Discharge of meteoric water in the eastern Norwegian Sea since the last glacial period

Submarine groundwater discharge could impact the transport of critical solutes to the ocean. However, its driver(s), significance over geological time scales, and geographical coverage are poorly understood. We characterize a submarine groundwater seep from the continental slope off northern Norway...

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Bibliographic Details
Published in:Geophysical Research Letters
Main Authors: Hong, Wei-Li, Lepland, Aivo, Himmler, Tobias, Kim, Ji-Hoon, Chand, Shyam, Sahy, Diana, Solomon, Evan A., Rae, James W. B., Martma, Tõnu, Nam, Seung-Il, Knies, Jochen
Format: Article in Journal/Newspaper
Language:English
Published: 2019
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Online Access:https://research-portal.st-andrews.ac.uk/en/researchoutput/discharge-of-meteoric-water-in-the-eastern-norwegian-sea-since-the-last-glacial-period(5d7838fe-18d4-4228-95e4-49919296d997).html
https://doi.org/10.1029/2019GL084237
https://research-repository.st-andrews.ac.uk/bitstream/10023/18146/1/Hong_2019_GRL_Meteoricwater_CC.pdf
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Summary:Submarine groundwater discharge could impact the transport of critical solutes to the ocean. However, its driver(s), significance over geological time scales, and geographical coverage are poorly understood. We characterize a submarine groundwater seep from the continental slope off northern Norway where substantial amount of meteoric water was detected. We reconstruct the seepage history from textural relationships and U-Th geochronology of authigenic minerals. We demonstrate how glacial-interglacial dynamics promoted submarine groundwater circulation more than 100 km offshore and resulted in high fluxes of critical solutes to the ocean. This cryosphere-hydrosphere coupling is likely common in the circum-Arctic implying that future decay of glaciers and permafrost in a warming Arctic is expected to attenuate such a coupled process and thus decrease the export of critical solutes.