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The elevation of atmospheric CO2 leads to a decline in plant mineral content, which might pose a significant threat to food security in coming decades. Although few genes have been identified for the negative effect of elevated CO2 on plant mineral composition, several studies suggest the existence of genetic factors. Here, we performed a large-scale study to explore genetic diversity of plant ionome responses to elevated CO2, using six hundred Arabidopsis thaliana accessions, representing geographical distributions ranging from worldwide to regional and local environments. We show that growth under elevated CO2 leads to a global decrease of ionome content, whatever the geographic distribution of the population. We observed a high range of genetic diversity, ranging from the most negative effect to resilience or even to a benefit in response to elevated CO2. Using genome-wide association mapping, we identified a large set of genes associated with this response, and we demonstrated that the function of one of these genes is involved in the negative effect of elevated CO2 on plant mineral composition. This resource will contribute to understand the mechanisms underlying the effect of elevated CO2 on plant mineral nutrition, and could help towards the development of crops adapted to a high-CO2 world. © 2023, Cassan et al.

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Oceane Cassan, Lea-Lou Pimpare, Timothy Mozzanino, Cecile Fizames, Sebastien Devidal, Fabrice Roux, Alexandru Milcu, Sophie Lebre, Alain Gojon, Antoine Martin. Natural genetic variation underlying the negative effect of elevated CO2 on ionome composition in Arabidopsis thaliana. eLife. 2024 May 23;12

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PMID: 38780431

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