Global genomic population structure of wild and cultivated oat reveals signatures of chromosome rearrangements

  1. Wubishet A. Bekele
  2. Raz Avni
  3. Clayton L. Birkett
  4. Asuka Itaya
  5. Charlene P. Wight
  6. Justin Bellavance
  7. Sophie Brodführer
  8. Francisco J. Canales
  9. Craig H. Carlson
  10. Anne Fiebig
  11. Yongle Li
  12. Steve Michel
  13. Raja Sekhar Nandety
  14. David J. Waring
  15. Juan D. Arbelaez
  16. Aaron D. Beattie
  17. Melanie Caffe
  18. Isabel A. del Blanco
  19. Jason D. Fiedler
  20. Rajeev Gupta
  21. Lucia Gutierrez
  22. John C. Harris
  23. Stephen A. Harrison
  24. Matthias H. Herrmann
  25. Yung-Fen Huang
  26. Julio Isidro y Sanchez
  27. Michael S. McMullen
  28. Jennifer W. Mitchell Fetch
  29. Kirby T. Nilsen
  30. Isobel A. P. Parkin
  31. YuanYing Peng
  32. Kevin P. Smith
  33. Tim Sutton
  34. Weikai Yan
  35. Pamela Zwer
  36. Axel Diederichsen
  37. Kathy Esvelt Klos
  38. Yong-Bi Fu
  39. Catherine J. Howarth
  40. Jean-Luc Jannink
  41. Eric N. Jellen
  42. Tim Langdon
  43. Peter J. Maughan
  44. Edyta Paczos-Grzeda
  45. Elena Prats
  46. Taner Z. Sen
  47. Martin Mascher
  48. Nicholas A. Tinker
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Abstract

The genus Avena consists of approximately 30 wild and cultivated oat species. Cultivated oat is an important food crop, yet the broader genetic diversity within the Avena gene pool remains underexplored and underexploited. We characterized over 9,000 wild and cultivated hexaploid oat accessions of global origin using genotyping-by-sequencing. We explored population structure using multidimensional scaling and population-based clustering methods. We also conducted analyses to reveal chromosome regions associated with local adaptation, sometimes resulting from large scale chromosome rearrangements. Here, we report four distinct genetic populations within the wild species A. sterilis, a distinct population of cultivated A. byzantina, and multiple populations within cultivated A. sativa. Some chromosome regions associated with local adaptation are also associated with confirmed structural rearrangements on chromosomes 1A, 1C, 3C, 4C, and 7D. This work provides evidence suggesting multiple polyploid origins, multiple domestications, and/or reproductive barriers amongst Avena populations caused by differential chromosome structure.

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