Genomic signals reveal past evolutionary dynamics of Quercus schottkyana and its response to future climate change

Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation, forest management, and vegetation restoration. This study used Quercus schottkyana, a dominant tree in subtropical evergreen broad‐leaved forests...

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Published inJournal of systematics and evolution : JSE Vol. 59; no. 5; pp. 985 - 997
Main Authors Jiang, Xiao‐Long, Su, Zhi‐Hao, Xu, Gang‐Biao, Deng, Min
Format Journal Article
LanguageEnglish
Published Beijing Wiley Subscription Services, Inc 01.09.2021
Subjects
Admixtures
Annual precipitation
atmospheric precipitation
Bayesian analysis
Bayesian theory
Biodiversity
biodiversity conservation
case studies
China
climate
Climate change
Coniferous forests
demographic history
demographic statistics
Demographics
Demography
Divergence
Dominant species
Environmental impact
Environmental restoration
Evolution
Fluctuations
forest dynamics
Forest management
forest restoration
Forests
Genetic divergence
Genetic diversity
genetic variation
genome
genomic vulnerability
Genomics
genotype-environment interaction
Genotyping
Geographical distribution
introgression
landscape genomics
Miocene
Miocene epoch
Nucleotides
Pleistocene
Pleistocene epoch
Population genetics
Populations
principal component analysis
Principal components analysis
Quercus
Quercus schottkyana
Restoration
River basins
Rivers
Seeds
trees
watersheds
Wildlife conservation
Jinsha River
China
Online AccessGet full text
ISSN1674-4918
1759-6831
DOI10.1111/jse.12703

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Abstract Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation, forest management, and vegetation restoration. This study used Quercus schottkyana, a dominant tree in subtropical evergreen broad‐leaved forests in southwest China, to investigate the influences of past environmental fluctuations and future changes in climate on the dynamics of tree demographics. Genomic data were obtained for 133 samples of Q. schottkyana from 22 populations using double‐digest genotyping by sequencing. The single‐nucleotide polymorphisms in the genome showed a uniform distribution. Based on principal component analysis and Admixture analysis, two distinct lineages and one mixed group were identified that corresponded to their geographical distribution. Approximate Bayesian computation analyses provided evidence that the divergence among Q. schottkyana populations could be driven by the collision between the Asian and Indian plates during the Miocene, and that climatic fluctuations in the late Pleistocene led to the introgression. The analysis of genotype‐environment relationships showed that annual precipitation and geographic distance were associated with spatial genetic variation. Populations of Q. schottkyana in the northern area of the Jinsha River basin were predicted to be the most vulnerable to future climate change. To increase genetic diversity in the northern Jinsha River basin and to buffer threats from future climate change, managers could use a mixture of local and alien seeds during forest restoration and management. This case study can promote further investigations into assessing how past and future climate change impacts genetic divergence and local adaptation of trees in forests. Genomic vulnerability to future climate change across the Quercus schottkyana range, and its relationship with annual precipitation.
AbstractList Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation, forest management, and vegetation restoration. This study used Quercus schottkyana, a dominant tree in subtropical evergreen broad‐leaved forests in southwest China, to investigate the influences of past environmental fluctuations and future changes in climate on the dynamics of tree demographics. Genomic data were obtained for 133 samples of Q. schottkyana from 22 populations using double‐digest genotyping by sequencing. The single‐nucleotide polymorphisms in the genome showed a uniform distribution. Based on principal component analysis and Admixture analysis, two distinct lineages and one mixed group were identified that corresponded to their geographical distribution. Approximate Bayesian computation analyses provided evidence that the divergence among Q. schottkyana populations could be driven by the collision between the Asian and Indian plates during the Miocene, and that climatic fluctuations in the late Pleistocene led to the introgression. The analysis of genotype‐environment relationships showed that annual precipitation and geographic distance were associated with spatial genetic variation. Populations of Q. schottkyana in the northern area of the Jinsha River basin were predicted to be the most vulnerable to future climate change. To increase genetic diversity in the northern Jinsha River basin and to buffer threats from future climate change, managers could use a mixture of local and alien seeds during forest restoration and management. This case study can promote further investigations into assessing how past and future climate change impacts genetic divergence and local adaptation of trees in forests. Genomic vulnerability to future climate change across the Quercus schottkyana range, and its relationship with annual precipitation.
Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation, forest management, and vegetation restoration. This study used Quercus schottkyana, a dominant tree in subtropical evergreen broad‐leaved forests in southwest China, to investigate the influences of past environmental fluctuations and future changes in climate on the dynamics of tree demographics. Genomic data were obtained for 133 samples of Q. schottkyana from 22 populations using double‐digest genotyping by sequencing. The single‐nucleotide polymorphisms in the genome showed a uniform distribution. Based on principal component analysis and Admixture analysis, two distinct lineages and one mixed group were identified that corresponded to their geographical distribution. Approximate Bayesian computation analyses provided evidence that the divergence among Q. schottkyana populations could be driven by the collision between the Asian and Indian plates during the Miocene, and that climatic fluctuations in the late Pleistocene led to the introgression. The analysis of genotype‐environment relationships showed that annual precipitation and geographic distance were associated with spatial genetic variation. Populations of Q. schottkyana in the northern area of the Jinsha River basin were predicted to be the most vulnerable to future climate change. To increase genetic diversity in the northern Jinsha River basin and to buffer threats from future climate change, managers could use a mixture of local and alien seeds during forest restoration and management. This case study can promote further investigations into assessing how past and future climate change impacts genetic divergence and local adaptation of trees in forests.
Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation, forest management, and vegetation restoration. This study used Quercus schottkyana , a dominant tree in subtropical evergreen broad‐leaved forests in southwest China, to investigate the influences of past environmental fluctuations and future changes in climate on the dynamics of tree demographics. Genomic data were obtained for 133 samples of Q. schottkyana from 22 populations using double‐digest genotyping by sequencing. The single‐nucleotide polymorphisms in the genome showed a uniform distribution. Based on principal component analysis and Admixture analysis, two distinct lineages and one mixed group were identified that corresponded to their geographical distribution. Approximate Bayesian computation analyses provided evidence that the divergence among Q. schottkyana populations could be driven by the collision between the Asian and Indian plates during the Miocene, and that climatic fluctuations in the late Pleistocene led to the introgression. The analysis of genotype‐environment relationships showed that annual precipitation and geographic distance were associated with spatial genetic variation. Populations of Q. schottkyana in the northern area of the Jinsha River basin were predicted to be the most vulnerable to future climate change. To increase genetic diversity in the northern Jinsha River basin and to buffer threats from future climate change, managers could use a mixture of local and alien seeds during forest restoration and management. This case study can promote further investigations into assessing how past and future climate change impacts genetic divergence and local adaptation of trees in forests.
Author Deng, Min
Jiang, Xiao‐Long
Xu, Gang‐Biao
Su, Zhi‐Hao
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  orcidid: 0000-0003-3861-1109
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  fullname: Jiang, Xiao‐Long
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  givenname: Zhi‐Hao
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  organization: Yunnan University
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Snippet Understanding the past and future evolutionary dynamics of dominant species in a forest is important for guiding decisions for biodiversity conservation,...
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SubjectTerms Admixtures
Annual precipitation
atmospheric precipitation
Bayesian analysis
Bayesian theory
Biodiversity
biodiversity conservation
case studies
China
climate
Climate change
Coniferous forests
demographic history
demographic statistics
Demographics
Demography
Divergence
Dominant species
Environmental impact
Environmental restoration
Evolution
Fluctuations
forest dynamics
Forest management
forest restoration
Forests
Genetic divergence
Genetic diversity
genetic variation
genome
genomic vulnerability
Genomics
genotype-environment interaction
Genotyping
Geographical distribution
introgression
landscape genomics
Miocene
Miocene epoch
Nucleotides
Pleistocene
Pleistocene epoch
Population genetics
Populations
principal component analysis
Principal components analysis
Quercus
Quercus schottkyana
Restoration
River basins
Rivers
Seeds
trees
watersheds
Wildlife conservation
Title Genomic signals reveal past evolutionary dynamics of Quercus schottkyana and its response to future climate change
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjse.12703
https://www.proquest.com/docview/2574941096
https://www.proquest.com/docview/2636417678
Volume 59
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