| Summary: | Thermokarst lakes cover an estimated 20-40% of Earth’s 14x106 km2 of permafrost. Increasing thermokarst lake size is often used as a proxy for permafrost degradation and associated methane emissions. Lack of long-term, high frequency observations has led to poor quantification of changes in thermokarst lake size as a potential result of climate change. In this study, a scalable and reproducible automatic workflow for water pixel classification was developed in Google Earth Engine using the entire 50-year Landsat archive, and was applied to thermokarst lake ecosystems to detect long-term changes in regional lake fractional area. Two lake area datasets were produced in regionally contrasting study sites: a 45-year dataset in Tuktoyaktuk, Canada and, due to lack of available imagery, a 23-year database for Siberian lakes on the border of the Sakha Republic in Russia. Tuktoyaktuk, a region of extensive thermokarst activity, has a high percentage of thermokarst lake area enabling rigorous testing of the detection algorithm. The fast warming of the region’s permafrost allows a narrative to be established using Landsat timeseries. The lakes near Sakha Republic were chosen based on high Landsat image availability to test the wider applicability of the workflow in geographically varying permafrost regions. Water pixel identification had a 93% accuracy compared to published datasets. Lake coverage in Tuktoyaktuk is higher, with lakes covering on average 20.7% more of the total area. Both areas had overall increases in fractional lake area, with Tuktoyaktuk recording a 3.5 times greater increase. Annual rates of expansion are increasing at 0.23% in Tuktoyaktuk and 0.49% in the Siberian study site. Estimated total emissions from both sites over their respective time periods was 1.58x106 tCH4, or 44.24x106 tCO2e. Key drivers of lake area change require more research, but both sites demonstrated strong positive correlation with freezing height anomaly and sea surface temperature anomaly. Future work should focus on applying ...
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