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Biotic interactions promote local adaptation to soil in plants

Thomas Dorey, Léa Frachon, Loren H. Rieseberg, Julia M. Kreiner and Florian P. Schiestl ()
Additional contact information
Thomas Dorey: University of Zürich
Léa Frachon: University of Zürich
Loren H. Rieseberg: University of British Columbia
Julia M. Kreiner: University of British Columbia
Florian P. Schiestl: University of Zürich

Nature Communications, 2024, vol. 15, issue 1, 1-12

Abstract: Abstract Although different ecological factors shape adaptative evolution in natural habitats, we know little about how their interactions impact local adaptation. Here we used eight generations of experimental evolution with outcrossing Brassica rapa plants as a model system, in eight treatment groups that varied in soil type, herbivory (with/without aphids), and pollination mode (hand- or bumblebee-pollination), to study how biotic interactions affect local adaptation to soil. First, we show that several plant traits evolved in response to biotic interactions in a soil-specific way. Second, using a reciprocal transplant experiment, we demonstrate that significant local adaptation to soil-type evolved in the “number of open flowers”, a trait used as a fitness proxy, but only in plants that evolved with herbivory and bee pollination. Whole genome re-sequencing of experimental lines revealed that biotic interactions caused a 10-fold increase in the number of SNPs across the genome with significant allele frequency change, and that alleles with opposite allele frequency change in different soil types (antagonistic pleiotropy) were most common in plants with an evolutionary history of herbivory and bee pollination. Our results demonstrate that the interaction with mutualists and antagonists can facilitate local adaptation to soil type through antagonistic pleiotropy.

Date: 2024
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DOI: 10.1038/s41467-024-49383-x

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