生物
分类交配
濒危物种
进化生物学
交配
遗传变异
遗传谱系
消光(光学矿物学)
破坏性选择
生态学
动物
遗传多样性
极度濒危
遗传算法
保护遗传学
群体遗传学
选择(遗传算法)
遗传漂变
遗传结构
创始人效应
自然选择
生物扩散
遗传变异
平衡选择
适应(眼睛)
变化(天文学)
择偶
基因库
人口规模小
作者
Bridgett M vonHoldt,India Macaire,Kristin E. Brzeski
标识
DOI:10.1093/jhered/esag010
摘要
Admixed genomes, particularly those with an evolutionary history of genetic exchange with an endangered or extinct species, are valued for innovative and unconventional conservation actions. Here, we show the substantial conservation value that the admixed canids of the Gulf Coast have as they retain high amounts of contemporary Red Wolf ancestry and unique genetic variation of past Red Wolf lineages (e.g., ghost ancestry). We analyzed 54,439 loci genotyped across the genome of 413 North American canids and investigated the role that assortative mating with respect to ancestry proportions played in the retention of endangered genetic variation. We report high correlations of inter-chromosomal ancestry proportions that varied with geographic location along Texas and Louisiana Gulf Coast populations, with the stronger signatures reported in the latter. We found that models of assortative mating promoted greater ancestry variance compared to random mating leading to increased efficiency of selection for Red Wolf and ghost alleles. Despite the Red Wolf being extinct in the wild, original and ghost genomic variation persists in Gulf Coast admixed canids. We suggest two conservation strategies that value and preserve this unique and endangered genomic variation through designed breeding programs. Ultimately the incorporation of this ghost genetic variation would be valuable to boost the genetic viability of the ex situ Red Wolf breeding program, create in situ redundancy, and avoid extinction for this endemic American wolf species.
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