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- Title
Large-scale characteristics of thermokarst lakes across the source area of the Yellow River on the Qinghai-Tibetan Plateau.
- Authors
Liu, Wen-hui; Zhou, Guang-hao; Liu, Hai-rui; Li, Qing-peng; Xie, Chang-wei; Li, Qing; Zhao, Jian-yun; Zhang, Qi
- Abstract
As significant evidence of permafrost degradation, thermokarst lakes play an important role in the permafrost regions by regulating hydrology, ecology, and biogeochemistry. In the Sources Area of the Yellow River (SAYR), permafrost degradation has accelerated since the 1980s, and numerous thermokarst lakes have been discovered. In this paper, we use Sentinel-2 images to extract thermokarst lake boundaries and perform a regional-scale study on their geometry across the permafrost region in the SAYR. We also explored the spatiotemporal variations and potential drivers from the perspectives of the permafrost, climate, terrain and vegetation conditions. The results showed that there were 47,518 thermokarst lakes in 2021 with a total area of 190.22×106 m2, with an average size of 4,003.3 m2. The 44,928 ponds (≤10,000 m2) predominated the whole lake number (94.1%) but contributed to a small portion of the total lake area (28.8%). With 2,590 features (5.9%), small-sized (10,000 to 100,000 m2) and large-sized lakes (>100,000 m2) constituted up to 71.2% of the total lake area. Thermokarst lakes developed more significantly in warm permafrost regions than in cold permafrost areas; 74.1% of lakes with a total area of 119.6×106 m2 (62.9%), were distributed in warm permafrost regions. Most thermokarst lakes were likely to develop within the elevation range of 4,500∼4,800 m, on flat terrain (slope<10°), on SE and S aspects and in alpine meadow areas. The thermokarst lakes in the study region experienced significant shrinkage between 1990 and 2021, characterized by obvious lake drainage; the lake numbers decreased by 5418 (56.1%), with a decreasing area of 58.63×1o6 m2 (49.0%). This shrinkage of the thermokarst lake area was attributable mainly to the intensified degradation of rich-ice permafrost thawing arising from continued climate warming, despite the wetting climatic trend.
- Subjects
THERMOKARST; GLOBAL warming; LAKES; MOUNTAIN meadows; INTEGERS
- Publication
Journal of Mountain Science, 2023, Vol 20, Issue 6, p1589
- ISSN
1672-6316
- Publication type
Article
- DOI
10.1007/s11629-022-7693-y