Plant Origin, but Not Phylogeny, Drive Species Ecophysiological Response to Projected Climate
Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on im...
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| Published in | Frontiers in plant science Vol. 11; p. 400 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
07.04.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1664-462X 1664-462X |
| DOI | 10.3389/fpls.2020.00400 |
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| Abstract | Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight
species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll
, DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA. |
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| AbstractList | Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight
species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll
, DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA. Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight Impatiens species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll a/b, DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA.Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight Impatiens species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll a/b, DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA. Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight Impatiens species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll a/b , DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA. Knowledge of the relationship between environmental conditions and species traits is an important prerequisite for understanding determinants of community composition and predicting species response to novel climatic conditions. Despite increasing number of studies on this topic, our knowledge on importance of genetic differentiation, plasticity and their interactions along larger sets of species is still limited especially for traits related to plant ecophysiology. We studied variation in traits related to growth, leaf chemistry, contents of photosynthetic pigments and activity of antioxidative enzymes, stomata morphology and photosynthetic activity across eight Impatiens species growing along altitudinal gradients in Himalayas cultivated in three different temperature regimes and explored effects of among species phylogenetic relationships on the results. Original and target climatic conditions determine trait values in our system. The traits are either highly plastic (e.g., APX, CAT, plant size, neoxanthin, β-carotene, chlorophyll a/b, DEPSC) or are highly differentiated among populations (stomata density, lutein production). Many traits show strong among population differentiation in degree of plasticity and direction in response to environmental changes. Most traits indicate that the species will profit from the expected warming. This suggests that different processes determine the values of the different traits and separating the importance of genetic differentiation and plasticity is crucial for our ability to predict species response to future climate changes. The results also indicate that evolution of the traits is not phylogenetically constrained but including phylogenetic information into the analysis may improve our understanding of the trait-environment relationships as was apparent from the analysis of SLA. |
| Author | Synková, Helena Wilhelmová, Nada Rokaya, Maan Dostálek, Tomáš Schnáblová, Renáta Haisel, Daniel Münzbergová, Zuzana Kosová, Veronika |
| AuthorAffiliation | 1 Department of Population Ecology, Institute of Botany, Czech Academy of Sciences , Prague , Czechia 3 Institute of Experimental Botany, Czech Academy of Sciences , Prague , Czechia 2 Department of Botany, Faculty of Science, Charles University , Prague , Czechia |
| AuthorAffiliation_xml | – name: 3 Institute of Experimental Botany, Czech Academy of Sciences , Prague , Czechia – name: 1 Department of Population Ecology, Institute of Botany, Czech Academy of Sciences , Prague , Czechia – name: 2 Department of Botany, Faculty of Science, Charles University , Prague , Czechia |
| Author_xml | – sequence: 1 givenname: Zuzana surname: Münzbergová fullname: Münzbergová, Zuzana – sequence: 2 givenname: Veronika surname: Kosová fullname: Kosová, Veronika – sequence: 3 givenname: Renáta surname: Schnáblová fullname: Schnáblová, Renáta – sequence: 4 givenname: Maan surname: Rokaya fullname: Rokaya, Maan – sequence: 5 givenname: Helena surname: Synková fullname: Synková, Helena – sequence: 6 givenname: Daniel surname: Haisel fullname: Haisel, Daniel – sequence: 7 givenname: Nada surname: Wilhelmová fullname: Wilhelmová, Nada – sequence: 8 givenname: Tomáš surname: Dostálek fullname: Dostálek, Tomáš |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32318088$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1002_ajb2_16462 crossref_primary_10_1016_j_jaridenv_2022_104831 crossref_primary_10_1093_aob_mcac080 crossref_primary_10_3390_app10238458 crossref_primary_10_1038_s41598_020_67437_0 crossref_primary_10_1016_j_ecolind_2021_108355 crossref_primary_10_1038_s41598_022_22125_z crossref_primary_10_1016_j_flora_2022_152177 crossref_primary_10_1111_ppl_13608 crossref_primary_10_1007_s00035_020_00242_7 |
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| Copyright | Copyright © 2020 Münzbergová, Kosová, Schnáblová, Rokaya, Synková, Haisel, Wilhelmová and Dostálek. Copyright © 2020 Münzbergová, Kosová, Schnáblová, Rokaya, Synková, Haisel, Wilhelmová and Dostálek. 2020 Münzbergová, Kosová, Schnáblová, Rokaya, Synková, Haisel, Wilhelmová and Dostálek |
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| Keywords | growth chamber experiment xanthophyll cycle carotenoids antioxidants Balsaminaceae elevational gradients phylogenetic constrains genotype × environment interaction |
| Language | English |
| License | Copyright © 2020 Münzbergová, Kosová, Schnáblová, Rokaya, Synková, Haisel, Wilhelmová and Dostálek. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by: Boris Rewald, University of Natural Resources and Life Sciences Vienna, Austria This article was submitted to Functional Plant Ecology, a section of the journal Frontiers in Plant Science Reviewed by: Lea Hallik, University of Tartu, Estonia; Rubén Retuerto, University of Santiago de Compostela, Spain |
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