Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.

Climate change disproportionally affects the Arctic, and an important consequence is the accelerated loss of Arctic glaciers. On these newly exposed glacier moraines microorganisms have key roles in soil development, nutrient cycling, and plant growth. However, while the ecology of plant communities...

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Main Author: Sch{uml}utte, Ursel ME.
Other Authors: Larry J. Forney.
Format: Other/Unknown Material
Language:unknown
Published: 2009
Subjects:
Bacterial diversity > Arctic regions.
Bacterial diversity > Norway > Svalbard.
Glaciers > Norway > Svalbard
Arctic
Climate change
glacier
Svalbard
Online Access:http://proquest.umi.com/pqdweb?did=1874803711&Fmt=7&clientId=58634&RQT=309&VName=PQD
http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/11
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spelling ftunividahodc:oai:digital.lib.uidaho.edu:etd/11 2023-11-12T04:11:00+01:00 Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte. Sch{uml}utte, Ursel ME. Larry J. Forney. 2009 viii, 217 leaves :ill., map ;29 cm. http://proquest.umi.com/pqdweb?did=1874803711&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/11 unknown http://proquest.umi.com/pqdweb?did=1874803711&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/11 This document link is provided by the University of Idaho Library and is meant to be used by University of Idaho students, staff, and faculty. All rights to the document linked from this metadata belong to the author, rights holder, and/or provider. Bacterial diversity--Arctic regions. Bacterial diversity--Norway--Svalbard. Glaciers--Norway--Svalbard link 2009 ftunividahodc 2023-10-27T10:30:26Z Climate change disproportionally affects the Arctic, and an important consequence is the accelerated loss of Arctic glaciers. On these newly exposed glacier moraines microorganisms have key roles in soil development, nutrient cycling, and plant growth. However, while the ecology of plant communities in terms of species succession and diversity has been extensively studied, little is known about bacterial communities in glacier forelands. This thesis contains three chapters in which the findings and ideas presented advance understanding of bacterial succession and bacterial diversity in High Arctic terrestrial habitats. Chapter 2 presents the results of a study done to rigorously test whether bacterial succession occurred in the glacier foreland of Midre Lov{acute}en glacier, Svalbard, Norway. Despite the high spatial heterogeneity that exists in soils we were able to show that bacterial succession occurred and significantly differed as a function of soil depth. In chapter 3, we reviewed recent advances in terminal restriction fragment length polymorphism (T-RFLP) analysis of 16S rRNA genes; a method commonly used to fingerprint microbial communities that was employed in the studies described in Chapter 2. This review focused on the statistical methods used for the analysis of T-RFLP data. Presented in chapter 4 are the results of an intensive and extensive assessment of bacterial diversity, which includes estimates of phylotype richness, evenness, turnover rate, and the taxa present at the different times since glacier retreat. We found that bacterial diversity at all locations sampled was remarkably high, and that the rates of species turnover were particularly high in younger sites of the glacier foreland. Overall this thesis is a detailed assessment of spatial and temporal patterns of bacterial communities in a High Arctic glacier foreland. Systematic studies such as these can serve as the basis for understanding the role of bacterial communities in High Arctic terrestrial ecosystems. Thesis (Ph. D., ... Other/Unknown Material Arctic Climate change glacier glacier Svalbard University of Idaho Library: Digital Initiatives
institution Open Polar
collection University of Idaho Library: Digital Initiatives
op_collection_id ftunividahodc
language unknown
topic Bacterial diversity--Arctic regions.
Bacterial diversity--Norway--Svalbard.
Glaciers--Norway--Svalbard
spellingShingle Bacterial diversity--Arctic regions.
Bacterial diversity--Norway--Svalbard.
Glaciers--Norway--Svalbard
Sch{uml}utte, Ursel ME.
Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
topic_facet Bacterial diversity--Arctic regions.
Bacterial diversity--Norway--Svalbard.
Glaciers--Norway--Svalbard
description Climate change disproportionally affects the Arctic, and an important consequence is the accelerated loss of Arctic glaciers. On these newly exposed glacier moraines microorganisms have key roles in soil development, nutrient cycling, and plant growth. However, while the ecology of plant communities in terms of species succession and diversity has been extensively studied, little is known about bacterial communities in glacier forelands. This thesis contains three chapters in which the findings and ideas presented advance understanding of bacterial succession and bacterial diversity in High Arctic terrestrial habitats. Chapter 2 presents the results of a study done to rigorously test whether bacterial succession occurred in the glacier foreland of Midre Lov{acute}en glacier, Svalbard, Norway. Despite the high spatial heterogeneity that exists in soils we were able to show that bacterial succession occurred and significantly differed as a function of soil depth. In chapter 3, we reviewed recent advances in terminal restriction fragment length polymorphism (T-RFLP) analysis of 16S rRNA genes; a method commonly used to fingerprint microbial communities that was employed in the studies described in Chapter 2. This review focused on the statistical methods used for the analysis of T-RFLP data. Presented in chapter 4 are the results of an intensive and extensive assessment of bacterial diversity, which includes estimates of phylotype richness, evenness, turnover rate, and the taxa present at the different times since glacier retreat. We found that bacterial diversity at all locations sampled was remarkably high, and that the rates of species turnover were particularly high in younger sites of the glacier foreland. Overall this thesis is a detailed assessment of spatial and temporal patterns of bacterial communities in a High Arctic glacier foreland. Systematic studies such as these can serve as the basis for understanding the role of bacterial communities in High Arctic terrestrial ecosystems. Thesis (Ph. D., ...
author2 Larry J. Forney.
format Other/Unknown Material
author Sch{uml}utte, Ursel ME.
author_facet Sch{uml}utte, Ursel ME.
author_sort Sch{uml}utte, Ursel ME.
title Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
title_short Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
title_full Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
title_fullStr Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
title_full_unstemmed Spatial and temporal patterns of bacterial communities in a high Arctic glacier foreland /by Ursel ME Sch{uml}utte.
title_sort spatial and temporal patterns of bacterial communities in a high arctic glacier foreland /by ursel me sch{uml}utte.
publishDate 2009
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http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/11
genre Arctic
Climate change
glacier
glacier
Svalbard
genre_facet Arctic
Climate change
glacier
glacier
Svalbard
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op_rights This document link is provided by the University of Idaho Library and is meant to be used by University of Idaho students, staff, and faculty. All rights to the document linked from this metadata belong to the author, rights holder, and/or provider.
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