Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol.
Landscape genetics is an emerging scientific field that combines population genetics, landscape ecology, and spatial statistics. The goal of landscape genetics is to detect and explain landscape and environmental impacts on genetic diversity and structure in plant and animal populations. In the fast...
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ftunividahodc:oai:digital.lib.uidaho.edu:etd/390 2023-11-12T04:18:08+01:00 Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. Balkenhol, Niko. Lisette P. Waits. 2009 xii, 199 leaves :ill. ;29 cm. http://proquest.umi.com/pqdweb?did=1830973381&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/390 unknown http://proquest.umi.com/pqdweb?did=1830973381&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/390 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. Biodiversity--Computer simulation. Wolverine--Idaho--Genetics. Wolverine--Montana--Genetics. Wolverine--Wyoming--Genetics. Nature--Effect of roads on link 2009 ftunividahodc 2023-10-27T10:30:38Z Landscape genetics is an emerging scientific field that combines population genetics, landscape ecology, and spatial statistics. The goal of landscape genetics is to detect and explain landscape and environmental impacts on genetic diversity and structure in plant and animal populations. In the fast few years, a plethora of statistical methods for analyzing landscape genetic data has been proposed. However, the reliability and comparability of these methods remains largely untested. In this dissertation, simulated and empirical data are used to investigate the advantages and limitations of different analytical approaches, and to improve current approaches for landscape genetic data analysis.;In chapter 1, simulated data were used to assess the impacts of spatial sampling design and sampling intensity on Bayesian clustering methods. Results suggested that sampling intensity has a much stronger impact on all clustering methods than spatial sampling design. Furthermore, the study demonstrated that drawing inferences from genetic clustering methods can be challenging, and suggestions for improved interpretation and reporting of results are given.;Chapter 2 evaluated statistical methods for linking landscape and genetic data. Results showed that error rates for certain methods are high, and that analyzing a data set with only one method can lead to method-dependent and potentially erroneous conclusions. Based on these findings, guidelines for choosing an optimal combination of statistical methods were developed.;In chapter 3, a landscape genetic approach was used to assess environmental influences on genetic connectivity of wolverines (Gulo gulo) in Idaho, Montana, and Wyoming. The analyses suggest that wolverine gene flow in the study area was influenced by a combination of snow depth, terrain ruggedness, and housing density, and that the relative importance of these different variables was scale-dependent.;Finally, in chapter 4, a new field, molecular road ecology, is defined. Molecular road ecology uses genetic ... Other/Unknown Material Gulo gulo wolverine University of Idaho Library: Digital Initiatives |
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University of Idaho Library: Digital Initiatives |
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Biodiversity--Computer simulation. Wolverine--Idaho--Genetics. Wolverine--Montana--Genetics. Wolverine--Wyoming--Genetics. Nature--Effect of roads on |
| spellingShingle |
Biodiversity--Computer simulation. Wolverine--Idaho--Genetics. Wolverine--Montana--Genetics. Wolverine--Wyoming--Genetics. Nature--Effect of roads on Balkenhol, Niko. Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| topic_facet |
Biodiversity--Computer simulation. Wolverine--Idaho--Genetics. Wolverine--Montana--Genetics. Wolverine--Wyoming--Genetics. Nature--Effect of roads on |
| description |
Landscape genetics is an emerging scientific field that combines population genetics, landscape ecology, and spatial statistics. The goal of landscape genetics is to detect and explain landscape and environmental impacts on genetic diversity and structure in plant and animal populations. In the fast few years, a plethora of statistical methods for analyzing landscape genetic data has been proposed. However, the reliability and comparability of these methods remains largely untested. In this dissertation, simulated and empirical data are used to investigate the advantages and limitations of different analytical approaches, and to improve current approaches for landscape genetic data analysis.;In chapter 1, simulated data were used to assess the impacts of spatial sampling design and sampling intensity on Bayesian clustering methods. Results suggested that sampling intensity has a much stronger impact on all clustering methods than spatial sampling design. Furthermore, the study demonstrated that drawing inferences from genetic clustering methods can be challenging, and suggestions for improved interpretation and reporting of results are given.;Chapter 2 evaluated statistical methods for linking landscape and genetic data. Results showed that error rates for certain methods are high, and that analyzing a data set with only one method can lead to method-dependent and potentially erroneous conclusions. Based on these findings, guidelines for choosing an optimal combination of statistical methods were developed.;In chapter 3, a landscape genetic approach was used to assess environmental influences on genetic connectivity of wolverines (Gulo gulo) in Idaho, Montana, and Wyoming. The analyses suggest that wolverine gene flow in the study area was influenced by a combination of snow depth, terrain ruggedness, and housing density, and that the relative importance of these different variables was scale-dependent.;Finally, in chapter 4, a new field, molecular road ecology, is defined. Molecular road ecology uses genetic ... |
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Lisette P. Waits. |
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Other/Unknown Material |
| author |
Balkenhol, Niko. |
| author_facet |
Balkenhol, Niko. |
| author_sort |
Balkenhol, Niko. |
| title |
Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| title_short |
Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| title_full |
Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| title_fullStr |
Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| title_full_unstemmed |
Evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by Niko Balkenhol. |
| title_sort |
evaluating and improving analytical approaches in landscape genetics through simulations and wildlife case studies /by niko balkenhol. |
| publishDate |
2009 |
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http://proquest.umi.com/pqdweb?did=1830973381&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/390 |
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Gulo gulo wolverine |
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Gulo gulo wolverine |
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http://proquest.umi.com/pqdweb?did=1830973381&Fmt=7&clientId=58634&RQT=309&VName=PQD http://digital.lib.uidaho.edu/cdm/ref/collection/etd/id/390 |
| 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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1782334848154730496 |