Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic

With increased warming in the Arctic, permafrost thaw may induce localized physical disturbance of slopes. These disturbances, referred to as active layer detachments (ALDs), redistribute soil across the landscape, potentially releasing previously unavailable carbon (C). In 2007–2008, widespread ALD...

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Published in:	Biogeochemistry
Main Authors:	Grewer, David M., Lafrenière, Melissa J., Lamoureux, Scott F., Simpson, Myrna J.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2016
Subjects:	Cape Bounty – Soil IOrganic Matter Characterization Active Layer Detachments Solvent Extractable Biomarkers Solid-State C Nuclear Magnetic Resonance Arctic Canada Cape Bounty Nunavut permafrost
Online Access:	http://hdl.handle.net/1974/14590 https://doi.org/10.1007/s10533-016-0215-7

id	ftqueensuniv:oai:qspace.library.queensu.ca:1974/14590
record_format	openpolar
spelling	ftqueensuniv:oai:qspace.library.queensu.ca:1974/14590 2023-05-15T14:52:01+02:00 Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic Grewer, David M. Lafrenière, Melissa J. Lamoureux, Scott F. Simpson, Myrna J. 2016-06-17T13:05:16Z http://hdl.handle.net/1974/14590 https://doi.org/10.1007/s10533-016-0215-7 en eng doi:10.1007/s10533-016-0215-7 http://hdl.handle.net/1974/14590 Cape Bounty – Soil IOrganic Matter Characterization Active Layer Detachments Solvent Extractable Biomarkers Solid-State C Nuclear Magnetic Resonance journal article 2016 ftqueensuniv https://doi.org/10.1007/s10533-016-0215-7 2020-12-29T09:08:52Z With increased warming in the Arctic, permafrost thaw may induce localized physical disturbance of slopes. These disturbances, referred to as active layer detachments (ALDs), redistribute soil across the landscape, potentially releasing previously unavailable carbon (C). In 2007–2008, widespread ALD activity was reported at the Cape Bounty Arctic Watershed Observatory in Nunavut, Canada. Our study investigated organic matter (OM) composition in soil profiles from ALD-impacted and undisturbed areas. Solid-state 13C nuclear magnetic resonance (NMR) and solvent-extractable biomarkers were used to characterize soil OM. Throughout the disturbed upslope profile, where surface soils and vegetation had been removed, NMR revealed low O-alkyl C content and biomarker analysis revealed low concentrations of solvent-extractable compounds suggesting enhanced erosion of labile-rich OM by the ALD. In the disturbed downslope region, vegetation remained intact but displaced material from upslope produced lateral compression ridges at the surface. High O-alkyl content in the surface horizon was consistent with enrichment of carbohydrates and peptides, but low concentrations of labile biomarkers (i.e., sugars) suggested the presence of relatively unaltered labile-rich OM. Decreased O-alkyl content and biomarker concentrations below the surface contrasted with the undisturbed profile and may indicate the loss of well-established pre-ALD surface drainage with compression ridge formation. However, pre-ALD profile composition remains unknown and the observed decreases may result from nominal pre-ALD OM inputs. These results are the first to establish OM composition in ALD-impacted soil profiles, suggesting reallocation of permafrost-derived soil C to areas where degradation or erosion may contribute to increased C losses from disturbed Arctic soils. Article in Journal/Newspaper Arctic Nunavut permafrost Queen's University, Ontario: QSpace Arctic Canada Cape Bounty ENVELOPE(-109.542,-109.542,74.863,74.863) Nunavut Biogeochemistry 128 3 397 415
institution	Open Polar
collection	Queen's University, Ontario: QSpace
op_collection_id	ftqueensuniv
language	English
topic	Cape Bounty – Soil IOrganic Matter Characterization Active Layer Detachments Solvent Extractable Biomarkers Solid-State C Nuclear Magnetic Resonance
spellingShingle	Cape Bounty – Soil IOrganic Matter Characterization Active Layer Detachments Solvent Extractable Biomarkers Solid-State C Nuclear Magnetic Resonance Grewer, David M. Lafrenière, Melissa J. Lamoureux, Scott F. Simpson, Myrna J. Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
topic_facet	Cape Bounty – Soil IOrganic Matter Characterization Active Layer Detachments Solvent Extractable Biomarkers Solid-State C Nuclear Magnetic Resonance
description	With increased warming in the Arctic, permafrost thaw may induce localized physical disturbance of slopes. These disturbances, referred to as active layer detachments (ALDs), redistribute soil across the landscape, potentially releasing previously unavailable carbon (C). In 2007–2008, widespread ALD activity was reported at the Cape Bounty Arctic Watershed Observatory in Nunavut, Canada. Our study investigated organic matter (OM) composition in soil profiles from ALD-impacted and undisturbed areas. Solid-state 13C nuclear magnetic resonance (NMR) and solvent-extractable biomarkers were used to characterize soil OM. Throughout the disturbed upslope profile, where surface soils and vegetation had been removed, NMR revealed low O-alkyl C content and biomarker analysis revealed low concentrations of solvent-extractable compounds suggesting enhanced erosion of labile-rich OM by the ALD. In the disturbed downslope region, vegetation remained intact but displaced material from upslope produced lateral compression ridges at the surface. High O-alkyl content in the surface horizon was consistent with enrichment of carbohydrates and peptides, but low concentrations of labile biomarkers (i.e., sugars) suggested the presence of relatively unaltered labile-rich OM. Decreased O-alkyl content and biomarker concentrations below the surface contrasted with the undisturbed profile and may indicate the loss of well-established pre-ALD surface drainage with compression ridge formation. However, pre-ALD profile composition remains unknown and the observed decreases may result from nominal pre-ALD OM inputs. These results are the first to establish OM composition in ALD-impacted soil profiles, suggesting reallocation of permafrost-derived soil C to areas where degradation or erosion may contribute to increased C losses from disturbed Arctic soils.
format	Article in Journal/Newspaper
author	Grewer, David M. Lafrenière, Melissa J. Lamoureux, Scott F. Simpson, Myrna J.
author_facet	Grewer, David M. Lafrenière, Melissa J. Lamoureux, Scott F. Simpson, Myrna J.
author_sort	Grewer, David M.
title	Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
title_short	Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
title_full	Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
title_fullStr	Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
title_full_unstemmed	Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic
title_sort	redistribution of soil organic matter by permafrost disturbance in the canadian high arctic
publishDate	2016
url	http://hdl.handle.net/1974/14590 https://doi.org/10.1007/s10533-016-0215-7
long_lat	ENVELOPE(-109.542,-109.542,74.863,74.863)
geographic	Arctic Canada Cape Bounty Nunavut
geographic_facet	Arctic Canada Cape Bounty Nunavut
genre	Arctic Nunavut permafrost
genre_facet	Arctic Nunavut permafrost
op_relation	doi:10.1007/s10533-016-0215-7 http://hdl.handle.net/1974/14590
op_doi	https://doi.org/10.1007/s10533-016-0215-7
container_title	Biogeochemistry
container_volume	128
container_issue	3
container_start_page	397
op_container_end_page	415
_version_	1766323148261687296

Redistribution of Soil Organic Matter by Permafrost Disturbance in the Canadian High Arctic

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