Kinematic inventory of rock glaciers in the Nyainqêntanglha Range using the MT-InSAR method

Rock glaciers are typical periglacial landforms with tongue or lobate morphological shapes and characterized by the distinct front, lateral margins, and often by ridge-and-furrow surface topography textures as well as kinematic characteristics, widely distributed in alpine environments. Multitempora...

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Bibliographic Details
Published in:International Journal of Digital Earth
Main Authors: Xuefei Zhang, Min Feng, Jinhao Xu, Dezhao Yan, Jing Wang, Xiaoqing Zhou, Tao Li, Xiang Zhang
Format: Article in Journal/Newspaper
Language:English
Published: Taylor & Francis Group 2023
Subjects:
rock glacier
mt-insar
quadtree segmentation
nyainqêntanglha
kinematics
Mathematical geography. Cartography
GA1-1776
permafrost
Online Access:https://doi.org/10.1080/17538947.2023.2260778
https://doaj.org/article/3a6c8eb190214828b925cc9d0497bdab
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Summary:Rock glaciers are typical periglacial landforms with tongue or lobate morphological shapes and characterized by the distinct front, lateral margins, and often by ridge-and-furrow surface topography textures as well as kinematic characteristics, widely distributed in alpine environments. Multitemporal Synthetic aperture radar interferometry (MT-InSAR), is a remote sensing technique with demonstrated effectiveness for detecting landform kinematics. However, its application to rock glaciers is challenged by temporal decorrelation and atmospheric phase noises due to complex topography and snow cover. We designed a quadtree segmentation and parallel computing-based MT-InSAR method to improve the quality and efficiency of deformation measurement of rock glaciers. We applied the method to a rock glacier inventory of the Nyainqêntanglha Range, China, derived from high-resolution Gaofen-2 images, to quantify the activity rate of each rock glacier. Results showed that 32.1% (6,389) of the identified rock glaciers exhibited slope-parallel deformation rates exceeding 100 mm/y. The activities of the rock glaciers exhibited strong correlations with their distance to glaciers, precipitation, freeze–thaw magnitude, and permafrost occurrence probability. The results demonstrate the effectiveness of the developed segmentation-parallel MT-InSAR method for monitoring rock glacier deformation over a large region.

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