Abstract Glacial lakes are increasing in number and size worldwide, posing growing risks for outburst floods. Norway’s last glacial lake inventory used semi-automatic mapping on Sentinel-2 imagery from 2018–19. In this study, we test a more automated and reproducible workflow for updating glacial lake extents in Norway using Sentinel-2 and Sentinel-1 satellite imagery and a Random Forest classifier. Here, glacial lakes are defined as water bodies within 200 m of glaciers larger than 0.1 km 2 with a minimum lake size of 400 m 2 . A 10th-percentile Sentinel-2 summer composite from 2023–24 mitigated snow and cloud cover, while Sentinel-1 ascending-descending difference composites reduced shadow misclassification without relying on DEMs. Validation across six glacier regions shows high detection reliability (F1-score: 0.81) as well as high delineation accuracy (median deviation <6.5 m). However, manual correction remains necessary, especially in steep terrain. We identified 1382 glacial lakes in 2023–24, covering 124 km 2 —a substantial increase relative to 2018–19. Excluding regulated lakes and adjusting for methodological differences, we estimate a 9–22% lake area increase over the past five years, mainly driven by glacier retreat. The workflow is efficient and reproducible, but regional threshold adaptation and retraining are required for transfer to other regions.
Lappe et al. (Thu,) studied this question.