Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce

Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce

Abstract Primeval forests are today exceedingly rare in Europe, and transfer of forest reproductive material for afforestation and improvement has been very common, especially over the last two centuries. This can be a serious impediment when inferring past population movements in response to past c...

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Main Authors: Jun Chen, Lili Li, Pascal Milesi, Gunnar Jansson, Mats Berlin, Bo Karlsson, Jelena Aleksic, Giovanni G. Vendramin, Martin Lascoux
Format: Article
Language:English
Published: Wiley 2019-09-01
Series:Evolutionary Applications
Subjects:
demographic inferences
forest management
Picea abies
population transfer
Online Access:https://doi.org/10.1111/eva.12801
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spelling doaj-2b87ec90c7c841978fd2d2f42f1b08272020-11-25T03:15:26ZengWileyEvolutionary Applications1752-45712019-09-011281539155110.1111/eva.12801Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruceJun Chen0Lili Li1Pascal Milesi2Gunnar Jansson3Mats Berlin4Bo Karlsson5Jelena Aleksic6Giovanni G. Vendramin7Martin Lascoux8Department of Ecology and Genetics, Evolutionary Biology Centre Uppsala University Uppsala SwedenDepartment of Ecology and Genetics, Evolutionary Biology Centre Uppsala University Uppsala SwedenDepartment of Ecology and Genetics, Evolutionary Biology Centre Uppsala University Uppsala SwedenForestry Research Institute of Sweden (Skogforsk) Uppsala SwedenForestry Research Institute of Sweden (Skogforsk) Uppsala SwedenForestry Research Institute of Sweden (Skogforsk) Ekebo SwedenInstitute of Molecular Genetics and Genetic Engineering University of Belgrade Belgrade SerbiaDivision of Florence, Institute of Biosciences and BioResources National Research Council (IBBR‐CNR) Sesto Fiorentino ItalyDepartment of Ecology and Genetics, Evolutionary Biology Centre Uppsala University Uppsala SwedenAbstract Primeval forests are today exceedingly rare in Europe, and transfer of forest reproductive material for afforestation and improvement has been very common, especially over the last two centuries. This can be a serious impediment when inferring past population movements in response to past climate changes such as the last glacial maximum (LGM), some 18,000 years ago. In the present study, we genotyped 1,672 individuals from three Picea species (P. abies, P. obovata, and P. omorika) at 400K SNPs using exome capture to infer the past demographic history of Norway spruce (P. abies) and estimate the amount of recent introduction used to establish the Norway spruce breeding program in southern Sweden. Most of these trees belong to P. abies and originate from the base populations of the Swedish breeding program. Others originate from populations across the natural ranges of the three species. Of the 1,499 individuals stemming from the breeding program, a large proportion corresponds to recent introductions from mainland Europe. The split of P. omorika occurred 23 million years ago (mya), while the divergence between P. obovata and P. abies began 17.6 mya. Demographic inferences retrieved the same main clusters within P. abies than previous studies, that is, a vast northern domain ranging from Norway to central Russia, where the species is progressively replaced by Siberian spruce (P. obovata) and two smaller domains, an Alpine domain and a Carpathian one, but also revealed further subdivision and gene flow among clusters. The three main domains divergence was ancient (15 mya), and all three went through a bottleneck corresponding to the LGM. Approximately 17% of P. abies Nordic domain migrated from P. obovata ~103K years ago, when both species had much larger effective population sizes. Our analysis of genomewide polymorphism data thus revealed the complex demographic history of Picea genus in Western Europe and highlighted the importance of material transfer in Swedish breeding program.https://doi.org/10.1111/eva.12801demographic inferencesforest managementPicea abiespopulation transfer
collection DOAJ
language English
format Article
sources DOAJ
author Jun Chen
Lili Li
Pascal Milesi
Gunnar Jansson
Mats Berlin
Bo Karlsson
Jelena Aleksic
Giovanni G. Vendramin
Martin Lascoux
spellingShingle Jun Chen
Lili Li
Pascal Milesi
Gunnar Jansson
Mats Berlin
Bo Karlsson
Jelena Aleksic
Giovanni G. Vendramin
Martin Lascoux
Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
Evolutionary Applications
demographic inferences
forest management
Picea abies
population transfer
author_facet Jun Chen
Lili Li
Pascal Milesi
Gunnar Jansson
Mats Berlin
Bo Karlsson
Jelena Aleksic
Giovanni G. Vendramin
Martin Lascoux
author_sort Jun Chen
title Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
title_short Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
title_full Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
title_fullStr Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
title_full_unstemmed Genomic data provide new insights on the demographic history and the extent of recent material transfers in Norway spruce
title_sort genomic data provide new insights on the demographic history and the extent of recent material transfers in norway spruce
publisher Wiley
series Evolutionary Applications
issn 1752-4571
publishDate 2019-09-01
description Abstract Primeval forests are today exceedingly rare in Europe, and transfer of forest reproductive material for afforestation and improvement has been very common, especially over the last two centuries. This can be a serious impediment when inferring past population movements in response to past climate changes such as the last glacial maximum (LGM), some 18,000 years ago. In the present study, we genotyped 1,672 individuals from three Picea species (P. abies, P. obovata, and P. omorika) at 400K SNPs using exome capture to infer the past demographic history of Norway spruce (P. abies) and estimate the amount of recent introduction used to establish the Norway spruce breeding program in southern Sweden. Most of these trees belong to P. abies and originate from the base populations of the Swedish breeding program. Others originate from populations across the natural ranges of the three species. Of the 1,499 individuals stemming from the breeding program, a large proportion corresponds to recent introductions from mainland Europe. The split of P. omorika occurred 23 million years ago (mya), while the divergence between P. obovata and P. abies began 17.6 mya. Demographic inferences retrieved the same main clusters within P. abies than previous studies, that is, a vast northern domain ranging from Norway to central Russia, where the species is progressively replaced by Siberian spruce (P. obovata) and two smaller domains, an Alpine domain and a Carpathian one, but also revealed further subdivision and gene flow among clusters. The three main domains divergence was ancient (15 mya), and all three went through a bottleneck corresponding to the LGM. Approximately 17% of P. abies Nordic domain migrated from P. obovata ~103K years ago, when both species had much larger effective population sizes. Our analysis of genomewide polymorphism data thus revealed the complex demographic history of Picea genus in Western Europe and highlighted the importance of material transfer in Swedish breeding program.
topic demographic inferences
forest management
Picea abies
population transfer
url https://doi.org/10.1111/eva.12801
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