Phenotypic differentiation of the Solidago virgaurea complex along an elevational gradient: Insights from a common garden experiment and population genetics

Phenotypic differentiation of the Solidago virgaurea complex along an elevational gradient: Insights from a common garden experiment and population genetics

Plant species distributed along wide elevational or latitudinal gradients show phenotypic variation due to their heterogeneous habitats. This study investigated whether phenotypic variation in populations of the Solidago virgaurea complex along an elevational gradient is caused by genetic differenti...

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Veröffentlicht in:Ecology and evolution 2017-09, Vol.7 (17), p.6949-6962
Hauptverfasser: Hirano, Masaaki, Sakaguchi, Shota, Takahashi, Koichi
Format: Artikel
Sprache:eng
Schlagworte:
Chlorophyll
Clines
Differentiation
Flowering
Gardens & gardening
Gene flow
Genetic analysis
Genetic diversity
Genetic markers
Genetic structure
genetic variations
Genetics
Genomes
Genotype & phenotype
Leaves
Low level
microsatellite
Microsatellites
morphological variations
Original Research
phenology
Phenotypic variations
Population
Population genetics
population structure
Populations
Seeds
Solidago
Stems
subspecies
Variance analysis
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creator Hirano, Masaaki
Sakaguchi, Shota
Takahashi, Koichi
description Plant species distributed along wide elevational or latitudinal gradients show phenotypic variation due to their heterogeneous habitats. This study investigated whether phenotypic variation in populations of the Solidago virgaurea complex along an elevational gradient is caused by genetic differentiation. A common garden experiment was based on seeds collected from nine populations of the S. virgaurea complex growing at elevations from 1,597 m to 2,779 m a.s.l. on Mt. Norikura in central Japan. Population genetic analyses with microsatellite markers were used to infer the genetic structure and levels of gene flow between populations. Leaf mass per area was lower, while leaf nitrogen and chlorophyll concentrations were greater for higher elevations at which seeds were originally collected. For reproductive traits, plants derived from higher elevations had larger flower heads on shorter stems and flowering started earlier. These elevational changes in morphology were consistent with the clines in the field, indicating that phenotypic variation along the elevational gradient would have been caused by genetic differentiation. However, population genetic analysis using 16 microsatellite loci suggested an extremely low level of genetic differentiation of neutral genes among the nine populations. Analysis of molecular variance also indicated that most genetic variation was partitioned into individuals within a population, and the genetic differentiation among the populations was not significant. This study suggests that genome regions responsible for adaptive traits may differ among the populations despite the existence of gene flow and that phenotypic variation of the S. virgaurea complex along the elevational gradient is maintained by strong selection pressure. This study investigated whether phenotypic variations of the Solidago virgaurea complex along an elevational gradient are maintained despite active gene flow by efficient dispersal ecology of the species. This study suggests that genome regions of adaptive traits differed among the populations by strong selection pressures despite the existence of gene flow and that phenotypic variations of the S. virgaurea complex along the elevational gradient are maintained by strong selection pressures.
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These elevational changes in morphology were consistent with the clines in the field, indicating that phenotypic variation along the elevational gradient would have been caused by genetic differentiation. However, population genetic analysis using 16 microsatellite loci suggested an extremely low level of genetic differentiation of neutral genes among the nine populations. Analysis of molecular variance also indicated that most genetic variation was partitioned into individuals within a population, and the genetic differentiation among the populations was not significant. This study suggests that genome regions responsible for adaptive traits may differ among the populations despite the existence of gene flow and that phenotypic variation of the S. virgaurea complex along the elevational gradient is maintained by strong selection pressure. This study investigated whether phenotypic variations of the Solidago virgaurea complex along an elevational gradient are maintained despite active gene flow by efficient dispersal ecology of the species. This study suggests that genome regions of adaptive traits differed among the populations by strong selection pressures despite the existence of gene flow and that phenotypic variations of the S. virgaurea complex along the elevational gradient are maintained by strong selection pressures.</description><identifier>ISSN: 2045-7758</identifier><identifier>EISSN: 2045-7758</identifier><identifier>DOI: 10.1002/ece3.3252</identifier><identifier>PMID: 28904774</identifier><language>eng</language><publisher>England: John Wiley &amp; Sons, Inc</publisher><subject>Chlorophyll ; Clines ; Differentiation ; Flowering ; Gardens &amp; gardening ; Gene flow ; Genetic analysis ; Genetic diversity ; Genetic markers ; Genetic structure ; genetic variations ; Genetics ; Genomes ; Genotype &amp; phenotype ; Leaves ; Low level ; microsatellite ; Microsatellites ; morphological variations ; Original Research ; phenology ; Phenotypic variations ; Population ; Population genetics ; population structure ; Populations ; Seeds ; Solidago ; Stems ; subspecies ; Variance analysis</subject><ispartof>Ecology and evolution, 2017-09, Vol.7 (17), p.6949-6962</ispartof><rights>2017 The Authors. published by John Wiley &amp; Sons Ltd.</rights><rights>2017. 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This study investigated whether phenotypic variation in populations of the Solidago virgaurea complex along an elevational gradient is caused by genetic differentiation. A common garden experiment was based on seeds collected from nine populations of the S. virgaurea complex growing at elevations from 1,597 m to 2,779 m a.s.l. on Mt. Norikura in central Japan. Population genetic analyses with microsatellite markers were used to infer the genetic structure and levels of gene flow between populations. Leaf mass per area was lower, while leaf nitrogen and chlorophyll concentrations were greater for higher elevations at which seeds were originally collected. For reproductive traits, plants derived from higher elevations had larger flower heads on shorter stems and flowering started earlier. 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These elevational changes in morphology were consistent with the clines in the field, indicating that phenotypic variation along the elevational gradient would have been caused by genetic differentiation. However, population genetic analysis using 16 microsatellite loci suggested an extremely low level of genetic differentiation of neutral genes among the nine populations. Analysis of molecular variance also indicated that most genetic variation was partitioned into individuals within a population, and the genetic differentiation among the populations was not significant. This study suggests that genome regions responsible for adaptive traits may differ among the populations despite the existence of gene flow and that phenotypic variation of the S. virgaurea complex along the elevational gradient is maintained by strong selection pressure. 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source Wiley Online Library Open Access; DOAJ Directory of Open Access Journals; Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central
subjects Chlorophyll
Clines
Differentiation
Flowering
Gardens & gardening
Gene flow
Genetic analysis
Genetic diversity
Genetic markers
Genetic structure
genetic variations
Genetics
Genomes
Genotype & phenotype
Leaves
Low level
microsatellite
Microsatellites
morphological variations
Original Research
phenology
Phenotypic variations
Population
Population genetics
population structure
Populations
Seeds
Solidago
Stems
subspecies
Variance analysis
title Phenotypic differentiation of the Solidago virgaurea complex along an elevational gradient: Insights from a common garden experiment and population genetics
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