Lee Soo-Rang, Choi Tae-Young, Son Dong-Chan
Department of Biology Education, College of Education Chosun University Gwangju South Korea.
Division of Forest Biodiversity and Herbarium Korea National Arboretum Pocheon Korea.
Evol Appl. 2024 Jun 21;17(6):e13740. doi: 10.1111/eva.13740. eCollection 2024 Jun.
Biological invasion consists of spatially and temporally varying stages, accompanied by ecological and evolutionary changes. Understanding the genomics underlying invasion dynamics provides critical insights into the geographic sources and genetic diversity, contributing to successful invasions across space and time. Here, we used genomic data and model-based approaches to characterize the invasion dynamics of L., a noxious weed in Korea. Genetic diversity and assignment patterns were investigated using 3563 SNPs of 283 individuals sampled from 22 populations. We employed a coalescent-based simulation method to estimate demographic changes for each population and inferred colonization history using both phylogenetic and population genetic model-based approaches. Our data suggest that has been repeatedly been introduced to Korea from multiple genetic sources within the last 50 years, experiencing weak population bottlenecks followed by subsequent population expansions. These findings highlight the potential for further range expansion, particularly in the presence of human-mediated dispersal. Our study represents the first population-level genomic research documenting the invasion dynamics of the successful worldwide invader, , outside of Europe.
生物入侵由时空变化的阶段组成,伴随着生态和进化变化。了解入侵动态背后的基因组学,能为地理来源和遗传多样性提供关键见解,有助于在时空上成功入侵。在此,我们使用基因组数据和基于模型的方法来描述韩国一种有害杂草L.的入侵动态。利用从22个种群中采集的283个个体的3563个单核苷酸多态性(SNP),研究了遗传多样性和归属模式。我们采用基于溯祖理论的模拟方法来估计每个种群的人口统计学变化,并使用基于系统发育和种群遗传学模型的方法推断定殖历史。我们的数据表明,在过去50年里,L.多次从多个遗传来源被引入韩国,经历了微弱的种群瓶颈,随后种群扩张。这些发现凸显了其进一步扩大分布范围的潜力,特别是在存在人类介导扩散的情况下。我们的研究是首次在欧洲以外地区记录全球成功入侵物种L.入侵动态的种群水平基因组研究。
