群体基因组学揭示了面包小麦及其近缘种的全新世历史。

Population genomics unravels the Holocene history of bread wheat and its relatives.

作者信息

Zhao Xuebo, Guo Yafei, Kang Lipeng, Yin Changbin, Bi Aoyue, Xu Daxing, Zhang Zhiliang, Zhang Jijin, Yang Xiaohan, Xu Jun, Xu Song, Song Xinyue, Zhang Ming, Li Yiwen, Kear Philip, Wang Jing, Liu Zhiyong, Fu Xiangdong, Lu Fei

机构信息

State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Innovative Academy of Seed Design, Chinese Academy of Sciences, Beijing, China.

University of Chinese Academy of Sciences, Beijing, China.

出版信息

Nat Plants. 2023 Mar;9(3):403-419. doi: 10.1038/s41477-023-01367-3. Epub 2023 Mar 16.

DOI:10.1038/s41477-023-01367-3

PMID:36928772

Abstract

Deep knowledge of crop biodiversity is essential to improving global food security. Despite bread wheat serving as a keystone crop worldwide, the population history of bread wheat and its relatives, both cultivated and wild, remains elusive. By analysing whole-genome sequences of 795 wheat accessions, we found that bread wheat originated from the southwest coast of the Caspian Sea and underwent a slow speciation process, lasting ~3,300 yr owing to persistent gene flow from its relatives. Soon after, bread wheat spread across Eurasia and reached Europe, South Asia and East Asia ~7,000 to ~5,000 yr ago, shaping a diversified but occasionally convergent adaptive landscape in novel environments. By contrast, the cultivated relatives of bread wheat experienced a population decline by ~82% over the past ~2,000 yr due to the food choice shift of humans. Further biogeographical modelling predicted a continued population shrinking of many bread wheat relatives in the coming decades because of their vulnerability to the changing climate. These findings will guide future efforts in protecting and utilizing wheat biodiversity to enhance global wheat production.

摘要

深入了解作物生物多样性对于改善全球粮食安全至关重要。尽管面包小麦是全球的关键作物，但其与栽培种和野生种的亲缘关系的种群历史仍不清楚。通过分析795份小麦种质的全基因组序列，我们发现面包小麦起源于里海西南海岸，并经历了一个缓慢的物种形成过程，由于其亲缘种持续的基因流动，这个过程持续了约3300年。此后不久，面包小麦在欧亚大陆传播，并在约7000至5000年前到达欧洲、南亚和东亚，在新环境中形成了多样化但偶尔趋同的适应性景观。相比之下，由于人类食物选择的转变，面包小麦的栽培亲缘种在过去约2000年中经历了约82%的种群下降。进一步的生物地理模型预测，由于许多面包小麦亲缘种易受气候变化影响，在未来几十年它们的种群将持续减少。这些发现将指导未来保护和利用小麦生物多样性以提高全球小麦产量的工作。

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群体基因组学揭示了面包小麦及其近缘种的全新世历史。

Population genomics unravels the Holocene history of bread wheat and its relatives.

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