Population-genomic analyses reveal bottlenecks and asymmetric introgression from Persian into iron walnut during domestication

Ya Mei Ding, Yu Cao, Wei Ping Zhang, Jun Chen, Jie Liu, Pan Li, Susanne S. Renner, Da Yong Zhang, Wei Ning Bai

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18 Scopus citations

Abstract

Background: Persian walnut, Juglans regia, occurs naturally from Greece to western China, while its closest relative, the iron walnut, Juglans sigillata, is endemic in southwest China; both species are cultivated for their nuts and wood. Here, we infer their demographic histories and the time and direction of possible hybridization and introgression between them. Results: We use whole-genome resequencing data, different population-genetic approaches (PSMC and GONE), and isolation-with-migration models (IMa3) on individuals from Europe, Iran, Kazakhstan, Pakistan, and China. IMa3 analyses indicate that the two species diverged from each other by 0.85 million years ago, with unidirectional gene flow from eastern J. regia and its ancestor into J. sigillata, including the shell-thickness gene. Within J. regia, a western group, located from Europe to Iran, and an eastern group with individuals from northern China, experienced dramatically declining population sizes about 80 generations ago (roughly 2400 to 4000 years), followed by an expansion at about 40 generations, while J. sigillata had a constant population size from about 100 to 20 generations ago, followed by a rapid decline. Conclusions: Both J. regia and J. sigillata appear to have suffered sudden population declines during their domestication, suggesting that the bottleneck scenario of plant domestication may well apply in at least some perennial crop species. Introgression from introduced J. regia appears to have played a role in the domestication of J. sigillata.

Original languageEnglish
Article number145
JournalGenome biology
Volume23
Issue number1
DOIs
StatePublished - Dec 2022

Keywords

  • Domestication bottleneck
  • Introgression
  • Iron walnut
  • Persian walnut
  • Shell-thickness gene

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