Accumulation rates (2009–2017) in Southeast Greenland derived from airborne snow radar and comparison with regional climate models

• Published in: Annals of Glaciology
• Main Authors: Lynn Montgomery, Lora Koenig, Jan T. M. Lenaerts, Peter Kuipers Munneke
• Format: Article
• Language: English
• Published: Cambridge University Press 2020-04-01
• Subjects: accumulation; ice-sheet mass balance; polar firn; remote sensing; open climate campaign
• Online Access: https://www.cambridge.org/core/product/identifier/S0260305520000087/type/journal_article

Since the year 2000, Greenland ice sheet mass loss has been dominated by a decrease in surface mass balance rather than an increase in solid ice discharge. Southeast Greenland is an important region to understand how high accumulation rates can offset increasing Greenland ice sheet meltwater runoff. To that end, we derive a new 9-year long dataset (2009–17) of accumulation rates in Southeast Greenland using NASA Operation IceBridge snow radar. Our accumulation dataset derived from internal layers focuses on high elevations (1500–3000 m) because at lower elevations meltwater percolation obscured internal layer structure. The uncertainty of the radar-derived accumulation rates is 11% [using Firn Densification Model (FDM) density profiles] and the average accumulation rate ranges from 0.5 to 1.2 m w.e. With our observations spanning almost a decade, we find large inter-annual variability, but no significant trend. Accumulation rates are compared with output from two regional climate models (RCMs), MAR and RACMO2. This comparison shows that the models are underestimating accumulation in Southeast Greenland and the models misrepresent spatial heterogeneity due to an orographically forced bias in snowfall near the coast. Our dataset is useful to fill in temporal and spatial data gaps, and to evaluate RCMs where few in situ measurements are available.