed at the locations where the glacier melts due to an increase in LST with increased debris cover. In the paper, we have studied changes in water quality and land cover along the stream after the GLOF. An increment in normalized difference turbidity index (NDTI) is observed before the flood showing turbulence and sediment load. Increased glacial melt contribution into the stream results in increased flow rate and decreased water quality as observed through normalized difference water index (NDWI) and normalized difference chlorophyll index (NDCI), near the Karakoram Highway Bridge. Sentinel-1 backscatter coefficient indicates increased discharge from the melting of glaciers. A significant reduction in co-flood coherence is observed, attributed to the bridge collapse and severe bank erosion.

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2022年喀喇昆仑地区Shisper冰湖溃决洪水事件成因及影响

喀喇昆仑喜马拉雅地区容易发生冰湖溃决洪水(GLOFs)，导致周边地区发生特大洪水。自然和人为活动的增加，特别是在高耸的喜马拉雅山脉南侧的印度-恒河平原，可能是气候变化影响喜马拉雅地区自然灾害频率的原因。本文利用卫星遥感技术对2022年5月7日的Shisper湖决口进行了详细分析。2017 - 2021年冰川物质平衡呈下降趋势;这一时期GLOF发作频繁。从卫星数据中获取的地表温度(LST)异常升高可能是裂口之前积雪和冰川融化加速的原因。在冰川融化的地方，由于地表温度的增加和碎屑覆盖的增加，观测到冰川活动性的变化(cm/12天)。在本文中，我们研究了GLOF后的河流水质和土地覆盖的变化。在洪水前，归一化浊度差指数(NDTI)增加，显示湍流和泥沙荷载。在喀喇昆仑公路桥附近，通过归一化差水指数(NDWI)和归一化差叶绿素指数(NDCI)观测到冰川融水对河流贡献的增加导致流量增加和水质下降。Sentinel-1背向散射系数表明冰川融化造成的流量增加。由于桥梁倒塌和严重的河岸侵蚀，观测到共洪水相干性显著降低。

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

Geomatics Natural Hazards & Risk GEOSCIENCES, MULTIDISCIPLINARY-METEOROLOGY & ATMOSPHERIC SCIENCES

CiteScore

7.70

自引率

4.80%

发文量

117

审稿时长

>12 weeks

期刊介绍： The aim of Geomatics, Natural Hazards and Risk is to address new concepts, approaches and case studies using geospatial and remote sensing techniques to study monitoring, mapping, risk mitigation, risk vulnerability and early warning of natural hazards. Geomatics, Natural Hazards and Risk covers the following topics: - Remote sensing techniques - Natural hazards associated with land, ocean, atmosphere, land-ocean-atmosphere coupling and climate change - Emerging problems related to multi-hazard risk assessment, multi-vulnerability risk assessment, risk quantification and the economic aspects of hazards. - Results of findings on major natural hazards