Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden

Abstract Efficient use of any breeding resources requires a good understanding of the genetic value of the founder breeding materials for predicting the gain and diversity in future generations. This study evaluates the distribution of genetic variation and level of relatedness among and within nine...

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Published in:Silvae Genetica
Main Authors: Androsiuk, P., Shimono, A., Westin, J., Lindgren, D., Fries, A., Wang, X.-R.
Format: Article in Journal/Newspaper
Language:English
Published: Walter de Gruyter GmbH 2013
Subjects:
Northern Sweden
Online Access:http://dx.doi.org/10.1515/sg-2013-0017
http://content.sciendo.com/view/journals/sg/62/1-6/article-p127.xml
https://www.sciendo.com/article/10.1515/sg-2013-0017
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spelling crdegruyter:10.1515/sg-2013-0017 2024-09-15T18:26:02+00:00 Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden Androsiuk, P. Shimono, A. Westin, J. Lindgren, D. Fries, A. Wang, X.-R. 2013 http://dx.doi.org/10.1515/sg-2013-0017 http://content.sciendo.com/view/journals/sg/62/1-6/article-p127.xml https://www.sciendo.com/article/10.1515/sg-2013-0017 en eng Walter de Gruyter GmbH http://creativecommons.org/licenses/by-nc-nd/4.0 Silvae Genetica volume 62, issue 1-6, page 127-136 ISSN 2509-8934 journal-article 2013 crdegruyter https://doi.org/10.1515/sg-2013-0017 2024-08-05T04:13:05Z Abstract Efficient use of any breeding resources requires a good understanding of the genetic value of the founder breeding materials for predicting the gain and diversity in future generations. This study evaluates the distribution of genetic variation and level of relatedness among and within nine breeding populations of Norway spruce for Northern Sweden using nuclear microsatellite markers. A sample set of 456 individuals selected from 140 stands were genotyped with 15 SSR loci. Over all loci each individual was identified with unique multilocus genotype. High genetic diversity (average H e =0.820) and low population differentiation (F ST =0.0087) characterized this material. Although low in F ST , the two northernmost populations were clustered as a distinct group diverged from the central populations. The population differentiation pattern corresponds well with the post glacial migration history of Norway spruce and the current gene flow and human activity in the region. The average inbreeding coefficient was 0.084 after removal loci with high frequency of null alleles. The estimated relatedness of the trees gathered in the breeding populations was very low (average kinship coefficient 0.0077) and not structured. The high genetic variation and low and not structured relatedness between individuals found in the breeding populations confirm that the Norway spruce breeding stock for northern Sweden represent valuable genetic resources for both long-term breeding and conservation programs. Article in Journal/Newspaper Northern Sweden De Gruyter Silvae Genetica 62 1-6 127 136
institution Open Polar
collection De Gruyter
op_collection_id crdegruyter
language English
description Abstract Efficient use of any breeding resources requires a good understanding of the genetic value of the founder breeding materials for predicting the gain and diversity in future generations. This study evaluates the distribution of genetic variation and level of relatedness among and within nine breeding populations of Norway spruce for Northern Sweden using nuclear microsatellite markers. A sample set of 456 individuals selected from 140 stands were genotyped with 15 SSR loci. Over all loci each individual was identified with unique multilocus genotype. High genetic diversity (average H e =0.820) and low population differentiation (F ST =0.0087) characterized this material. Although low in F ST , the two northernmost populations were clustered as a distinct group diverged from the central populations. The population differentiation pattern corresponds well with the post glacial migration history of Norway spruce and the current gene flow and human activity in the region. The average inbreeding coefficient was 0.084 after removal loci with high frequency of null alleles. The estimated relatedness of the trees gathered in the breeding populations was very low (average kinship coefficient 0.0077) and not structured. The high genetic variation and low and not structured relatedness between individuals found in the breeding populations confirm that the Norway spruce breeding stock for northern Sweden represent valuable genetic resources for both long-term breeding and conservation programs.
format Article in Journal/Newspaper
author Androsiuk, P.
Shimono, A.
Westin, J.
Lindgren, D.
Fries, A.
Wang, X.-R.
spellingShingle Androsiuk, P.
Shimono, A.
Westin, J.
Lindgren, D.
Fries, A.
Wang, X.-R.
Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
author_facet Androsiuk, P.
Shimono, A.
Westin, J.
Lindgren, D.
Fries, A.
Wang, X.-R.
author_sort Androsiuk, P.
title Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
title_short Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
title_full Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
title_fullStr Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
title_full_unstemmed Genetic status of Norway spruce (Picea abies) breeding populations for northern Sweden
title_sort genetic status of norway spruce (picea abies) breeding populations for northern sweden
publisher Walter de Gruyter GmbH
publishDate 2013
url http://dx.doi.org/10.1515/sg-2013-0017
http://content.sciendo.com/view/journals/sg/62/1-6/article-p127.xml
https://www.sciendo.com/article/10.1515/sg-2013-0017
genre Northern Sweden
genre_facet Northern Sweden
op_source Silvae Genetica
volume 62, issue 1-6, page 127-136
ISSN 2509-8934
op_rights http://creativecommons.org/licenses/by-nc-nd/4.0
op_doi https://doi.org/10.1515/sg-2013-0017
container_title Silvae Genetica
container_volume 62
container_issue 1-6
container_start_page 127
op_container_end_page 136
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