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Silicon isotopes in Arctic and sub-Arctic glacial meltwaters: the role of subglacial weathering in the silicon cycle
Hatton, J.E.; Hendry, K.R.; Hawkings, J.R.; Wadham, J.L.; Opfergelt, S.; Kohler, T.J.; Yde, J.C.; Stibal, M.; Žárský, J.D. (2019). Silicon isotopes in Arctic and sub-Arctic glacial meltwaters: the role of subglacial weathering in the silicon cycle. Proc. - Royal Soc., Math. Phys. Eng. Sci. 475(2228): 20190098. https://dx.doi.org/10.1098/rspa.2019.0098
In: Proceedings of the Royal Society. Mathematical, Physical and Engineering Sciences. Royal Society: London (6 Carlton House Terrace, London SW1Y 5AG). ISSN 1364-5021; e-ISSN 1471-2946, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal
Author keywords
    subglacial weathering; silicon isotopes; silicon cycle; glaciers and icesheets

Authors  Top 
  • Hatton, J.E.
  • Hendry, K.R.
  • Hawkings, J.R.
  • Wadham, J.L.
  • Opfergelt, S., more
  • Kohler, T.J.
  • Yde, J.C.
  • Stibal, M.
  • Žárský, J.D.

Abstract
    Glacial environments play an important role in high-latitude marine nutrient cycling, potentially contributing significant fluxes of silicon (Si) to the polar oceans, either as dissolved silicon (DSi) or as dissolvable amorphous silica (ASi). Silicon is a key nutrient in promoting marine primary productivity, contributing to atmospheric CO2 removal. We present the current understanding of Si cycling in glacial systems, focusing on the Si isotope (δ30Si) composition of glacial meltwaters. We combine existing glacial δ30Si data with new measurements from 20 sub-Arctic glaciers, showing that glacial meltwaters consistently export isotopically light DSi compared with non-glacial rivers (+0.16‰ versus +1.38‰). Glacial δ30SiASi composition ranges from −0.05‰ to −0.86‰ but exhibits low seasonal variability. Silicon fluxes and δ30Si composition from glacial systems are not commonly included in global Si budgets and isotopic mass balance calculations at present. We discuss outstanding questions, including the formation mechanism of ASi and the export of glacial nutrients from fjords. Finally, we provide a contextual framework for the recent advances in our understanding of subglacial Si cycling and highlight critical research avenues for assessing potential future changes in these environments.

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