Allelic variants confer Arabidopsis adaptation to small regional environmental differences

Raúl Y. Wijfjes; René Boesten; Frank F.M. Becker; Tom P.J.M. Theeuwen; Basten L. Snoek; Maria Mastoraki; Jelle J. Verheijen; Nuri Güvencli; Lissy Anne M. Denkers; Maarten Koornneef; Fred A. van Eeuwijk; Sandra Smit; Dick de de Ridder; Mark G.M. Aarts

doi:10.1111/tpj.17067

Allelic variants confer Arabidopsis adaptation to small regional environmental differences

Raúl Y. Wijfjes, René Boesten, Frank F.M. Becker, Tom P.J.M. Theeuwen, Basten L. Snoek, Maria Mastoraki, Jelle J. Verheijen, Nuri Güvencli, Lissy Anne M. Denkers, Maarten Koornneef, Fred A. van Eeuwijk, Sandra Smit, Dick de de Ridder^*, Mark G.M. Aarts^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

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.

Original language	English
Pages (from-to)	1662-1681
Number of pages	20
Journal	Plant Journal
Volume	120
Issue number	4
Early online date	14 Oct 2024
DOIs	https://doi.org/10.1111/tpj.17067
Publication status	Published - Nov 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.

Funding

We thank Yanda Zhou, Jeroen van Buren, and Imme Bartels for their contributions to the data collection of phenotyping experiments; the Unifarm staff for taking excellent care of all plants grown during this work; and Korbinian Schneeberger for providing feedback on the manuscript. We are especially grateful to Erik Wijnker and Joost Keurentjes, who called upon the listeners of the Dutch radio program \u201CVroege Vogels\u201D (https://www.bnnvara.nl/vroegevogels) to collect A. thaliana plants and seeds and send them to Wageningen University, and all those people who did. Without them, we would not have been able to get such a well-distributed set of Dutch A. thaliana accessions. This work was supported by the project grant ALWGR.2015.9 of the Netherlands Organization of Scientific Research (NWO). We are grateful to the NWO and private partners Rijk Zwaan Breeding, Bejo Zaden, Genetwister Technologies, Averis Seeds, C. Meijer, and HZPC Holland for their financial support through this grant. The funding bodies had no role in the design of the study; the collection, analysis, and interpretation of data; and in writing the manuscript.

Funders	Funder number
Exacte en Natuurwetenschappen	ALWGR.2015.9
Netherlands Organization of Scientific Research (NWO)
NWO
Rijk Zwaan Breeding, Bejo Zaden
HZPC Holland

Keywords

FSD3
GA5
Genome-Environment-Association
GWAS
Natural variation

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The Plant Journal - 2024 - Wijfjes - Allelic variants confer Arabidopsis adaptation to small regional environmentalFinal published version, 3.09 MBLicence: CC BY

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Wijfjes, R. Y., Boesten, R., Becker, F. F. M., Theeuwen, T. P. J. M., Snoek, B. L., Mastoraki, M., Verheijen, J. J., Güvencli, N., Denkers, L. A. M., Koornneef, M., van Eeuwijk, F. A., Smit, S., de de Ridder, D., & Aarts, M. G. M. (2024). Allelic variants confer Arabidopsis adaptation to small regional environmental differences. Plant Journal, 120(4), 1662-1681. https://doi.org/10.1111/tpj.17067

@article{c2862b15c4f542b98e60afcba824ad75,

title = "Allelic variants confer Arabidopsis adaptation to small regional environmental differences",

abstract = "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.",

keywords = "FSD3, GA5, Genome-Environment-Association, GWAS, Natural variation",

author = "Wijfjes, \{Ra{\'u}l Y.\} and Ren{\'e} Boesten and Becker, \{Frank F.M.\} and Theeuwen, \{Tom P.J.M.\} and Snoek, \{Basten L.\} and Maria Mastoraki and Verheijen, \{Jelle J.\} and Nuri G{\"u}vencli and Denkers, \{Lissy Anne M.\} and Maarten Koornneef and \{van Eeuwijk\}, \{Fred A.\} and Sandra Smit and \{de de Ridder\}, Dick and Aarts, \{Mark G.M.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). The Plant Journal published by Society for Experimental Biology and John Wiley \& Sons Ltd.",

year = "2024",

month = nov,

doi = "10.1111/tpj.17067",

language = "English",

volume = "120",

pages = "1662--1681",

journal = "Plant Journal",

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Wijfjes, RY, Boesten, R, Becker, FFM, Theeuwen, TPJM, Snoek, BL, Mastoraki, M, Verheijen, JJ, Güvencli, N, Denkers, LAM, Koornneef, M, van Eeuwijk, FA, Smit, S, de de Ridder, D & Aarts, MGM 2024, 'Allelic variants confer Arabidopsis adaptation to small regional environmental differences', Plant Journal, vol. 120, no. 4, pp. 1662-1681. https://doi.org/10.1111/tpj.17067

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T1 - Allelic variants confer Arabidopsis adaptation to small regional environmental differences

AU - Wijfjes, Raúl Y.

AU - Boesten, René

AU - Becker, Frank F.M.

AU - Theeuwen, Tom P.J.M.

AU - Snoek, Basten L.

AU - Mastoraki, Maria

AU - Verheijen, Jelle J.

AU - Güvencli, Nuri

AU - Denkers, Lissy Anne M.

AU - Koornneef, Maarten

AU - van Eeuwijk, Fred A.

AU - Smit, Sandra

AU - de de Ridder, Dick

AU - Aarts, Mark G.M.

PY - 2024/11

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N2 - 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.

AB - 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.

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KW - GA5

KW - Genome-Environment-Association

KW - GWAS

KW - Natural variation

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DO - 10.1111/tpj.17067

M3 - Article

AN - SCOPUS:85206271317

SN - 0960-7412

VL - 120

SP - 1662

EP - 1681

JO - Plant Journal

JF - Plant Journal

IS - 4

ER -

Allelic variants confer Arabidopsis adaptation to small regional environmental differences

Abstract

Bibliographical note

Funding

Keywords

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