Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments

The Watson River drains a portion of the SW Greenland ice sheet, transporting microbial communities from subglacial environments to a delta at the head of Sondre Stromfjord. This study investigates the potential activity and community shifts of glacial microbiota deposited and buried under layers of...

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Published in:	Microbial Ecology
Main Authors:	Cameron, Karen A., Stibal, Marek, Olsen, Nikoline S., Mikkelsen, Andreas B, Elberling, Bo, Jacobsen, Carsten S.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2017
Subjects:	Subglacial environment River delta Sulphate reduction Methanogenesis Meltwater export Methane oxidation HIGH ARCTIC GLACIER SULFATE REDUCTION METHANE BENEATH OXIDATION ICE Arctic Greenland glacier Ice Sheet Sondre Stromfjord
Online Access:	https://pure.au.dk/portal/en/publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3 https://doi.org/10.1007/s00248-016-0926-2

id	ftuniaarhuspubl:oai:pure.atira.dk:publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3
record_format	openpolar
spelling	ftuniaarhuspubl:oai:pure.atira.dk:publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3 2024-01-14T10:04:49+01:00 Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments Cameron, Karen A. Stibal, Marek Olsen, Nikoline S. Mikkelsen, Andreas B Elberling, Bo Jacobsen, Carsten S. 2017-07 https://pure.au.dk/portal/en/publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3 https://doi.org/10.1007/s00248-016-0926-2 eng eng https://pure.au.dk/portal/en/publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3 info:eu-repo/semantics/restrictedAccess Cameron , K A , Stibal , M , Olsen , N S , Mikkelsen , A B , Elberling , B & Jacobsen , C S 2017 , ' Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments ' , Microbial Ecology , vol. 74 , no. 1 , pp. 6-9 . https://doi.org/10.1007/s00248-016-0926-2 Subglacial environment River delta Sulphate reduction Methanogenesis Meltwater export Methane oxidation HIGH ARCTIC GLACIER SULFATE REDUCTION METHANE BENEATH OXIDATION ICE article 2017 ftuniaarhuspubl https://doi.org/10.1007/s00248-016-0926-2 2023-12-20T23:59:29Z The Watson River drains a portion of the SW Greenland ice sheet, transporting microbial communities from subglacial environments to a delta at the head of Sondre Stromfjord. This study investigates the potential activity and community shifts of glacial microbiota deposited and buried under layers of sediments within the river delta. A long-term (12-month) incubation experiment was established using Watson River delta sediment under anaerobic conditions, with and without CO2/H-2 enrichment. Within CO2/H-2-amended incubations, sulphate depletion and a shift in the microbial community to a 52% predominance of Desulfosporosinus meridiei by day 371 provides evidence for sulphate reduction. We found evidence of methanogenesis in CO2/H-2-amended incubations within the first 5 months, with production rates of similar to 4 pmol g(-1) d(-1), which was likely performed by methanogenic Methanomicrobiales-and Methanosarcinales-related organisms. Later, a reduction in methane was observed to be paired with the depletion of sulphate, and we hypothesise that sulphate reduction out competed hydrogenotrophic methanogenesis. The structure and diversity of the original CO2/H-2-amended incubation communities changed dramatically with a major shift in predominant community members and a decline in diversity and cell abundance. These results highlight the need for further investigations into the fate of subglacial microbiota within downstream environments. Article in Journal/Newspaper Arctic glacier Greenland Ice Sheet Sondre Stromfjord Aarhus University: Research Arctic Greenland Microbial Ecology 74 1 6 9
institution	Open Polar
collection	Aarhus University: Research
op_collection_id	ftuniaarhuspubl
language	English
topic	Subglacial environment River delta Sulphate reduction Methanogenesis Meltwater export Methane oxidation HIGH ARCTIC GLACIER SULFATE REDUCTION METHANE BENEATH OXIDATION ICE
spellingShingle	Subglacial environment River delta Sulphate reduction Methanogenesis Meltwater export Methane oxidation HIGH ARCTIC GLACIER SULFATE REDUCTION METHANE BENEATH OXIDATION ICE Cameron, Karen A. Stibal, Marek Olsen, Nikoline S. Mikkelsen, Andreas B Elberling, Bo Jacobsen, Carsten S. Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
topic_facet	Subglacial environment River delta Sulphate reduction Methanogenesis Meltwater export Methane oxidation HIGH ARCTIC GLACIER SULFATE REDUCTION METHANE BENEATH OXIDATION ICE
description	The Watson River drains a portion of the SW Greenland ice sheet, transporting microbial communities from subglacial environments to a delta at the head of Sondre Stromfjord. This study investigates the potential activity and community shifts of glacial microbiota deposited and buried under layers of sediments within the river delta. A long-term (12-month) incubation experiment was established using Watson River delta sediment under anaerobic conditions, with and without CO2/H-2 enrichment. Within CO2/H-2-amended incubations, sulphate depletion and a shift in the microbial community to a 52% predominance of Desulfosporosinus meridiei by day 371 provides evidence for sulphate reduction. We found evidence of methanogenesis in CO2/H-2-amended incubations within the first 5 months, with production rates of similar to 4 pmol g(-1) d(-1), which was likely performed by methanogenic Methanomicrobiales-and Methanosarcinales-related organisms. Later, a reduction in methane was observed to be paired with the depletion of sulphate, and we hypothesise that sulphate reduction out competed hydrogenotrophic methanogenesis. The structure and diversity of the original CO2/H-2-amended incubation communities changed dramatically with a major shift in predominant community members and a decline in diversity and cell abundance. These results highlight the need for further investigations into the fate of subglacial microbiota within downstream environments.
format	Article in Journal/Newspaper
author	Cameron, Karen A. Stibal, Marek Olsen, Nikoline S. Mikkelsen, Andreas B Elberling, Bo Jacobsen, Carsten S.
author_facet	Cameron, Karen A. Stibal, Marek Olsen, Nikoline S. Mikkelsen, Andreas B Elberling, Bo Jacobsen, Carsten S.
author_sort	Cameron, Karen A.
title	Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
title_short	Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
title_full	Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
title_fullStr	Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
title_full_unstemmed	Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments
title_sort	potential activity of subglacial microbiota transported to anoxic river delta sediments
publishDate	2017
url	https://pure.au.dk/portal/en/publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3 https://doi.org/10.1007/s00248-016-0926-2
geographic	Arctic Greenland
geographic_facet	Arctic Greenland
genre	Arctic glacier Greenland Ice Sheet Sondre Stromfjord
genre_facet	Arctic glacier Greenland Ice Sheet Sondre Stromfjord
op_source	Cameron , K A , Stibal , M , Olsen , N S , Mikkelsen , A B , Elberling , B & Jacobsen , C S 2017 , ' Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments ' , Microbial Ecology , vol. 74 , no. 1 , pp. 6-9 . https://doi.org/10.1007/s00248-016-0926-2
op_relation	https://pure.au.dk/portal/en/publications/a4f67a34-4aa1-423f-a2da-5e91672dc0a3
op_rights	info:eu-repo/semantics/restrictedAccess
op_doi	https://doi.org/10.1007/s00248-016-0926-2
container_title	Microbial Ecology
container_volume	74
container_issue	1
container_start_page	6
op_container_end_page	9
_version_	1788059267808362496

Potential Activity of Subglacial Microbiota Transported to Anoxic River Delta Sediments

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