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Local adaptation to climate has facilitated the global invasion of cheatgrass

Author

Listed:
  • Diana Gamba

    (Pennsylvania State University, Department of Biology)

  • Megan L. Vahsen

    (Utah State University, Department of Wildland Resources and the Ecology Center)

  • Toby M. Maxwell

    (Boise State University, Department of Biological Sciences)

  • Nikki Pirtel

    (Utah State University, Department of Wildland Resources and the Ecology Center)

  • Seth Romero

    (Rangeland Resources and Systems Research Unit, US Department of Agriculture, Agricultural Research Service)

  • Justin J. Van Ee

    (Colorado State University, Department of Agricultural Biology)

  • Amanda Penn

    (Pennsylvania State University, Department of Biology)

  • Aayudh Das

    (Pennsylvania State University, Department of Biology)

  • Rotem Ben-Zeev

    (Pennsylvania State University, Department of Biology)

  • Owen Baughman

    (The Nature Conservancy)

  • C. Sean Blaney

    (Atlantic Canada Conservation Data Centre)

  • Randy Bodkins
  • Shanta Budha-Magar

    (Northtec)

  • Stella M. Copeland

    (Eastern Oregon Agricultural Research Center, US Department of Agriculture, Agricultural Research Service)

  • Shannon L. Davis-Foust

    (University of Wisconsin Oshkosh, Biology Department)

  • Alvin Diamond

    (Troy University, Department of Biological and Environmental Sciences)

  • Ryan C. Donnelly

    (Kansas State University, Division of Biology)

  • Peter W. Dunwiddie

    (University of Washington, Department of Biology)

  • David J. Ensing

    (Agriculture and Agri-Food Canada, Summerland Research and Development Centre)

  • Thomas A. Everest

    (New Mexico State University, Department of Biology)

  • Holly Hoitink
  • Martin C. Holdrege

    (Center for Adaptable Western Landscapes, Northern Arizona University)

  • Ruth A. Hufbauer

    (Colorado State University, Department of Agricultural Biology)

  • Sigitas Juzėnas

    (Vilnius University, Department of Botany and Genetics, Institute of Biosciences, Life Sciences Center)

  • Jesse M. Kalwij

    (University of Johannesburg, Centre for Ecological Genomics & Wildlife Conservation, Department of Zoology
    Karlsruhe Institute of Technology, Institute of Geography and Geoecology)

  • Ekaterina Kashirina

    (A.O. Kovalevsky Institute of Biology of the Southern Seas of RAS)

  • Sangtae Kim

    (Sungshin Women’s University, Department of Biology)

  • Marcin Klisz

    (Forest Research Institute, Department of Silviculture and Genetics of Forest Trees)

  • Alina Klyueva

    (Bryansk State University Academician I. G. Petrovsky)

  • Michel Langeveld
  • Samuel Lutfy

    (Texas A&M University—Kingsville, Caesar Kleberg Wildlife Research Institute)

  • Daniel Martin
  • Christopher L. Merkord

    (Minnesota State University Moorhead, Biosciences Department)

  • John W. Morgan

    (La Trobe University, Department of Environment and Genetics)

  • Dávid U. Nagy

    (Goethe University Frankfurt, Faculty of Biological Sciences)

  • Jacqueline P. Ott

    (Rocky Mountain Research Station, US Department of Agriculture, Forest Service)

  • Radoslaw Puchalka

    (Nicolaus Copernicus University, Department of Ecology and Biogeography)

  • Lysandra A. Pyle

    (Alberta Biodiversity Monitoring Institute)

  • Leonid Rasran

    (BOKU University Vienna)

  • Brian G. Rector

    (Invasive Species and Pollinator Health Research Unit, US Department of Agriculture, Agricultural Research Service)

  • Christoph Rosche

    (Martin Luther University Halle-Wittenberg, Institute of Biology/Geobotany and Botanical Garden)

  • Marina Sadykova
  • Robert K. Shriver

    (University of Nevada, Department of Natural Resources and Environmental Science)

  • Alexandr Stanislavschi

    (Gheorghe Asachi Technical University of Iasi, Department of Organic Biochemical and Food Engineering)

  • Brian M. Starzomski

    (University of Victoria, School of Environmental Studies)

  • Rachel L. Stone

    (Case Western Reserve University, Department of Biology)

  • Kathryn G. Turner

    (Idaho State University, Department of Biological Sciences)

  • Alexandra K. Urza

    (Rocky Mountain Research Station, US Department of Agriculture, Forest Service)

  • Acer VanWallendael

    (North Carolina State University, Department of Horticultural Science)

  • Carl-Adam Wegenschimmel

    (Terrastory Environmental Consulting Inc.)

  • Justin Zweck

    (Pennsylvania State University, Department of Ecosystem Science and Management)

  • Cynthia S. Brown

    (Colorado State University, Department of Agricultural Biology)

  • Elizabeth A. Leger

    (University of Nevada, Department of Biology)

  • Dana M. Blumenthal

    (Rangeland Resources and Systems Research Unit, US Department of Agriculture, Agricultural Research Service)

  • Matthew J. Germino

    (Forest and Rangeland Ecosystem Science Center, US Geological Survey)

  • Lauren M. Porensky

    (Rangeland Resources and Systems Research Unit, US Department of Agriculture, Agricultural Research Service)

  • Mevin B. Hooten

    (The University of Texas at Austin, Department of Statistics and Data Sciences)

  • Peter B. Adler

    (Utah State University, Department of Wildland Resources and the Ecology Center)

  • Jesse R. Lasky

    (Pennsylvania State University, Department of Biology)

Abstract

Local adaptation may facilitate range expansion during invasions, but the mechanisms underlying successful invasions remain unclear. Cheatgrass (Bromus tectorum), native to Eurasia and Africa, has invaded globally, with severe impacts in western North America. We aim to identify mechanisms and consequences of local adaptation in the North American cheatgrass invasion. We sequence 307 range-wide genotypes and conduct controlled experiments. We find that diverse lineages invaded North America, where long-distance gene flow is common. Nearly half of North American cheatgrass comprises a mosaic of ~19 locally adapted, near-clonal genotypes, each seemingly very successful in a different part of North America. Additionally, ancestry, phenotype, and allele frequency-environment clines in the native range predict those in the invaded range, indicating pre-adapted genotypes colonized different regions. Common gardens show directional selection on flowering time that reverse between warm and cold sites, potentially maintaining clines. In the USA Great Basin, genomic predictions of strong local adaptation identify sites where cheatgrass is most dominant. Our results indicate that multiple introductions and migration within the invaded range fuel local adaptation and success of cheatgrass in western North America. Understanding how environment and gene flow shape adaptation and invasion is critical for managing ongoing invasions.

Suggested Citation

  • Diana Gamba & Megan L. Vahsen & Toby M. Maxwell & Nikki Pirtel & Seth Romero & Justin J. Van Ee & Amanda Penn & Aayudh Das & Rotem Ben-Zeev & Owen Baughman & C. Sean Blaney & Randy Bodkins & Shanta Bu, 2025. "Local adaptation to climate has facilitated the global invasion of cheatgrass," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64799-9
    DOI: 10.1038/s41467-025-64799-9
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    References listed on IDEAS

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