Laura Tensen, Arsalan Emami-Khoyi, Anubhab Khan, Gerrie Camacho, Lourens Swanepoel, Klaus Fischer
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引用次数: 0
Abstract
Revealing phylogeographic structure is important for accurate subspecies delineation and understanding a species’ evolutionary history. In leopards (Panthera pardus), there are currently nine subspecies recognized. On the African continent, only one subspecies occurs (P. p. pardus), although mitochondrial DNA from historical samples suggests the presence of three putative continental clades: (1) West Africa (WA), (2) Central Africa (CA), and (3) Southern Africa (SA). So far, whole genome data did not recover this phylogeographic structure, although leopards in the southern periphery of their distribution range in Africa have not yet been investigated in detail. The Mpumalanga province of South Africa is of particular interest, as here, the CA and the SA clade possibly meet. The aim of this study was to characterize the first mitogenomes of African leopards from Mpumalanga, to help clarifying how South African leopards fit into continental patterns of genetic differentiation. Complete mitogenomes from nine leopards, including a strawberry leopard, were assembled de novo and included in phylogenetic analysis, in combination with 32 publicly available mitogenomes. Bayesian inference and maximum likelihood analyses identified two deeply diverged putative clades within South Africa, which were more genetically distinct than two subspecies in Asia. The clades dated back to 0.76-0.86 million years ago, indicating that they originated during the climatically unstable Mid-Pleistocene, as seen in other large mammals. The Pleistocene refuge theory states that the maintenance of savanna refugia in East and Southern Africa promoted the divergence between populations. As such, leopards may reflect the unique climatic history of southern Africa, which has resulted in eminent and endemic genetic diversity.
揭示系统地理结构对于准确划分亚种和了解物种进化史非常重要。豹(Panthera pardus)目前有九个亚种。在非洲大陆,只有一个亚种(P. p. pardus),尽管从历史样本中提取的线粒体 DNA 表明存在三个假定的大陆支系:(1)西非支系(WA)、(2)中非支系(CA)和(3)南部非洲支系(SA)。到目前为止,全基因组数据并没有恢复这种系统地理结构,尽管尚未对非洲豹分布区南部外围进行详细调查。南非姆普马兰加省尤其值得关注,因为在这里,CA 支系和 SA 支系可能会相遇。这项研究的目的是鉴定姆普马兰加省非洲豹的第一个有丝分裂基因组,以帮助阐明南非豹如何融入非洲大陆的遗传分化模式。研究人员从新组装了九只豹子(包括一只草莓豹)的完整有丝分裂基因组,并将其与 32 个公开的有丝分裂基因组结合起来进行系统发育分析。贝叶斯推断和最大似然法分析确定了南非境内两个深度分化的假定支系,它们在遗传学上比亚洲的两个亚种更加不同。这两个支系的年代可追溯到 76 万年前至 86 万年前,表明它们起源于气候不稳定的更新世中期,其他大型哺乳动物也是如此。更新世避难所理论认为,东非和南部非洲稀树草原避难所的维持促进了种群之间的分化。因此,豹子可能反映了南部非洲独特的气候历史,从而产生了突出的地方性遗传多样性。
期刊介绍:
The Journal of Zoological Systematics and Evolutionary Research (JZSER)is a peer-reviewed, international forum for publication of high-quality research on systematic zoology and evolutionary biology. The aim of the journal is to provoke a synthesis of results from morphology, physiology, animal geography, ecology, ethology, evolutionary genetics, population genetics, developmental biology and molecular biology. Besides empirical papers, theoretical contributions and review articles are welcome. Integrative and interdisciplinary contributions are particularly preferred. Purely taxonomic and predominantly cytogenetic manuscripts will not be accepted except in rare cases, and then only at the Editor-in-Chief''s discretion. The same is true for phylogenetic studies based solely on mitochondrial marker sequences without any additional methodological approach. To encourage scientific exchange and discussions, authors are invited to send critical comments on previously published articles. Only papers in English language are accepted.