A rainfall-manipulation experiment with 517 Arabidopsis thaliana accessions

Exposito-Alonso, M; Gómez Rodríguez, R; Barragán, C; Capovilla, G; Chae, E; Devos, J; Dogan, ES; Friedemann, C; Gross, C; Lang, P; Lundberg, D; Middendorf, V; Kageyama, J; Karasov, T; Kersten, S; Petersen, S; Rabbani, L; Regalado, J; Reinelt, L; Rowan, B; Seymour, DK; Symeonidi, E; Schwab, R; Tran, DTN; Venkataramani, K; Van de Weyer, A-L; Vasseur, F; Wang, G; Wedegärtner, R; Weiss, F; Wu, R; Xi, W; Zaidem, M; Zhu, W; García‑Arenal, F; Burbano, HA; Bossdorf, O; Weigel, D

doi:10.1101/186767

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A rainfall-manipulation experiment with 517 Arabidopsis thaliana accessions

Exposito-Alonso, M., Gómez Rodríguez, R., Barragán, C., Capovilla, G., Chae, E., Devos, J., et al. (submitted). A rainfall-manipulation experiment with 517 Arabidopsis thaliana accessions.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000C-0882-8 Version Permalink: https://hdl.handle.net/21.11116/0000-000C-08C1-1

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Creators:
Exposito-Alonso, M¹, Author
Gómez Rodríguez, R, Author
Barragán, C¹, Author
Capovilla, G¹, Author
Chae, E¹, Author
Devos, J¹, Author
Dogan, ES¹, Author
Friedemann, C¹, Author
Gross, C¹, Author
Lang, P¹, Author
Lundberg, D¹, Author
Middendorf, V¹, Author
Kageyama, J², Author
Karasov, T¹, Author
Kersten, S¹, Author
Petersen, S¹, Author
Rabbani, L¹, Author
Regalado, J¹, Author
Reinelt, L¹, Author
Rowan, B¹, Author
Seymour, DK¹, Author               Symeonidi, E¹, Author               Schwab, R¹, Author               Tran, DTN¹, Author               Venkataramani, K¹, Author               Van de Weyer, A-L¹, Author               Vasseur, F¹, Author               Wang, G¹, Author         Wedegärtner, R¹, Author         Weiss, F¹, Author         Wu, R¹, Author         Xi, W¹, Author         Zaidem, M¹, Author               Zhu, W¹, Author               García‑Arenal, F, AuthorBurbano, HA¹, Author               Bossdorf, O, AuthorWeigel, D¹, Author                more..

Affiliations:
1Department Molecular Biology, Max Planck Institute for Developmental Biology, Max Planck Society, ou_3375790
2Research Group Protein Design, Max Planck Institute for Developmental Biology, Max Planck Society, ou_3384430

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Abstract: The gold standard for studying natural selection and adaptation in the wild is to quantify lifetime fitness of individuals from natural populations that have been grown together in a common garden, or that have been reciprocally transplanted. By combining fitness values with species traits and genome sequences, one can infer selection coefficients at the genetic level. Here we present a rainfall-manipulation experiment with 517 whole-genome sequenced natural accessions of the plant Arabidopsis thaliana spanning the global distribution of the species. The experiments were conducted in two field stations in contrasting climates, in the Mediterranean and in Central Europe, where we built rainout shelters and simulated high and low rainfall. Using custom image analysis we quantified fitness- and phenology-related traits for 23,154 pots, which contained about 14,500 plants growing independently, and over 310,000 plants growing in small populations (max. 30 plants). This large field experiment dataset, which associates fitness and ecologically-relevant traits with genomes, will provide an important resource to test eco-evolutionary genetic theories and to understand the potential evolutionary impacts of future climates on an important plant model species.

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Dates: Submitted: 2018-06

Publication Status: Submitted

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Identifiers: DOI: 10.1101/186767

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