The effect of warming climate on nutrient and solute export from the Greenland Ice Sheet

Glacial meltwater runoff is likely an important source of limiting nutrients for downstream primary producers. This has particular significance for regions surrounding the Greenland Ice Sheet, which discharges >400 km3 of meltwater annually. The Arctic is warming rapidly but the impact of higher...

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Bibliographic Details
Published in:Geochemical Perspectives Letters
Main Authors: Hawkings, J. R., Wadham, J. L., Tranter, M., Lawson, E., Sole, A., Cowton, T., Tedstone, A., Bartholomew, I., Nienow, P., Chandler, D., Telling, J.
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
Glaciers
Greenland Ice Sheet
Chemical weathering
Nutrient export
Nutrient cycling
Silica
Phosphorus
Nitrogen
Climate change
Arctic
Greenland
Ice Sheet
Online Access:https://risweb.st-andrews.ac.uk/portal/en/researchoutput/the-effect-of-warming-climate-on-nutrient-and-solute-export-from-the-greenland-ice-sheet(d69e56dc-c900-4a66-9954-30d4e8cfb1cc).html
https://doi.org/10.7185/geochemlet.1510
Description
Summary:Glacial meltwater runoff is likely an important source of limiting nutrients for downstream primary producers. This has particular significance for regions surrounding the Greenland Ice Sheet, which discharges >400 km3 of meltwater annually. The Arctic is warming rapidly but the impact of higher discharge on nutrient export is unknown. We present four years of hydrological and geochemical data from a large Greenland Ice Sheet catchment that includes the two highest melt years on record (2010, 2012). Measurements reveal significant variation in dissolved solute (major ion) and estimated dissolved macronutrient (nitrogen, phosphorus and silica) fluxes, with increases in higher melt years. Labile particulate macronutrients dominate nutrient export, accounting for ~50 % of nitrogen and >80 % of both phosphorus and silica. The response of ice sheet nutrient export to enhanced melting is largely controlled by particle bound nutrients, the future supply of which is uncertain. We propose that the Greenland Ice Sheet provides an underappreciated and annually dynamic source of nutrients for the polar oceans, with changes in meltwater discharge likely to impact marine primary productivity in future decades.

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