Climate as a driver of adaptive variations in ecological strategies in Arabidopsis thaliana

Climate as a driver of adaptive variations in ecological strategies in Arabidopsis thaliana

Abstract Background and aims The CSR classification categorizes plants as stress tolerators (S), ruderals (R) and competitors (C). Initially proposed as a general framework to describe ecological strategies across species, this scheme has recently been used to investigate the variation of strategies...

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Published in:Annals of botany Vol. 122; no. 6; pp. 935 - 945
Main Authors: Vasseur, François, Sartori, Kevin, Baron, Etienne, Fort, Florian, Kazakou, Elena, Segrestin, Jules, Garnier, Eric, Vile, Denis, Violle, Cyrille
Format: Journal Article
Language:English
Published: US Oxford University Press 30-11-2018
Oxford University Press (OUP)
Subjects:
Bioclimatology
Botanics
Ecology, environment
Life Sciences
Research in Context
Vegetal Biology
adaptive differentiation
functional trait
genetic diversity
Grime triangle
CSR classification
trait–environment relationships
climate
latitudinal gradient
ecological strategy
Arabidopsis thaliana
Climate
Adaptive differentiation
Ecological strategy
Functional trait
QST–FST
Latitudinal gradient
Genetic diversity
Trait–environment relationships
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Summary:Abstract Background and aims The CSR classification categorizes plants as stress tolerators (S), ruderals (R) and competitors (C). Initially proposed as a general framework to describe ecological strategies across species, this scheme has recently been used to investigate the variation of strategies within species. For instance, ample variation along the S–R axis was found in Arabidopsis thaliana, with stress-tolerator accessions predominating in hot and dry regions, which was interpreted as a sign of functional adaptation to climate within the species. Methods In this study the range of CSR strategies within A. thaliana was evaluated across 426 accessions originating from North Africa to Scandinavia. A position in the CSR strategy space was allocated for every accession based on three functional traits: leaf area, leaf dry matter content (LDMC) and specific leaf area (SLA). Results were related to climate at origin and compared with a previous study performed on the same species. Furthermore, the role of natural selection in phenotypic differentiation between lineages was investigated with QST–FST comparisons, using the large amount of genetic information available for this species. Key Results Substantial variation in ecological strategies along the S–R axis was found in A. thaliana. By contrast with previous findings, stress-tolerator accessions predominated in cold climates, notably Scandinavia, where late flowering was associated with traits related to resource conservation, such as high LDMC and low SLA. Because of trait plasticity, variations in CSR classification in relation to growth conditions were also observed for the same genotypes. Conclusions There is a latitudinal gradient of ecological strategies in A. thaliana as a result of within-species adaptation to climate. Our study also underlines the importance of growth conditions and of the methodology used for trait measurement, notably age versus stage measurement, to infer the strength and direction of trait–environment relationships. This highlights the potential and limitations of the CSR classification in explaining functional adaptation to the environment.
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PMCID: PMC6266113
ISSN:0305-7364
1095-8290
DOI:10.1093/aob/mcy165