Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic

Glaciers in the Northern Hemisphere are retreating and their forefields present a unique opportunity to investigate the initial phases of soil weathering/formation and microbial succession in terrestrial cold habitats. The importance of primary autotrophic microbial colonisers (e.g., cyanobacteria)...

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Main Authors: Anesio, Alexandre M, Wright, Katherine, Blacker, J, Bradley, James, Barker, Gary L A, Yallop, Marian L, Tranter, Martyn, Benning, LG
Format: Conference Object
Language:English
Published: 2014
Subjects:
Arctic
Norway
Svalbard
glacier
Online Access:http://hdl.handle.net/1983/78a45753-186f-4bd9-959c-78c8cfee1632
https://research-information.bris.ac.uk/en/publications/78a45753-186f-4bd9-959c-78c8cfee1632
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record_format openpolar
spelling ftubristolcris:oai:research-information.bris.ac.uk:publications/78a45753-186f-4bd9-959c-78c8cfee1632 2023-05-15T14:25:45+02:00 Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic Anesio, Alexandre M Wright, Katherine Blacker, J Bradley, James Barker, Gary L A Yallop, Marian L Tranter, Martyn Benning, LG 2014 http://hdl.handle.net/1983/78a45753-186f-4bd9-959c-78c8cfee1632 https://research-information.bris.ac.uk/en/publications/78a45753-186f-4bd9-959c-78c8cfee1632 eng eng info:eu-repo/semantics/restrictedAccess Anesio , A M , Wright , K , Blacker , J , Bradley , J , Barker , G L A , Yallop , M L , Tranter , M & Benning , LG 2014 , ' Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic ' , Paper presented at Goldschmidt 2014 , Sacramento , United Kingdom , 8/06/14 - 13/06/14 . conferenceObject 2014 ftubristolcris 2021-08-02T10:18:18Z Glaciers in the Northern Hemisphere are retreating and their forefields present a unique opportunity to investigate the initial phases of soil weathering/formation and microbial succession in terrestrial cold habitats. The importance of primary autotrophic microbial colonisers (e.g., cyanobacteria) relative to allochthonous sources and compared to recycling of ancient organic carbon during the initial phase of soil establishment in Arctic environments is still debated. In glacial forefields, microbes that have colonised both glacial surfaces and subglacial debris may provide an important inoculum for the development of microbial communities. In this study, during the summer in 2013, we collected soil samples along replicated transects from the margin of the Mitdre Lovénbreen glacier (Svalbard, Norway), representing a chronosequence between 0 and ~ 2000 years. Furthermore, we collected samples from the glacial surface and basal sediments for comparison. Analyses of microbial community composition (ssu rRNA gene and metagenomes), activity (C fluxes, N-fixation, bacterial secondary production and C utilisation) and geochemistry/mineralogy (e.g., elemental and mineralogical composition) show some similarities with previous studies conducted in the Alps where there is an increase in a variety of microbial proxies, such as microbial enzymatic activity, respiration and diversity, in relation to years of exposure after glacial retreat. Our study shows a succession of microbial communities with age where communities in soils previously overridden by the ice (strongly represented by Betaproteobacteria) are important colonizers of new exposed soils up to 5 years after glacier retreat. Thereafter, presence of typical soil communities such as Acidobacteria and Actinobacteria become more prevalent. Despite the fact that the speed of glacial retreat and thus succession between Alpine and Arctic glaciers may be substantially different, this study demonstrates that there are clear feedback mechanisms between geochemistry and microbial colonisation during soil development after glacial retreat. Conference Object Arctic Arctic glacier glacier Svalbard University of Bristol: Bristol Research Arctic Norway Svalbard
institution Open Polar
collection University of Bristol: Bristol Research
op_collection_id ftubristolcris
language English
description Glaciers in the Northern Hemisphere are retreating and their forefields present a unique opportunity to investigate the initial phases of soil weathering/formation and microbial succession in terrestrial cold habitats. The importance of primary autotrophic microbial colonisers (e.g., cyanobacteria) relative to allochthonous sources and compared to recycling of ancient organic carbon during the initial phase of soil establishment in Arctic environments is still debated. In glacial forefields, microbes that have colonised both glacial surfaces and subglacial debris may provide an important inoculum for the development of microbial communities. In this study, during the summer in 2013, we collected soil samples along replicated transects from the margin of the Mitdre Lovénbreen glacier (Svalbard, Norway), representing a chronosequence between 0 and ~ 2000 years. Furthermore, we collected samples from the glacial surface and basal sediments for comparison. Analyses of microbial community composition (ssu rRNA gene and metagenomes), activity (C fluxes, N-fixation, bacterial secondary production and C utilisation) and geochemistry/mineralogy (e.g., elemental and mineralogical composition) show some similarities with previous studies conducted in the Alps where there is an increase in a variety of microbial proxies, such as microbial enzymatic activity, respiration and diversity, in relation to years of exposure after glacial retreat. Our study shows a succession of microbial communities with age where communities in soils previously overridden by the ice (strongly represented by Betaproteobacteria) are important colonizers of new exposed soils up to 5 years after glacier retreat. Thereafter, presence of typical soil communities such as Acidobacteria and Actinobacteria become more prevalent. Despite the fact that the speed of glacial retreat and thus succession between Alpine and Arctic glaciers may be substantially different, this study demonstrates that there are clear feedback mechanisms between geochemistry and microbial colonisation during soil development after glacial retreat.
format Conference Object
author Anesio, Alexandre M
Wright, Katherine
Blacker, J
Bradley, James
Barker, Gary L A
Yallop, Marian L
Tranter, Martyn
Benning, LG
spellingShingle Anesio, Alexandre M
Wright, Katherine
Blacker, J
Bradley, James
Barker, Gary L A
Yallop, Marian L
Tranter, Martyn
Benning, LG
Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
author_facet Anesio, Alexandre M
Wright, Katherine
Blacker, J
Bradley, James
Barker, Gary L A
Yallop, Marian L
Tranter, Martyn
Benning, LG
author_sort Anesio, Alexandre M
title Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
title_short Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
title_full Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
title_fullStr Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
title_full_unstemmed Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic
title_sort microbial succession from ice to vegetated soils in response to glacial retreat in the arctic
publishDate 2014
url http://hdl.handle.net/1983/78a45753-186f-4bd9-959c-78c8cfee1632
https://research-information.bris.ac.uk/en/publications/78a45753-186f-4bd9-959c-78c8cfee1632
geographic Arctic
Norway
Svalbard
geographic_facet Arctic
Norway
Svalbard
genre Arctic
Arctic
glacier
glacier
Svalbard
genre_facet Arctic
Arctic
glacier
glacier
Svalbard
op_source Anesio , A M , Wright , K , Blacker , J , Bradley , J , Barker , G L A , Yallop , M L , Tranter , M & Benning , LG 2014 , ' Microbial succession from ice to vegetated soils in response to glacial retreat in the Arctic ' , Paper presented at Goldschmidt 2014 , Sacramento , United Kingdom , 8/06/14 - 13/06/14 .
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1766298213906644992

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