Local adaptation to climate facilitates a global invasion

  1. Diana Gamba
  2. Megan L. Vahsen
  3. Toby M. Maxwell
  4. Nikki Pirtel
  5. Seth Romero
  6. Justin J. Van Ee
  7. Amanda Penn
  8. Aayudh Das
  9. Rotem Ben-Zeev
  10. Owen Baughman
  11. C. Sean Blaney
  12. Randy Bodkins
  13. Shanta Budha-Magar
  14. Stella M. Copeland
  15. Shannon L. Davis-Foust
  16. Alvin Diamond
  17. Ryan C. Donnelly
  18. Peter W. Dunwiddie
  19. David J. Ensing
  20. Thomas A. Everest
  21. Holly Hoitink
  22. Martin C. Holdrege
  23. Ruth A. Hufbauer
  24. Sigitas Juzėnas
  25. Jesse M. Kalwij
  26. Ekaterina Kashirina
  27. Sangtae Kim
  28. Marcin Klisz
  29. Alina Klyueva
  30. Michel Langeveld
  31. Samuel Lutfy
  32. Daniel Martin
  33. Christopher L. Merkord
  34. John W. Morgan
  35. Dávid U. Nagy
  36. Jacqueline P. Ott
  37. Radoslaw Puchalka
  38. Lysandra A. Pyle
  39. Leonid Rasran
  40. Brian G. Rector
  41. Christoph Rosche
  42. Marina Sadykova
  43. Robert K. Shriver
  44. Alexandr Stanislavschi
  45. Brian M. Starzomski
  46. Rachel L. Stone
  47. Kathryn G. Turner
  48. Alexandra K. Urza
  49. Acer VanWallendael
  50. Carl-Adam Wegenschimmel
  51. Justin Zweck
  52. Cynthia S. Brown
  53. Elizabeth A. Leger
  54. Dana M. Blumenthal
  55. Matthew J. Germino
  56. Lauren M. Porensky
  57. Mevin B. Hooten
  58. Peter B. Adler
  59. Jesse R. Lasky
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Abstract

Local adaptation may facilitate range expansion during invasions, but the mechanisms promoting destructive invasions remain unclear. Cheatgrass ( Bromus tectorum ), native to Eurasia and Africa, has invaded globally, with particularly severe impacts in western North America. We sequenced 307 genotypes and conducted controlled experiments. We found that diverse lineages invaded North America, where long-distance gene flow is common. Ancestry and phenotypic clines in the native range predicted those in the invaded range, indicating pre-adapted genotypes colonized different regions. Common gardens showed directional selection on flowering time that reversed between warm and cold sites, potentially maintaining clines. In the Great Basin, genomic predictions of strong local adaptation identified sites where cheatgrass is most dominant. Preventing new introductions that may fuel adaptation is critical for managing ongoing invasions.

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  1. Version published to 10.1101/2024.09.12.612725v1 on bioRxiv