Allelic variants confer Arabidopsis adaptation to small regional environmental differences

SUMMARY Natural populations of Arabidopsis thaliana provide powerful systems to study the adaptation of wild plant species. Previous research has predominantly focused on global populations or accessions collected from regions with diverse climates. However, little is known about the genetics underl...

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Veröffentlicht in:The Plant journal : for cell and molecular biology 2024-11, Vol.120 (4), p.1662-1681
Hauptverfasser: Wijfjes, Raúl Y., Boesten, René, Becker, Frank F. M., Theeuwen, Tom P. J. M., Snoek, Basten L., Mastoraki, Maria, Verheijen, Jelle J., Güvencli, Nuri, Denkers, Lissy‐Anne M., Koornneef, Maarten, Eeuwijk, Fred A., Smit, Sandra, Ridder, Dick, Aarts, Mark G. M.
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Sprache:eng
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Zusammenfassung:SUMMARY Natural populations of Arabidopsis thaliana provide powerful systems to study the adaptation of wild plant species. Previous research has predominantly focused on global populations or accessions collected from regions with diverse climates. However, little is known about the genetics underlying adaptation in regions with mild environmental clines. We have examined a diversity panel consisting of 192 A. thaliana accessions collected from the Netherlands, a region with limited climatic variation. Despite the relatively uniform climate, we identified evidence of local adaptation within this population. Notably, semidwarf accessions, due to mutation of the GIBBERELLIC ACID REQUIRING 5 (GA5) gene, occur at a relatively high frequency near the coast and these displayed enhanced tolerance to high wind velocities. Additionally, we evaluated the performance of the population under iron deficiency conditions and found that allelic variation in the FE SUPEROXIDE DISMUTASE 3 (FSD3) gene affects tolerance to low iron levels. Moreover, we explored patterns of local adaptation to environmental clines in temperature and precipitation, observing that allelic variation at LA RELATED PROTEIN 1C (LARP1c) likely affects drought tolerance. Not only is the genetic variation observed in a diversity panel of A. thaliana collected in a region with mild environmental clines comparable to that in collections sampled over larger geographic ranges but it is also sufficiently rich to elucidate the genetic and environmental factors underlying natural plant adaptation. Significance Statement Understanding the genetic and phenotypic diversity contributing to environmental adaptation is a fundamental goal in plant biology. Here, we present a regional population of Arabidopsis thaliana accessions from the Netherlands, the DartMap panel, as a new resource to study allelic variants driving adaptation to mild variations in local environmental conditions. We identified three new loci, and the genes involved, providing adaptation to unrelated environmental factors, such as high wind speed, iron deficiency, and seasonal precipitation.
ISSN:0960-7412
1365-313X
1365-313X
DOI:10.1111/tpj.17067