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Large haploblocks underlie rapid adaptation in the invasive weed Ambrosia artemisiifolia

Paul Battlay, Jonathan Wilson, Vanessa C. Bieker, Christopher Lee, Diana Prapas, Bent Petersen, Sam Craig, Lotte A. van Boheemen, Romain Scalone, Nissanka P De Silva, Amit Kumar Sharma, Bojan Konstantinović, Kristin A. Nurkowski, Loren H. Rieseberg, Tim Connallon, Michael D. Martin, Kathryn A. Hodgins

2023Nature Communications80 citationsDOIOpen Access PDF

Abstract

Adaptation is the central feature and leading explanation for the evolutionary diversification of life. Adaptation is also notoriously difficult to study in nature, owing to its complexity and logistically prohibitive timescale. Here, we leverage extensive contemporary and historical collections of Ambrosia artemisiifolia-an aggressively invasive weed and primary cause of pollen-induced hayfever-to track the phenotypic and genetic causes of recent local adaptation across its native and invasive ranges in North America and Europe, respectively. Large haploblocks-indicative of chromosomal inversions-contain a disproportionate share (26%) of genomic regions conferring parallel adaptation to local climates between ranges, are associated with rapidly adapting traits, and exhibit dramatic frequency shifts over space and time. These results highlight the importance of large-effect standing variants in rapid adaptation, which have been critical to A. artemisiifolia's global spread across vast climatic gradients.

Topics & Concepts

Ambrosia artemisiifoliaAdaptation (eye)BiologyLocal adaptationEvolutionary biologyWeedInvasive speciesEcologyRagweedPopulationNeuroscienceAllergySociologyImmunologyDemographyGenetic diversity and population structurePlant and animal studiesForest Insect Ecology and Management
Large haploblocks underlie rapid adaptation in the invasive weed Ambrosia artemisiifolia | Litcius