Genomic insights into the critically endangered King Island scrubtit.

IF 3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY
Ross Crates, Brenton von Takach, Catherine M Young, Dejan Stojanovic, Linda E Neaves, Liam Murphy, Daniel Gautschi, Carolyn J Hogg, Robert Heinsohn, Phil Bell, Katherine A Farquharson
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Abstract

Small, fragmented, or isolated populations are at risk of population decline due to fitness costs associated with inbreeding and genetic drift. The King Island scrubtit Acanthornis magna greeniana is a critically endangered subspecies of the nominate Tasmanian scrubtit A. m. magna, with an estimated population of <100 individuals persisting in three patches of swamp forest. The Tasmanian scrubtit is widespread in wet forests on mainland Tasmania. We sequenced the scrubtit genome using PacBio HiFi and undertook a population genomic study of the King Island and Tasmanian scrubtits using a double-digest restriction site-associated DNA (ddRAD) dataset of 5,239 SNP loci. The genome was 1.48 Gb long, comprising 1,518 contigs with an N50 of 7.715 Mb. King Island scrubtits formed one of four overall genetic clusters, but separated into three distinct subpopulations when analyzed independently of the Tasmanian scrubtit. Pairwise FST values were greater among the King Island scrubtit subpopulations than among most Tasmanian scrubtit subpopulations. Genetic diversity was lower and inbreeding coefficients were higher in the King Island scrubtit than all except one of the Tasmanian scrubtit subpopulations. We observed crown baldness in 8/15 King Island scrubtits, but 0/55 Tasmanian scrubtits. Six loci were significantly associated with baldness, including one within the DOCK11 gene which is linked to early feather development. Contemporary gene flow between King Island scrubtit subpopulations is unlikely, with further field monitoring required to quantify the fitness consequences of its small population size, low genetic diversity, and high inbreeding. Evidence-based conservation actions can then be implemented before the taxon goes extinct.

从基因组学角度了解极度濒危的国王岛恙虫病。
由于近亲繁殖和遗传漂变带来的适应成本,小规模、支离破碎或孤立的种群面临种群数量下降的风险。国王岛恙虫(Acanthornis magna greeniana)是塔斯马尼亚恙虫(A. m. magna)的一个极度濒危亚种,估计种群数量小于 100 只,仅存于三片沼泽森林中。塔斯马尼亚恙螨广泛分布于塔斯马尼亚大陆的潮湿森林中。我们使用 PacBio HiFi 对恙虫的基因组进行了测序,并使用包含 5,239 个 SNP 位点的双检测限制性位点相关 DNA(ddRAD)数据集对国王岛和塔斯马尼亚恙虫进行了种群基因组研究。基因组长 1.48 Gb,由 1,518 个等位基因组成,N50 为 7.715 Mb。国王岛恙虫形成了四个总体基因群之一,但在与塔斯马尼亚恙虫独立分析时,又分成了三个不同的亚群。与大多数塔斯马尼亚恙虫亚群相比,国王岛恙虫亚群的配对 FST 值更大。除一个塔斯马尼亚沼泽狸亚种群外,国王岛沼泽狸的遗传多样性较低,近交系数较高。我们在8/15只国王岛亚灌木鸟中观察到秃冠现象,但在0/55只塔斯马尼亚亚灌木鸟中观察到秃冠现象。有六个基因位点与秃顶有明显的相关性,其中包括一个与早期羽毛发育有关的 DOCK11 基因位点。国王岛黄雀亚种群之间不太可能发生基因流动,需要进一步的实地监测,以量化其种群规模小、遗传多样性低和近亲繁殖率高所造成的健康后果。然后,就可以在该分类群灭绝之前采取基于证据的保护行动。
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来源期刊
Journal of Heredity
Journal of Heredity 生物-遗传学
CiteScore
5.20
自引率
6.50%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Over the last 100 years, the Journal of Heredity has established and maintained a tradition of scholarly excellence in the publication of genetics research. Virtually every major figure in the field has contributed to the journal. Established in 1903, Journal of Heredity covers organismal genetics across a wide range of disciplines and taxa. Articles include such rapidly advancing fields as conservation genetics of endangered species, population structure and phylogeography, molecular evolution and speciation, molecular genetics of disease resistance in plants and animals, genetic biodiversity and relevant computer programs.
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