Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard

In connection with a planned CO2 storage pilot project in the Arctic, a 60 m long permafrost core was drilled in Adventdalen, Svalbard, representing the poorly studied deep permafrost ecosystems. The on-shore drilling was performed through deltaic, marine and glacial sediments, ending at the bedrock...

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Bibliographic Details
Main Author: Fromreide, Siren
Format: Master Thesis
Language:English
Published: The University of Bergen 2014
Subjects:
Permafrost
Svalbard
geokjemi
Co2-lagring
751999
Adventdalen
Arctic
permafrost
Online Access:http://hdl.handle.net/1956/9353
id ftunivbergen:oai:bora.uib.no:1956/9353
record_format openpolar
spelling ftunivbergen:oai:bora.uib.no:1956/9353 2023-05-15T13:05:47+02:00 Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard Fromreide, Siren 2014-09-11 3208327 bytes application/pdf http://hdl.handle.net/1956/9353 eng eng The University of Bergen http://hdl.handle.net/1956/9353 Copyright the author. All rights reserved Permafrost Svalbard geokjemi Co2-lagring 751999 Master thesis 2014 ftunivbergen 2023-03-14T17:38:59Z In connection with a planned CO2 storage pilot project in the Arctic, a 60 m long permafrost core was drilled in Adventdalen, Svalbard, representing the poorly studied deep permafrost ecosystems. The on-shore drilling was performed through deltaic, marine and glacial sediments, ending at the bedrock at 60 m. Here, seven different depths in the 3-60 m interval of the permafrost core were subjected to culture-independent methods such as 16S rRNA amplicon 454 pyrosequencing and functional and ribosomal gene quantifications to characterise the microbial community composition and abundance. Additionally, geochemical analyses of extracted pore water have been performed, as well as measurements of carbon content, major elements and grain size distributions. The enumeration of bacterial and archaeal 16S rRNA genes showed high copy numbers in top sample at 3 m, a decrease at 4.5 m, and a further decrease from 54 to 60 m. Estimated prokaryotic cell numbers ranged between 3 x 10^5 and 1 x 10^8 cells g^-1 sediment. Detection and quantification of selected functional marker genes indicated that microbial sulphate reduction is more pronounced than methanogenic and methanotrophic processes. A 16S rRNA amplicon pyrosequencing library made with universal prokaryotic primers, revealed a dominance of poorly characterised microbial groups, such as Candidate division TM7, OP9, Chloroflexi Subdivision 11, Deep Sea Archaeal Group (DSAG), Miscellaneous Crenarchaeotic Group and Thermoplasmata. The bacterial and archaeal communities at 3 m were different from the other depths, dominated by Candidate division TM7 and Halobacteria, respectively. Low salt concentrations, high organic carbon content, high cell numbers and different community structure at 3 m suggested influence of surface-related processes such as migration of carbon and meteoric water at this depth. Microbial community composition and geochemistry suggested an anaerobic habitat throughout the core. From 16.5 m to 57 m, the uncharacterised DSAG made up 40-99 % of the ... Master Thesis Adventdalen Arctic permafrost Svalbard University of Bergen: Bergen Open Research Archive (BORA-UiB) Adventdalen ENVELOPE(16.264,16.264,78.181,78.181) Arctic Svalbard
institution Open Polar
collection University of Bergen: Bergen Open Research Archive (BORA-UiB)
op_collection_id ftunivbergen
language English
topic Permafrost
Svalbard
geokjemi
Co2-lagring
751999
spellingShingle Permafrost
Svalbard
geokjemi
Co2-lagring
751999
Fromreide, Siren
Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
topic_facet Permafrost
Svalbard
geokjemi
Co2-lagring
751999
description In connection with a planned CO2 storage pilot project in the Arctic, a 60 m long permafrost core was drilled in Adventdalen, Svalbard, representing the poorly studied deep permafrost ecosystems. The on-shore drilling was performed through deltaic, marine and glacial sediments, ending at the bedrock at 60 m. Here, seven different depths in the 3-60 m interval of the permafrost core were subjected to culture-independent methods such as 16S rRNA amplicon 454 pyrosequencing and functional and ribosomal gene quantifications to characterise the microbial community composition and abundance. Additionally, geochemical analyses of extracted pore water have been performed, as well as measurements of carbon content, major elements and grain size distributions. The enumeration of bacterial and archaeal 16S rRNA genes showed high copy numbers in top sample at 3 m, a decrease at 4.5 m, and a further decrease from 54 to 60 m. Estimated prokaryotic cell numbers ranged between 3 x 10^5 and 1 x 10^8 cells g^-1 sediment. Detection and quantification of selected functional marker genes indicated that microbial sulphate reduction is more pronounced than methanogenic and methanotrophic processes. A 16S rRNA amplicon pyrosequencing library made with universal prokaryotic primers, revealed a dominance of poorly characterised microbial groups, such as Candidate division TM7, OP9, Chloroflexi Subdivision 11, Deep Sea Archaeal Group (DSAG), Miscellaneous Crenarchaeotic Group and Thermoplasmata. The bacterial and archaeal communities at 3 m were different from the other depths, dominated by Candidate division TM7 and Halobacteria, respectively. Low salt concentrations, high organic carbon content, high cell numbers and different community structure at 3 m suggested influence of surface-related processes such as migration of carbon and meteoric water at this depth. Microbial community composition and geochemistry suggested an anaerobic habitat throughout the core. From 16.5 m to 57 m, the uncharacterised DSAG made up 40-99 % of the ...
format Master Thesis
author Fromreide, Siren
author_facet Fromreide, Siren
author_sort Fromreide, Siren
title Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
title_short Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
title_full Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
title_fullStr Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
title_full_unstemmed Geomicrobial characterisation of a 60 m long permafrost core, taken over a future CO2 storage site at Svalbard
title_sort geomicrobial characterisation of a 60 m long permafrost core, taken over a future co2 storage site at svalbard
publisher The University of Bergen
publishDate 2014
url http://hdl.handle.net/1956/9353
long_lat ENVELOPE(16.264,16.264,78.181,78.181)
geographic Adventdalen
Arctic
Svalbard
geographic_facet Adventdalen
Arctic
Svalbard
genre Adventdalen
Arctic
permafrost
Svalbard
genre_facet Adventdalen
Arctic
permafrost
Svalbard
op_relation http://hdl.handle.net/1956/9353
op_rights Copyright the author. All rights reserved
_version_ 1766393913583599616

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