繁殖模式和自接合性将黄石国家公园的繁殖灰狼与非繁殖灰狼区分开来。

IF 3 2区 生物学 Q2 EVOLUTIONARY BIOLOGY
Bridgett M vonHoldt, Alexandra L DeCandia, Kira A Cassidy, Erin E Stahler, Janet S Sinsheimer, Douglas W Smith, Daniel R Stahler
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引用次数: 0

摘要

对于管理关注的物种,准确估计近亲繁殖及其对繁殖的相关影响对于预测其未来的生存能力至关重要。然而,很少有研究将遗传活力的这一方面与群居哺乳动物的繁殖联系起来。我们调查了基础种群谱系的贡献、近亲繁殖的假定适应度后果,以及黄石国家公园灰狼种群繁殖与非繁殖部分的遗传多样性。自重新引入以来,我们的数据集跨越了25年零7代,包括152个核心家庭和329窝。我们发现,超过87%的谱系基础基因组持续存在,并报告了来自蒙大拿州不同来源的两只易位狼的等位基因多样性的流入。正如对群体生活物种所预期的那样,平均亲缘关系随着时间的推移显著增加,但观察到的杂合性损失最小。引人注目的是,与非繁殖群体相比,该群体的繁殖部分具有显著较低的全基因组近亲繁殖系数、自合性和更快速的连锁不平衡衰退。与非繁殖狼相比,繁殖狼的寿命明显更长,近亲繁殖系数更低。我们的模型显示,窝数与杂合性呈负相关(R=-0.11)。我们的研究结果强调了遗传对健康的贡献,以及种群中繁殖活跃个体对抵消野生自由放养的社会食肉动物遗传变异损失的重要性。对于管理者来说,缓解显著降低有效种群规模和遗传连通性的因素至关重要,这有助于遗传变异的分散,从而有助于对环境挑战做出快速进化反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Patterns of reproduction and autozygosity distinguish the breeding from nonbreeding gray wolves of Yellowstone National Park.

For species of management concern, accurate estimates of inbreeding and associated consequences on reproduction are crucial for predicting their future viability. However, few studies have partitioned this aspect of genetic viability with respect to reproduction in a group-living social mammal. We investigated the contributions of foundation stock lineages, putative fitness consequences of inbreeding, and genetic diversity of the breeding versus nonreproductive segment of the Yellowstone National Park gray wolf population. Our dataset spans 25 years and seven generations since reintroduction, encompassing 152 nuclear families and 329 litters. We found more than 87% of the pedigree foundation genomes persisted and report influxes of allelic diversity from two translocated wolves from a divergent source in Montana. As expected for group-living species, mean kinship significantly increased over time but with minimal loss of observed heterozygosity. Strikingly, the reproductive portion of the population carried a significantly lower genome-wide inbreeding coefficients, autozygosity, and more rapid decay for linkage disequilibrium relative to the nonbreeding population. Breeding wolves had significantly longer lifespans and lower inbreeding coefficients than nonbreeding wolves. Our model revealed that the number of litters was negatively significantly associated with heterozygosity (R = -0.11). Our findings highlight genetic contributions to fitness, and the importance of the reproductively active individuals in a population to counteract loss of genetic variation in a wild, free-ranging social carnivore. It is crucial for managers to mitigate factors that significantly reduce effective population size and genetic connectivity, which supports the dispersion of genetic variation that aids in rapid evolutionary responses to environmental challenges.

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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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