Runoff from Greenland's firn area - Why do MODIS, RCMs and a firn model disagree?

Publication date

2026-01-20

Authors

MacHguth, Horst
Tedstone, Andrew
Kuipers Munneke, PeterISNI 0000000392156952
Brils, MaxORCID 0000-0002-3532-1918ISNI 0000000512509696
Noël, BriceISNI 0000000492916939
Clerx, Nicole
Jullien, Nicolas
Fettweis, Xavier
van den Broeke, Michiel R.ORCID 0000-0003-4662-7565ISNI 0000000389564445

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

Due to increasing air temperatures, surface melt and meltwater runoff expand to ever higher elevations on the Greenland ice sheet and reach far into its firn area. Here, we evaluate how two regional climate models (RCMs) simulate the expansion of the ice sheet runoff area: MAR, and RACMO with its offline firn model IMAU-FDM. For the purpose of this comparison we first improve an existing algorithm to detect daily visible runoff limits from MODIS satellite imagery. We then apply the improved algorithm to most of the Greenland ice sheet and compare MODIS to RCM runoff limits for the years 2000 to 2021. We find that RACMO/IMAU-FDM runoff limits are on average somewhat lower than MODIS and show little fluctuation from year to year. MAR runoff limits are higher than MODIS, but their inter-annual fluctuations are more similar to MODIS. Both models apply a bucket scheme to route meltwater vertically. Focusing on the K-transect, we demonstrate that differences in modelled firn temperatures and in the implementation of the bucket scheme govern RCM simulated runoff limits. The formulation of the runoff condition is of large influence: in RACMO/IMAU-FDM meltwater is only considered runoff when it reaches the bottom of the simulated firn pack; in MAR runoff can also occur from within the firn pack, which contributes to its high runoff limits. We show that total runoff along the K-transect, simulated by the two RCMs, diverges by up to 29 % in extraordinary melt years. This difference is mostly caused by the diverging simulated runoff limits, which emphasizes the importance of improving the simulations of Greenland's melting firn area.

Keywords

Water Science and Technology, Earth-Surface Processes, SDG 13 - Climate Action

Citation

MacHguth, H, Tedstone, A, Kuipers Munneke, P, Brils, M, Noël, B, Clerx, N, Jullien, N, Fettweis, X & Van Den Broeke, M 2026, 'Runoff from Greenland's firn area - Why do MODIS, RCMs and a firn model disagree?', Cryosphere, vol. 20, no. 1, pp. 427-452. https://doi.org/10.5194/tc-20-427-2026