Haploblocks contribute to parallel climate adaptation following global invasion of a cosmopolitan plant

Battlay, Paul; Hendrickson, Brandon T.; Mendez-Reneau, Jonas I.; Santangelo, James S.; Albano, Lucas J.; Wilson, Jonathan; Caizergues, Aude E.; King, Nevada; Puentes, Adriana; Tudoran, Amelia; Violle, Cyrille; Vasseur, Francois; Patterson, Courtney M.; Foster, Michael; Stamps, Caitlyn; Innes, Simon G.; Allio, Remi; Angeoletto, Fabio; Anstett, Daniel N.; Anstett, Julia; Bucharova, Anna; Comerford, Mattheau S.; David, Santiago; Falahati-Anbaran, Mohsen; Godsoe, William; Gonzalez-Lagos, Cesar; Gundel, Pedro E.; Hood, Glen Ray; Lampei, Christian; Lara, Carlos; Lazaro-Lobo, Adrian; Silva Leandro, Deleon; Merritt, Thomas J. S.; Mitchell, Nora; Mohammadi Bazargani, Mitra; Moles, Angela; Murua, Maureen; Paule, Juraj; Pfeiffer, Vera; Raeymaekers, Joost A. M.; Rennison, Diana J.; Rios, Rodrigo S.; Rowntree, Jennifer K.; Schneider, Adam C.; Whitney, Kaitlin Stack; Tamburrino, Italo; Vanwallendael, Acer; Kim, Paul Y.; Ness, Rob W.; Johnson, Marc T. J.; Hodgins, Kathryn A.; Kooyers, Nicholas J.

doi:10.1038/s41559-025-02751-2

Forskningsartikel2025Vetenskapligt granskadÖppen tillgång

Haploblocks contribute to parallel climate adaptation following global invasion of a cosmopolitan plant

Battlay, Paul; Hendrickson, Brandon T.; Mendez-Reneau, Jonas I.; Santangelo, James S.; Albano, Lucas J.; Wilson, Jonathan; Caizergues, Aude E.; King, Nevada; Puentes, Adriana; Tudoran, Amelia; Violle, Cyrille; Vasseur, Francois; Patterson, Courtney M.; Foster, Michael; Stamps, Caitlyn; Innes, Simon G.; Allio, Remi; Angeoletto, Fabio; Anstett, Daniel N.; Anstett, Julia;
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Sammanfattning

The role of rapid adaptation during species invasions has historically been minimized with the assumption that introductions consist of few colonists and limited genetic diversity. While overwhelming evidence suggests that rapid adaptation is more prevalent than originally assumed, the demographic and adaptive processes underlying successful invasions remain unresolved. Here we leverage a large whole-genome sequence dataset to investigate the relative roles of colonization history and adaptation during the worldwide invasion of the forage crop, Trifolium repens (Fabaceae). We show that introduced populations encompass high levels of genetic variation with little evidence of bottlenecks. Independent colonization histories on different continents are evident from genome-wide population structure. Five haploblocks-large haplotypes with limited recombination-on three chromosomes exist as standing genetic variation within the native and introduced ranges and exhibit strong signatures of parallel climate-associated adaptation across continents. Field experiments in the native and introduced ranges demonstrate that three of the haploblocks strongly affect fitness and exhibit patterns of selection consistent with local adaptation across each range. Our results provide strong evidence that large-effect structural variants contribute substantially to rapid and parallel adaptation of an introduced species throughout the world.

Publicerad i

Nature ecology & evolution
2025
Utgivare: NATURE PORTFOLIO

SLU författare

Puentes, Adriana
- Institutionen för ekologi, Sveriges lantbruksuniversitet
Tudoran, Amelia
- Institutionen för ekologi, Sveriges lantbruksuniversitet

UKÄ forskningsämne

Ekologi

Publikationens identifierare

DOI: https://doi.org/10.1038/s41559-025-02751-2

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/143053