High-resolution dataset of thermokarst lakes on the Qinghai-Tibetan Plateau

The Qinghai-Tibetan Plateau (QTP), the largest high-altitude and low-latitude permafrost zone in the world, has experienced rapid permafrost degradation in recent decades, and one of the most remarkable resulting characteristics is the formation of thermokarst lakes. Such lakes have attracted signif...

Full description

Bibliographic Details
Main Authors: Chen, Xu, Mu, Cuicui, Jia, Lin, Li, Zhilong, Fan, Chengyan, Mu, Mei, Peng, Xiaoqing, Wu, Xiaodong
Format: Text
Language:English
Published: 2021
Subjects:
Online Access:https://doi.org/10.5194/essd-2020-378
https://essd.copernicus.org/preprints/essd-2020-378/
Description
Summary:The Qinghai-Tibetan Plateau (QTP), the largest high-altitude and low-latitude permafrost zone in the world, has experienced rapid permafrost degradation in recent decades, and one of the most remarkable resulting characteristics is the formation of thermokarst lakes. Such lakes have attracted significant attention because of their ability to regulate carbon cycle, water, and energy fluxes. However, the distribution of thermokarst lakes in this area remains largely unknown, hindering our understanding of the response of permafrost and its carbon feedback to climate change. Here, based on the Google Earth Engine platform, we examined the modern distribution (2018) of thermokarst lakes on the QTP using Sentinel-2A data; for the first time providing the true spatial distribution by using a resolution of 10 m with a relative error of 0–0.5. Results show that the total thermokarst lake area on the QTP is 1730.34 m 2 km 2 , accounting for approximately 4 % of the total water area of lakes and ponds, and that overall thermokarst lake density is 12/100 m 2 km 2 . More specifically, the densities of thermokarst lakes in the land types of alpine desert steppe (16/100 km 2 ) and barren land (17/100 km 2 ) were larger than those of alpine meadows (13/100 km 2 ), alpine steppe (11/100 km 2 ), and wet meadow (11/100 km 2 ). These findings provide a scientific foundation for future investigations into the effects of climate change on the permafrost environment and carbon emissions from rapidly developing thermokarst landscapes. Data are made available as open access via the National Tibetan Plateau Data Center (Chen et al., 2021) with DOI:10.11888/Geocry.tpdc.271205 ( https://data.tpdc.ac.cn/en/data/c0c05207-568d-41db-ab94-8610bdcdbbe5/ ).