The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat

During past periods of advance, Arctic glaciers and ice sheets overrode soil, sediments, and vegetation and buried significant stores of organic matter (OM); these glaciers are now shrinking rapidly due to climate warming. Little is known about the biogeochemical processing of the OM buried beneath...

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Published in:Global Biogeochemical Cycles
Main Authors: Vinsova, P., Kohler, T. J., Simpson, M. J., Hajdas, I, Yde, J. C., Falteisek, L., Zarsky, J. D., Yuan, T., Tejnecky, V, Mercl, F., Hood, E., Stibal, M.
Format: Text
Language:unknown
Published: 2022
Subjects:
Arctic
Online Access:https://doi.org/10.1029/2021GB007126
http://infoscience.epfl.ch/record/293646
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spelling ftinfoscience:oai:infoscience.epfl.ch:293646 2023-05-15T14:52:31+02:00 The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat Vinsova, P. Kohler, T. J. Simpson, M. J. Hajdas, I Yde, J. C. Falteisek, L. Zarsky, J. D. Yuan, T. Tejnecky, V Mercl, F. Hood, E. Stibal, M. 2022-04-25T00:26:44Z https://doi.org/10.1029/2021GB007126 http://infoscience.epfl.ch/record/293646 unknown doi:10.1029/2021GB007126 isi:000776570700001 http://infoscience.epfl.ch/record/293646 http://infoscience.epfl.ch/record/293646 Text 2022 ftinfoscience https://doi.org/10.1029/2021GB007126 2023-02-13T23:09:46Z During past periods of advance, Arctic glaciers and ice sheets overrode soil, sediments, and vegetation and buried significant stores of organic matter (OM); these glaciers are now shrinking rapidly due to climate warming. Little is known about the biogeochemical processing of the OM buried beneath glacier ice which makes the processes associated with deglaciation difficult to predict. Subglacial sediments exposed at receding glacier fronts may represent a legacy of past biogeochemical processes. Here, we analyzed sediments from retreating fronts of 19 Arctic glaciers for their mineralogical and elemental composition, contents of major nutrients, OM biomarkers (aliphatic lipids and lignin-derived phenols), C-14 age, and microbial community structure. We show the character of the sediments is mostly determined by local glaciation history and bedrock lithology. Most subglacial sediments offer high amounts of readily bioavailable phosphorus (i.e., loose, labile, and Fe/Al P fractions) but lack readily accessible carbon substrates. The subglacial OM originated mainly from overridden terrestrial vascular plants. The results of OM biomarker analysis and C-14 dating suggest the OM substrates degrade in the subglacial environment and are reworked by the resident microbial communities. We argue the biogeochemical legacy of the perishing subglacial environments is an important determinant for the early processes of proglacial ecological succession. Text Arctic EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne) Arctic Global Biogeochemical Cycles 36 3
institution Open Polar
collection EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
op_collection_id ftinfoscience
language unknown
description During past periods of advance, Arctic glaciers and ice sheets overrode soil, sediments, and vegetation and buried significant stores of organic matter (OM); these glaciers are now shrinking rapidly due to climate warming. Little is known about the biogeochemical processing of the OM buried beneath glacier ice which makes the processes associated with deglaciation difficult to predict. Subglacial sediments exposed at receding glacier fronts may represent a legacy of past biogeochemical processes. Here, we analyzed sediments from retreating fronts of 19 Arctic glaciers for their mineralogical and elemental composition, contents of major nutrients, OM biomarkers (aliphatic lipids and lignin-derived phenols), C-14 age, and microbial community structure. We show the character of the sediments is mostly determined by local glaciation history and bedrock lithology. Most subglacial sediments offer high amounts of readily bioavailable phosphorus (i.e., loose, labile, and Fe/Al P fractions) but lack readily accessible carbon substrates. The subglacial OM originated mainly from overridden terrestrial vascular plants. The results of OM biomarker analysis and C-14 dating suggest the OM substrates degrade in the subglacial environment and are reworked by the resident microbial communities. We argue the biogeochemical legacy of the perishing subglacial environments is an important determinant for the early processes of proglacial ecological succession.
format Text
author Vinsova, P.
Kohler, T. J.
Simpson, M. J.
Hajdas, I
Yde, J. C.
Falteisek, L.
Zarsky, J. D.
Yuan, T.
Tejnecky, V
Mercl, F.
Hood, E.
Stibal, M.
spellingShingle Vinsova, P.
Kohler, T. J.
Simpson, M. J.
Hajdas, I
Yde, J. C.
Falteisek, L.
Zarsky, J. D.
Yuan, T.
Tejnecky, V
Mercl, F.
Hood, E.
Stibal, M.
The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
author_facet Vinsova, P.
Kohler, T. J.
Simpson, M. J.
Hajdas, I
Yde, J. C.
Falteisek, L.
Zarsky, J. D.
Yuan, T.
Tejnecky, V
Mercl, F.
Hood, E.
Stibal, M.
author_sort Vinsova, P.
title The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
title_short The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
title_full The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
title_fullStr The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
title_full_unstemmed The Biogeochemical Legacy of Arctic Subglacial Sediments Exposed by Glacier Retreat
title_sort biogeochemical legacy of arctic subglacial sediments exposed by glacier retreat
publishDate 2022
url https://doi.org/10.1029/2021GB007126
http://infoscience.epfl.ch/record/293646
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source http://infoscience.epfl.ch/record/293646
op_relation doi:10.1029/2021GB007126
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http://infoscience.epfl.ch/record/293646
op_doi https://doi.org/10.1029/2021GB007126
container_title Global Biogeochemical Cycles
container_volume 36
container_issue 3
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