Harnessing landrace diversity empowers wheat breeding

Shifeng Cheng; Cong Feng; Luzie U. Wingen; Hong Cheng; A. B. Riche; Mei Jiang; Michelle Leverington‐Waite; Zejian Huang; Sarah A. Collier; Simon Orford; Xiaoming Wang; Rajani Awal; Gary Barker; Tom O’Hara; Clare Lister; Ajay Siluveru; Jesús Quiroz-Chávez; Ricardo H. Ramírez-González; Ruth Bryant; Simon Berry; Urmil Bansal; Harbans Bariana; Malcolm J. Bennett; Breno Bicego; Lorelei Bilham; James K. M. Brown; Amanda Burridge; Chris Burt; M. Buurman; March Castle; Laëtitia Chartrain; Baizhi Chen; Worku Denbel; Ahmed F. Elkot; Paul Fenwick; David Feuerhelm; J. Foulkes; Oorbessy Gaju; Adam Gauley; Kumar Gaurav; Amber N. Hafeez; Ruirui Han; Richard Horler; Junliang Hou; Muhammad Shahid Iqbal; Matthew Kerton; Ankica Kondic-Spica; Ania Kowalski; Jacob Lage; Xiaolong Li; Hongbing Liu; Shiyan Liu; Alison Lovegrove; Lingling Ma; Cathy Mumford; S. Parmar; Charlie Philp; Darryl Playford; Alexandra M. Przewieslik‐Allen; Zareen Sarfraz; David Schäfer; Peter R. Shewry; Yan Shi; Gustavo A. Slafer; Baoxing Song; Bo Song; David Steele; Burkhard Steuernagel; Phillip Tailby; Simon Tyrrell; Abdul Waheed; Mercy N. Wamalwa; Xingwei Wang; Yanping Wei; Mark Winfield; Shishi Wu; Yubing Wu; Brande B. H. Wulff; Wenfei Xian; Yawen Xu; Yunfeng Xu; Quan Yuan; X. Y. Zhang; Keith J. Edwards; Laura E. Dixon; P. Nicholson; Noam Chayut; Malcolm J. Hawkesford; Cristóbal Uauy; Dale Sanders; Sanwen Huang; Simon Griffiths

doi:10.1038/s41586-024-07682-9

Harnessing landrace diversity empowers wheat breeding

Shifeng Cheng(Agricultural Genomics Institute at Shenzhen), Cong Feng(Agricultural Genomics Institute at Shenzhen), Luzie U. Wingen(John Innes Centre), Hong Cheng(Agricultural Genomics Institute at Shenzhen), A. B. Riche(Rothamsted Research), Mei Jiang(Agricultural Genomics Institute at Shenzhen), Michelle Leverington‐Waite(John Innes Centre), Zejian Huang(Agricultural Genomics Institute at Shenzhen), Sarah A. Collier(John Innes Centre), Simon Orford(John Innes Centre), Xiaoming Wang(John Innes Centre), Rajani Awal(John Innes Centre), Gary Barker(University of Bristol), Tom O’Hara(John Innes Centre), Clare Lister(John Innes Centre), Ajay Siluveru(John Innes Centre), Jesús Quiroz-Chávez(John Innes Centre), Ricardo H. Ramírez-González(John Innes Centre), Ruth Bryant(Saffron Walden Museum), Simon Berry(Limagrain (United Kingdom)), Urmil Bansal(The University of Sydney), Harbans Bariana(The University of Sydney), Malcolm J. Bennett(University of Nottingham), Breno Bicego(Universitat de Lleida), Lorelei Bilham(John Innes Centre), James K. M. Brown(John Innes Centre), Amanda Burridge(University of Bristol), Chris Burt(Saffron Walden Museum), M. Buurman(Elsoms (United Kingdom)), March Castle(Rothamsted Research), Laëtitia Chartrain(John Innes Centre), Baizhi Chen(Agricultural Genomics Institute at Shenzhen), Worku Denbel(Ethiopian Institute of Agricultural Research), Ahmed F. Elkot(Agricultural Research Center), Paul Fenwick(Limagrain (United Kingdom)), David Feuerhelm(Syngenta (United Kingdom)), J. Foulkes(University of Nottingham), Oorbessy Gaju(University of Nottingham), Adam Gauley(University of Leeds), Kumar Gaurav(John Innes Centre), Amber N. Hafeez(John Innes Centre), Ruirui Han(Qingdao Agricultural University), Richard Horler(John Innes Centre), Junliang Hou(Agricultural Genomics Institute at Shenzhen), Muhammad Shahid Iqbal(Agricultural Genomics Institute at Shenzhen), Matthew Kerton(Prodrive (United Kingdom)), Ankica Kondic-Spica(Institute of Field and Vegetable Crops), Ania Kowalski(John Innes Centre), Jacob Lage(Royston Hospital), Xiaolong Li(Ministry of Agriculture and Rural Affairs), Hongbing Liu(Agricultural Genomics Institute at Shenzhen), Shiyan Liu(Agricultural Genomics Institute at Shenzhen), Alison Lovegrove(Rothamsted Research), Lingling Ma(Agricultural Genomics Institute at Shenzhen), Cathy Mumford(John Innes Centre), S. Parmar(Rothamsted Research), Charlie Philp(John Innes Centre), Darryl Playford(John Innes Centre), Alexandra M. Przewieslik‐Allen(University of Bristol), Zareen Sarfraz(Agricultural Genomics Institute at Shenzhen), David Schäfer(Saffron Walden Museum), Peter R. Shewry(Rothamsted Research), Yan Shi(Agricultural Genomics Institute at Shenzhen), Gustavo A. Slafer(Institució Catalana de Recerca i Estudis Avançats), Baoxing Song(Agricultural Genomics Institute at Shenzhen), Bo Song(Agricultural Genomics Institute at Shenzhen), David Steele(Rothamsted Research), Burkhard Steuernagel(John Innes Centre), Phillip Tailby(Limagrain (United Kingdom)), Simon Tyrrell(Norwich Research Park), Abdul Waheed(Agricultural Genomics Institute at Shenzhen), Mercy N. Wamalwa(Egerton University), Xingwei Wang(John Innes Centre), Yanping Wei(Agricultural Genomics Institute at Shenzhen), Mark Winfield(University of Bristol), Shishi Wu(Agricultural Genomics Institute at Shenzhen), Yubing Wu(Huazhong Agricultural University), Brande B. H. Wulff(John Innes Centre), Wenfei Xian(Agricultural Genomics Institute at Shenzhen), Yawen Xu(Huazhong Agricultural University), Yunfeng Xu(Huazhong Agricultural University), Quan Yuan(Agricultural Genomics Institute at Shenzhen), X. Y. Zhang(Huazhong Agricultural University), Keith J. Edwards(University of Bristol), Laura E. Dixon(University of Leeds), P. Nicholson(John Innes Centre), Noam Chayut(John Innes Centre), Malcolm J. Hawkesford(Rothamsted Research), Cristóbal Uauy(John Innes Centre), Dale Sanders(John Innes Centre), Sanwen Huang(Chinese Academy of Tropical Agricultural Sciences), Simon Griffiths(John Innes Centre)

Nature

June 17, 2024

10.1038/s41586-024-07682-9

Cited by 136Open Access

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Abstract

Abstract Harnessing genetic diversity in major staple crops through the development of new breeding capabilities is essential to ensure food security 1 . Here we examined the genetic and phenotypic diversity of the A. E. Watkins landrace collection 2 of bread wheat ( Triticum aestivum ), a major global cereal, by whole-genome re-sequencing of 827 Watkins landraces and 208 modern cultivars and in-depth field evaluation spanning a decade. We found that modern cultivars are derived from two of the seven ancestral groups of wheat and maintain very long-range haplotype integrity. The remaining five groups represent untapped genetic sources, providing access to landrace-specific alleles and haplotypes for breeding. Linkage disequilibrium-based haplotypes and association genetics analyses link Watkins genomes to the thousands of identified high-resolution quantitative trait loci and significant marker–trait associations. Using these structured germplasm, genotyping and informatics resources, we revealed many Watkins-unique beneficial haplotypes that can confer superior traits in modern wheat. Furthermore, we assessed the phenotypic effects of 44,338 Watkins-unique haplotypes, introgressed from 143 prioritized quantitative trait loci in the context of modern cultivars, bridging the gap between landrace diversity and current breeding. This study establishes a framework for systematically utilizing genetic diversity in crop improvement to achieve sustainable food security.

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