Spatially and Temporally Resolved Monitoring of Glacial Lake Changes in Alps During the Recent Two Decades

Climate warming is intensifying the melting of glaciers and the growth of glacial lakes in the Alps, which has a profound impact on the management of water resources and high-mountain hydropower in this region. However, the research on the spatial distribution and temporal evolution of glacial lakes in various types still lacks a holistic view. In this study, we developed an inventory of Alps glacial lakes of different types and then obtained the annual extent of these lakes from 2000 to 2019 using JRC Global Surface Water and Global Land Analysis & Discovery data at a resolution of 30 m. A total of 498 glacial lakes with the net area of 33.77 ± 6.94 km² were identified in the Alps in 2019 and are mainly distributed in the western and central Alps. These Alps glacial lakes, with the area ranging 0.01–1.59 km², are generally dominated by small-sized ones. The comparison of lakes of different types indicated that ice-uncontacted lakes are dominant in number and area, accounting for 59.4% and 58.4%, respectively. In terms of the elevation distribution, almost half of the lakes are concentrated at an altitude of 2250–2750 m. Meanwhile, the mean elevation of small glacial lakes is higher than that of large lakes. The distribution of ice-contacted lakes and supraglacial lakes were more concentrated, and the mean elevation was higher. During the study period, the number, area, and water quantity of glacial lakes were increasing, but the expansion varied between different periods. The changing trend of the glacial lake area and volume is consistent and presents in three stages, as the glacial lake expanded rapidly in the first 5 years and in the last 7 years and remained relatively stable between 2005 and 2012. The quantity and area of glacier-fed lakes increased rapidly, while the non-glacier-fed lakes were relatively stable. The area change rate of supraglacial lakes was the largest (+ 47%). This study provides a spatially-complete and temporally-consecutive picture of glacial lake changes in the Alps and can be greatly helpful for future research on climate-glacier-lake interactions, outburst floods, and freshwater resources in this region.