物种划分与榛属种间杂交历史。
Species delimitation and hybridization history of a hazel species complex.
机构信息
State Key Laboratory of Grassland Agro-Ecosystem, Institute of Innovation Ecology & School of Life Sciences, Lanzhou University, Lanzhou, Gansu, China.
CAS Key Laboratory of Tropical Forest Ecology, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Mengla, Yunnan, China.
出版信息
Ann Bot. 2021 Jun 24;127(7):875-886. doi: 10.1093/aob/mcab015.
BACKGROUND AND AIMS
Hybridization increases species adaptation and biodiversity but also obscures species boundaries. In this study, species delimitation and hybridization history were examined within one Chinese hazel species complex (Corylus chinensis-Corylus fargesii). Two species including four varieties have already been described for this complex, with overlapping distributions.
METHODS
A total of 322 trees from 44 populations of these four varieties across their ranges were sampled for morphological and molecular analyses. Climatic datasets based on 108 geographical locations were used to evaluate their niche differentiations. Flowering phenology was also observed for two co-occurring species or varieties.
KEY RESULTS
Four statistically different phenotypic clusters were revealed, but these clusters were highly inconsistent with the traditional taxonomic groups. All the clusters showed statistically distinct niches, with complete or partial geographical isolation. Only two clusters displayed a distributional overlap, but they had distinct flowering phenologies at the site where they co-occurred. Population-level evidence based on the genotypes of ten simple sequence repeat loci supported four phenotypic clusters. In addition, one cluster was shown to have an admixed genetic composition derived from the other three clusters through repeated historical hybridizations.
CONCLUSIONS
Based on our new evidence, it is better to treat the four clusters identified here as four independent species. One of them was shown to have an admixed genetic composition derived from the other three through repeated historical hybridizations. This study highlights the importance of applying integrative and statistical methods to infer species delimitations and hybridization history. Such a protocol should be adopted widely for future taxonomic studies.
背景与目的
杂交会增加物种的适应性和生物多样性,但也会模糊物种界限。在这项研究中,我们对中国榛属(Corylus chinensis-Corylus fargesii)的一个物种复合体进行了物种划分和杂交历史的研究。该复合体已经描述了包括四个变种在内的两个物种,它们的分布范围重叠。
方法
我们对来自四个变种的 44 个种群的 322 棵树进行了形态和分子分析。基于 108 个地理位置的气候数据集用于评估它们的生态位分化。还观察了两个共现物种或变种的开花物候。
主要结果
揭示了四个在统计学上有显著差异的表型聚类,但这些聚类与传统的分类群高度不一致。所有聚类都显示出统计学上明显不同的生态位,具有完全或部分地理隔离。只有两个聚类显示出分布上的重叠,但它们在共现的地点具有明显不同的开花物候。基于十个简单序列重复(SSR)基因座基因型的群体水平证据支持了四个表型聚类。此外,一个聚类显示出由其他三个聚类通过反复的历史杂交产生的混合遗传组成。
结论
基于我们的新证据,最好将这里确定的四个聚类视为四个独立的物种。其中一个聚类显示出由其他三个聚类通过反复的历史杂交产生的混合遗传组成。这项研究强调了应用综合和统计方法推断物种界限和杂交历史的重要性。这种方案应该在未来的分类学研究中广泛采用。
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