Harnessing landrace diversity empowers wheat breeding.
Shifeng ChengCong FengLuzie U WingenHong ChengAndrew B RicheMei JiangMichelle Leverington-WaiteZejian HuangSarah CollierSimon OrfordXiaoming WangRajani AwalGary BarkerTom O'HaraClare ListerAjay SiluveruJesús Quiroz-ChávezRicardo Humberto Ramirez-GonzalezRuth BryantSimon BerryUrmil BansalHarbans S BarianaMalcolm J BennettBreno BicegoLorelei BilhamJames K M BrownAmanda J BurridgeChris BurtMilika BuurmanMarch CastleLaetitia ChartrainBaizhi ChenWorku DenbelAhmed F ElkotPaul FenwickDavid FeuerhelmJohn FoulkesOorbessy GajuAdam GauleyKumar GauravAmber N HafeezRuirui HanRichard HorlerJunliang HouMuhammad Shahid IqbalMatthew KertonAnkica Kondić ŠpikaAnia KowalskiJacob LageXiaolong LiHongbing LiuShiyan LiuAlison LovegroveLingling MaCathy MumfordSaroj ParmarCharlie PhilpDarryl PlayfordAlexandra M Przewieslik-AllenZareen SarfrazDavid SchaferPeter R ShewryYan ShiGustavo Ariel SlaferBaoxing SongBo SongDavid SteeleBurkhard SteuernagelPhillip TailbySimon TyrrellAbdul WaheedMercy N WamalwaXingwei WangYanping WeiMark WinfieldShishi WuYubing WuBrande B H WulffWenfei XianYawen XuYunfeng XuQuan YuanXin ZhangKeith J EdwardsLaura E DixonPaul NicholsonNoam ChayutMalcolm John HawkesfordCristobal UauyDale SandersSanwen HuangSimon GriffithsPublished in: Nature (2024)
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.
Keyphrases