ttADAPTIVE PHNEOTYPIC plasticity of wild Capsicum annuum (Solanaceae) to variable environments of water-light availability

Adaptive evolution enhances the fitness of populations via the natural selection of genetic variants. Phenotypic plasticity may also increase fitness but it can be neutral or even maladaptive. In natural environments, water and light are factors that generate plastic responses of plants. The purpose...

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Published inActa oecologica (Montrouge) Vol. 114; p. 103807
Main Authors Romero-Higareda, César Enrique, Hernández-Verdugo, Sergio, Pacheco-Olvera, Antonio, Núñez-Farfán, Juan, Retes-Manjarrez, Enrique, López-Orona, Carlos, Osuna-Enciso, Tomás
Format Journal Article
LanguageEnglish
Published Elsevier Masson SAS 01.05.2022
Subjects
Adaptation
Capsicum annuum
evolutionary adaptation
genetic drift
genetic variation
latitude
leaf area
Mexico
Multivariate norms of reaction
natural selection
phenotype
Phenotypic plasticity
Selection gradient analysis
specific leaf area
Water light
Wild Capsicum annuum
Mexico
Multivariate norms of reaction
Phenotypic plasticity
Wild Capsicum annuum
Water light
Adaptation
Selection gradient analysis
Online AccessGet full text
ISSN1146-609X
DOI10.1016/j.actao.2021.103807

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Abstract Adaptive evolution enhances the fitness of populations via the natural selection of genetic variants. Phenotypic plasticity may also increase fitness but it can be neutral or even maladaptive. In natural environments, water and light are factors that generate plastic responses of plants. The purpose of this study was to analyze the adaptive phenotypic plasticity and the genetic differentiation of wild Capsicum annuum populations in northwest Mexico. 20 families from each population were subject to water-light treatments, assessing nine traits. Significant plastic responses as well as interaction of treatments by populations and treatments by families within populations were detected for almost all traits. Differences among and within populations had a genetic basis. Population trait means were not correlated to latitude. Phenotypic differentiation may be the result of different regimes of natural selection in each population (and non-clinal) or due to genetic drift. Variation in magnitude and patterns of multivariate norms of reaction was detected, pointing a potential to produce large phenotypic responses. Multivariate norms of reaction differentiated populations and treatments effects separately. Water and light drove patterns of multivariate responses, allowing to clarify the effect of each factor. Intensities of selection gradients of foliar traits were larger than vegetative traits. Magnitudes of selection differed among populations and treatments. Selection magnitudes decreased as resource availability increased and correlated negatively to population plasticity. Opposed patterns of linear selection suggested a trade-off between leaf area and specific leaf area. Results suggested that natural selection is relevant in the determination of phenotypic responses of wild Capsicum annuum in northwest Mexico. •Genetic differences among and within populations, plasticity among populations, genetic variation for plasticity within populations were detected.•Water variation determined traits multivariate responses of treatments of all populations regardless of light availability.•Uniform selection gradients intensities varied across populations and treatments and decreased with increasing resources.•Natural selection was more frequent and intense on genetic variance than on phenotypic plasticity.•Specific leaf area variation suggest that genes for its genetic variance and its plasticity might be differentiated.
AbstractList Adaptive evolution enhances the fitness of populations via the natural selection of genetic variants. Phenotypic plasticity may also increase fitness but it can be neutral or even maladaptive. In natural environments, water and light are factors that generate plastic responses of plants. The purpose of this study was to analyze the adaptive phenotypic plasticity and the genetic differentiation of wild Capsicum annuum populations in northwest Mexico. 20 families from each population were subject to water-light treatments, assessing nine traits. Significant plastic responses as well as interaction of treatments by populations and treatments by families within populations were detected for almost all traits. Differences among and within populations had a genetic basis. Population trait means were not correlated to latitude. Phenotypic differentiation may be the result of different regimes of natural selection in each population (and non-clinal) or due to genetic drift. Variation in magnitude and patterns of multivariate norms of reaction was detected, pointing a potential to produce large phenotypic responses. Multivariate norms of reaction differentiated populations and treatments effects separately. Water and light drove patterns of multivariate responses, allowing to clarify the effect of each factor. Intensities of selection gradients of foliar traits were larger than vegetative traits. Magnitudes of selection differed among populations and treatments. Selection magnitudes decreased as resource availability increased and correlated negatively to population plasticity. Opposed patterns of linear selection suggested a trade-off between leaf area and specific leaf area. Results suggested that natural selection is relevant in the determination of phenotypic responses of wild Capsicum annuum in northwest Mexico.
Adaptive evolution enhances the fitness of populations via the natural selection of genetic variants. Phenotypic plasticity may also increase fitness but it can be neutral or even maladaptive. In natural environments, water and light are factors that generate plastic responses of plants. The purpose of this study was to analyze the adaptive phenotypic plasticity and the genetic differentiation of wild Capsicum annuum populations in northwest Mexico. 20 families from each population were subject to water-light treatments, assessing nine traits. Significant plastic responses as well as interaction of treatments by populations and treatments by families within populations were detected for almost all traits. Differences among and within populations had a genetic basis. Population trait means were not correlated to latitude. Phenotypic differentiation may be the result of different regimes of natural selection in each population (and non-clinal) or due to genetic drift. Variation in magnitude and patterns of multivariate norms of reaction was detected, pointing a potential to produce large phenotypic responses. Multivariate norms of reaction differentiated populations and treatments effects separately. Water and light drove patterns of multivariate responses, allowing to clarify the effect of each factor. Intensities of selection gradients of foliar traits were larger than vegetative traits. Magnitudes of selection differed among populations and treatments. Selection magnitudes decreased as resource availability increased and correlated negatively to population plasticity. Opposed patterns of linear selection suggested a trade-off between leaf area and specific leaf area. Results suggested that natural selection is relevant in the determination of phenotypic responses of wild Capsicum annuum in northwest Mexico. •Genetic differences among and within populations, plasticity among populations, genetic variation for plasticity within populations were detected.•Water variation determined traits multivariate responses of treatments of all populations regardless of light availability.•Uniform selection gradients intensities varied across populations and treatments and decreased with increasing resources.•Natural selection was more frequent and intense on genetic variance than on phenotypic plasticity.•Specific leaf area variation suggest that genes for its genetic variance and its plasticity might be differentiated.
ArticleNumber 103807
Author Hernández-Verdugo, Sergio
López-Orona, Carlos
Osuna-Enciso, Tomás
Pacheco-Olvera, Antonio
Núñez-Farfán, Juan
Romero-Higareda, César Enrique
Retes-Manjarrez, Enrique
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  organization: Facultad de Biología, Universidad Autónoma de Sinaloa, Av. de La Américas y Boulevard Universitarios, Culiacán Rosales, Sinaloa, CP, 80013, Mexico
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  givenname: Sergio
  surname: Hernández-Verdugo
  fullname: Hernández-Verdugo, Sergio
  email: sergio2002@yahoo.com.mx
  organization: Facultad de Agronomía, Universidad Autónoma de Sinaloa, Carretera Culiacán-Eldorado km 25, Culiacán Rosales, Sinaloa, CP, 80000, Mexico
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  givenname: Antonio
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  email: apantoniopo@345gmail.com
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  givenname: Juan
  surname: Núñez-Farfán
  fullname: Núñez-Farfán, Juan
  email: farfan@unam.mx
  organization: Instituto de Ecología, Universidad Nacional Autónoma de México, Laboratorio de Genética Ecológica y Evolución, Ciudad Universitaria, Circuito Exterior s/n, Coyoacán, CDMX, CP, 04510, Mexico
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  givenname: Enrique
  orcidid: 0000-0002-5151-6555
  surname: Retes-Manjarrez
  fullname: Retes-Manjarrez, Enrique
  organization: Facultad de Agronomía, Universidad Autónoma de Sinaloa, Carretera Culiacán-Eldorado km 25, Culiacán Rosales, Sinaloa, CP, 80000, Mexico
– sequence: 6
  givenname: Carlos
  surname: López-Orona
  fullname: López-Orona, Carlos
  email: clopezorona@uas.edu.mx
  organization: Facultad de Agronomía, Universidad Autónoma de Sinaloa, Carretera Culiacán-Eldorado km 25, Culiacán Rosales, Sinaloa, CP, 80000, Mexico
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  givenname: Tomás
  surname: Osuna-Enciso
  fullname: Osuna-Enciso, Tomás
  email: osuna@ciad.mx
  organization: Centro de Investigación en Alimentación y Desarrollo A.C, Unidad Culiacán, Carretera Culiacán-Eldorado km 5, Campo El Diez, Culiacán Rosales, Sinaloa, CP, 80110, Mexico
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Keywords Multivariate norms of reaction
Phenotypic plasticity
Wild Capsicum annuum
Water light
Adaptation
Selection gradient analysis
Language English
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Snippet Adaptive evolution enhances the fitness of populations via the natural selection of genetic variants. Phenotypic plasticity may also increase fitness but it...
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StartPage 103807
SubjectTerms Adaptation
Capsicum annuum
evolutionary adaptation
genetic drift
genetic variation
latitude
leaf area
Mexico
Multivariate norms of reaction
natural selection
phenotype
Phenotypic plasticity
Selection gradient analysis
specific leaf area
Water light
Wild Capsicum annuum
Title ttADAPTIVE PHNEOTYPIC plasticity of wild Capsicum annuum (Solanaceae) to variable environments of water-light availability
URI https://dx.doi.org/10.1016/j.actao.2021.103807
https://www.proquest.com/docview/2636802876
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