Development and Deformation Characteristics of Large Ancient Landslides in the Intensely Hazardous Xiongba-Sela Section of the Jinsha River, Eastern Tibetan Plateau, China

IF 4.1 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Journal of Earth Science Pub Date : 2024-06-25 DOI:10.1007/s12583-023-1925-y
Yiqiu Yan, Changbao Guo, Yanan Zhang, Zhendong Qiu, Caihong Li, Xue Li
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Abstract

The upstream Jinsha River, located in the eastern Tibetan Plateau, has been experiencing intense geological hazards characterized by a high density of ancient landslides, significant deformation and reactivation challenges. In this study, remote sensing interpretation, field investigations, and Small Baseline Subset Interferometric Synthetic Aperture Radar (SBAS-InSAR) technologies have been employed. Along a 17 km stretch of the Jinsha River, specifically in the Xiongba-Sela segment, 16 large-scale ancient landslides were identified, 9 of which are currently undergoing creeping deformation. Notably, the Sela and Xiongba ancient landslides exhibit significant deformation, with a maximum deformation rate of −192 mm/yr, indicating a high level of sliding activity. The volume of the Sela ancient landslide is estimated to be 1.8 × 108 to 4.5 × 108 m3, and characterized by extensive fissures and long-term creeping deformation. The SBAS-InSAR results revealed significant spatial variations in the deformation of the Sela ancient landslide, generally displaying two secondary zones of intense deformation, and landslide deformation exhibits nonlinear behavior with time. Between January 2016 and February 2022, Zone III1 on the southwest side of the Sela ancient landslide, experienced a maximum cumulative deformation of −857 mm, with a maximum deformation rate of −108 mm/yr. Zone III2, on the northeast side of the Sela ancient landslide, the maximum cumulative deformation was −456 mm, with a maximum deformation rate of −74 mm/yr; among these, the H2 and H4 secondary bodies on the south side of III1 are in the accelerative deformation stage and at the Warn warning level. We propose that the large-scale flood and debris flow disasters triggered by the Baige landslide-dammed lake-dam broken disaster chain in Tibetan Plateau during October and November 2018 caused severe erosion at the foot of downstream slopes. This far-field triggering effect accelerated the creep of the downstream ancient landslides. Consequently, the deformation rate of Zone III2 of the Sela ancient landslide increased by 6 to 8 times, exhibiting traction-type style reactivation. This heightened activity raises concerns about the potential for large-scale or overall reactivation of the landslide, posing a risk of damming the Jinsha River and initiating a dam-break disaster chain. Our research on the reactivation characteristics and mechanisms of large ancient landslides in high deep-cut valleys provides valuable guidance for geological hazard investigation and risk prevention.

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中国青藏高原东部金沙江重灾区雄坝-色拉河段大型古滑坡的发育与变形特征
位于青藏高原东部的金沙江上游地质灾害频发,古滑坡密集,变形严重,重新启动面临挑战。本研究采用了遥感解译、野外调查和小基线子集干涉合成孔径雷达(SBAS-InSAR)技术。在金沙江 17 公里的河段上,特别是在雄坝-色拉河段,发现了 16 处大型古滑坡,其中 9 处目前正在发生蠕变变形。值得注意的是,色拉古滑坡和雄巴古滑坡变形明显,最大变形速率为-192 毫米/年,表明滑动活动频繁。据估计,塞拉古滑坡的体积为 1.8 × 108 至 4.5 × 108 立方米,具有广泛的裂缝和长期蠕动变形的特点。SBAS-InSAR 的结果显示,塞拉古滑坡的变形在空间上存在显著变化,总体上呈现出两个次级强烈变形区,且滑坡变形随时间的变化呈现非线性行为。2016 年 1 月至 2022 年 2 月期间,位于塞拉古滑坡西南侧的 III1 区累计最大变形量为-857 毫米,最大变形速率为-108 毫米/年。位于塞拉古滑坡东北侧的Ⅲ2区,最大累计变形量为-456毫米,最大变形速率为-74毫米/年;其中,Ⅲ1区南侧的H2、H4次生体处于加速变形阶段,处于预警级别。我们提出,2018年10-11月青藏高原白格滑坡-堰塞湖-溃坝灾害链引发的大规模洪水泥石流灾害,造成下游坡脚严重侵蚀。这种远场触发效应加速了下游古滑坡的蠕变。因此,色拉古滑坡III2区的变形速率增加了6至8倍,呈现出牵引型式的再活化。这种加剧的活动引发了人们对滑坡大规模或整体再活化可能性的担忧,有可能造成金沙江溃坝,引发溃坝灾害链。我们对高深切谷大型古滑坡再活化特征和机理的研究,为地质灾害调查和风险防范提供了宝贵的指导。
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来源期刊
Journal of Earth Science
Journal of Earth Science 地学-地球科学综合
CiteScore
5.50
自引率
12.10%
发文量
128
审稿时长
4.5 months
期刊介绍: Journal of Earth Science (previously known as Journal of China University of Geosciences), issued bimonthly through China University of Geosciences, covers all branches of geology and related technology in the exploration and utilization of earth resources. Founded in 1990 as the Journal of China University of Geosciences, this publication is expanding its breadth of coverage to an international scope. Coverage includes such topics as geology, petrology, mineralogy, ore deposit geology, tectonics, paleontology, stratigraphy, sedimentology, geochemistry, geophysics and environmental sciences. Articles published in recent issues include Tectonics in the Northwestern West Philippine Basin; Creep Damage Characteristics of Soft Rock under Disturbance Loads; Simplicial Indicator Kriging; Tephra Discovered in High Resolution Peat Sediment and Its Indication to Climatic Event. The journal offers discussion of new theories, methods and discoveries; reports on recent achievements in the geosciences; and timely reviews of selected subjects.
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