在德克萨斯州加尔维斯顿岛一个具有红狼血统的郊狼种群中检测到的遗传多样性和族群。

Tanner M Barnes, Melissa Karlin, Bridgett M vonHoldt, Jennifer R Adams, Lisette P Waits, Joseph W Hinton, Josh Henderson, Kristin E Brzeski
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摘要

背景:如果基因组导入导致濒危物种独特基因组的丧失,或者杂交后代不育或体质不如亲本物种,那么杂交就会成为一个保护问题。然而,如果稀有种群近亲繁殖,遗传变异减少,而通过杂交有机会增强遗传变异,那么杂交也可以成为一种适应性管理工具。红狼(Canis rufus)是美国东部特有的一种极度濒危的狼类,现存的所有红狼都是 14 个始祖狼的后代,随着时间的推移,近亲繁殖的程度越来越高。1980 年,红狼被认为已从野外灭绝,但在它们消失之前,它们与入侵的郊狼杂交,在德克萨斯州和路易斯安那州沿海地区形成了一个基因混杂的犬科动物种群。2018 年,一项基因研究在德克萨斯州加尔维斯顿岛上发现了具有大量红狼血统的个体。我们从加尔维斯顿收集了 203 份粪便样本,对这一种群进行了更深入的分析,以确定红狼祖先的数量以及支持红狼祖先保留在景观上的潜在机制:我们在加尔维斯顿岛和得克萨斯州大陆分别发现了 24 只和 8 只具有 10% 以上红狼血统的郊狼个体。其中来自德克萨斯州大陆的两只个体的红狼血统估计超过 50%。此外,这个种群有 5 个私有等位基因在本研究中使用的北美参考犬科动物种群中不存在,这些种群包括 107 只东南部郊狼、19 只圈养红狼和 38 只灰狼,可能代表了丢失的红狼遗传变异。我们还在加尔维斯顿岛和得克萨斯州大陆发现了几个个体,它们保留了红狼创始种群中独特的红狼线粒体单倍型。在加尔维斯顿岛上,我们至少发现了四个家族群体,并发现岛上的郊狼亲缘关系很强,但在基因上并不贫乏。我们没有发现红狼祖先估计值与景观特征(如开放绿地或发达地区)之间有明显的关联:我们的研究结果证实,在加尔维斯顿岛和邻近的得克萨斯州大陆上仍然存在大量的红狼祖先。该种群有可能通过新的繁殖技术和可能的去野化策略,为未来的红狼保护工作带来益处,从而达到恢复已灭绝的红狼遗传变异和减少该物种近亲繁殖的目的。
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Genetic diversity and family groups detected in a coyote population with red wolf ancestry on Galveston Island, Texas.

Background: Hybridization can be a conservation concern if genomic introgression leads to the loss of an endangered species' unique genome, or when hybrid offspring are sterile or less fit than their parental species. Yet hybridization can also be an adaptive management tool if rare populations are inbred and have reduced genetic variation, and there is the opportunity to enhance genetic variation through hybridization. The red wolf (Canis rufus) is a critically endangered wolf endemic to the eastern United States, where all extant red wolves are descended from 14 founders which has led to elevated levels of inbreeding over time. Red wolves were considered extirpated from the wild by 1980, but before they disappeared, they interbred with encroaching coyotes creating a genetically admixed population of canids along coastal Texas and Louisiana. In 2018, a genetic study identified individuals on Galveston Island, Texas with significant amounts of red wolf ancestry. We collected 203 fecal samples from Galveston for a more in-depth analysis of this population to identify the amount of red wolf ancestry present and potential mechanisms that support retention of red wolf ancestry on the landscape.

Results: We identified 24 individual coyotes from Galveston Island and 8 from mainland Texas with greater than 10% red wolf ancestry. Two of those individuals from mainland Texas had greater than 50% red wolf ancestry estimates. Additionally, this population had 5 private alleles that were absent in the North American reference canid populations used in this study, which included 107 southeastern coyotes, 19 captive red wolves, and 38 gray wolves, possibly representing lost red wolf genetic variation. We also identified several individuals on Galveston Island and the mainland of Texas that retained a unique red wolf mitochondrial haplotype present in the red wolf founding population. On Galveston Island, we identified a minimum of four family groups and found coyotes on the island to be highly related, but not genetically depauperate. We did not find clear associations between red wolf ancestry estimates and landscape features, such as open green space or developed areas.

Conclusion: Our results confirm the presence of substantial red wolf ancestry persisting on Galveston Island and adjacent mainland Texas. This population has the potential to benefit future red wolf conservation efforts through novel reproductive techniques and possibly through de-introgression strategies, with the goals of recovering extinct red wolf genetic variation and reducing inbreeding within the species.

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