A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils

Permafrost-affected soils store a large quantity of soil organic matter (SOM) – ca. half of worldwide soil carbon – and currently undergo rapid and severe warming due to climate change. Increased SOM decomposition by microorganisms and soil fauna due to climate change, poses the risk of a positi...

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Bibliographic Details
Main Author: Monteux, Sylvain
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Umeå universitet, Institutionen för ekologi, miljö och geovetenskap 2018
Subjects:
microbial communities
permafrost
functional limitations
rhizosphere
SOM decomposition
soil fauna
climate change
carbon dioxide
Ecology
Ekologi
Environmental Sciences
Miljövetenskap
Climate Research
Klimatforskning
Microbiology
Mikrobiologi
Geochemistry
Geokemi
Ice
palsa
Tundra
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:polar:diva-7804
id ftsprs:oai:DiVA.org:polar-7804
record_format openpolar
spelling ftsprs:oai:DiVA.org:polar-7804 2024-09-15T18:11:31+00:00 A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils Sagan om is och gyttja: interaktioner mellan mikrober och rötter, fauna och kol när permafrost-påverkade marker värms upp Monteux, Sylvain 2018 application/pdf http://urn.kb.se/resolve?urn=urn:nbn:se:polar:diva-7804 eng eng Umeå universitet, Institutionen för ekologi, miljö och geovetenskap Umeå : Umeå University orcid:0000-0001-9923-2036 http://urn.kb.se/resolve?urn=urn:nbn:se:polar:diva-7804 urn:isbn:978-91-7601-928-3 info:eu-repo/semantics/openAccess microbial communities permafrost functional limitations rhizosphere SOM decomposition soil fauna climate change carbon dioxide Ecology Ekologi Environmental Sciences Miljövetenskap Climate Research Klimatforskning Microbiology Mikrobiologi Geochemistry Geokemi Doctoral thesis, comprehensive summary info:eu-repo/semantics/doctoralThesis text 2018 ftsprs 2024-08-15T03:00:15Z Permafrost-affected soils store a large quantity of soil organic matter (SOM) – ca. half of worldwide soil carbon – and currently undergo rapid and severe warming due to climate change. Increased SOM decomposition by microorganisms and soil fauna due to climate change, poses the risk of a positive climate feedback through the release of greenhouse gases. Direct effects of climate change on SOM decomposition, through such mechanisms as deepening of the seasonally-thawing active layer and increasing soil temperatures, have gathered considerable scientific attention in the last two decades. Yet, indirect effects mediated by changes in plant, microbial, and fauna communities, remain poorly understood. Microbial communities, which may be affected by climate change-induced changes in vegetation composition or rooting patterns, and may in turn affect SOM decomposition, are the primary focus of the work described in this thesis. We used (I) a field-scale permafrost thaw experiment in a palsa peatland, (II) a laboratory incubation of Yedoma permafrost with inoculation by exotic microorganisms, (III) a microcosm experiment with five plant species grown either in Sphagnum peat or in newly-thawed permafrost peat, and (IV) a field-scale cold season warming experiment in cryoturbated tundra to address the indirect effects of climate change on microbial drivers of SOM decomposition. Community composition data for bacteria and fungi were obtained by amplicon sequencing and phospholipid fatty acid extraction, and for collembola by Tullgren extraction, alongside measurements of soil chemistry, CO2 emissions and root density. We showed that in situ thawing of a palsa peatland caused colonization of permafrost soil by overlying soil microbes. Further, we observed that functional limitations of permafrost microbial communities can hamper microbial metabolism in vitro. Relieving these functional limitations in vitro increased cumulative CO2 emissions by 32% over 161 days and introduced nitrification. In addition, we found that ... Doctoral or Postdoctoral Thesis Ice palsa permafrost Tundra Swedish Polar Research Secretariat: Swedish Polar Bibliography (DiVA)
institution Open Polar
collection Swedish Polar Research Secretariat: Swedish Polar Bibliography (DiVA)
op_collection_id ftsprs
language English
topic microbial communities
permafrost
functional limitations
rhizosphere
SOM decomposition
soil fauna
climate change
carbon dioxide
Ecology
Ekologi
Environmental Sciences
Miljövetenskap
Climate Research
Klimatforskning
Microbiology
Mikrobiologi
Geochemistry
Geokemi
spellingShingle microbial communities
permafrost
functional limitations
rhizosphere
SOM decomposition
soil fauna
climate change
carbon dioxide
Ecology
Ekologi
Environmental Sciences
Miljövetenskap
Climate Research
Klimatforskning
Microbiology
Mikrobiologi
Geochemistry
Geokemi
Monteux, Sylvain
A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
topic_facet microbial communities
permafrost
functional limitations
rhizosphere
SOM decomposition
soil fauna
climate change
carbon dioxide
Ecology
Ekologi
Environmental Sciences
Miljövetenskap
Climate Research
Klimatforskning
Microbiology
Mikrobiologi
Geochemistry
Geokemi
description Permafrost-affected soils store a large quantity of soil organic matter (SOM) – ca. half of worldwide soil carbon – and currently undergo rapid and severe warming due to climate change. Increased SOM decomposition by microorganisms and soil fauna due to climate change, poses the risk of a positive climate feedback through the release of greenhouse gases. Direct effects of climate change on SOM decomposition, through such mechanisms as deepening of the seasonally-thawing active layer and increasing soil temperatures, have gathered considerable scientific attention in the last two decades. Yet, indirect effects mediated by changes in plant, microbial, and fauna communities, remain poorly understood. Microbial communities, which may be affected by climate change-induced changes in vegetation composition or rooting patterns, and may in turn affect SOM decomposition, are the primary focus of the work described in this thesis. We used (I) a field-scale permafrost thaw experiment in a palsa peatland, (II) a laboratory incubation of Yedoma permafrost with inoculation by exotic microorganisms, (III) a microcosm experiment with five plant species grown either in Sphagnum peat or in newly-thawed permafrost peat, and (IV) a field-scale cold season warming experiment in cryoturbated tundra to address the indirect effects of climate change on microbial drivers of SOM decomposition. Community composition data for bacteria and fungi were obtained by amplicon sequencing and phospholipid fatty acid extraction, and for collembola by Tullgren extraction, alongside measurements of soil chemistry, CO2 emissions and root density. We showed that in situ thawing of a palsa peatland caused colonization of permafrost soil by overlying soil microbes. Further, we observed that functional limitations of permafrost microbial communities can hamper microbial metabolism in vitro. Relieving these functional limitations in vitro increased cumulative CO2 emissions by 32% over 161 days and introduced nitrification. In addition, we found that ...
format Doctoral or Postdoctoral Thesis
author Monteux, Sylvain
author_facet Monteux, Sylvain
author_sort Monteux, Sylvain
title A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
title_short A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
title_full A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
title_fullStr A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
title_full_unstemmed A song of ice and mud : Interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
title_sort song of ice and mud : interactions of microbes with roots, fauna and carbon in warming permafrost-affected soils
publisher Umeå universitet, Institutionen för ekologi, miljö och geovetenskap
publishDate 2018
url http://urn.kb.se/resolve?urn=urn:nbn:se:polar:diva-7804
genre Ice
palsa
permafrost
Tundra
genre_facet Ice
palsa
permafrost
Tundra
op_relation orcid:0000-0001-9923-2036
http://urn.kb.se/resolve?urn=urn:nbn:se:polar:diva-7804
urn:isbn:978-91-7601-928-3
op_rights info:eu-repo/semantics/openAccess
_version_ 1810449115620835328

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