Jeon Jong Yoon, Black Andrew N, Heenkenda Erangi J, Mularo Andrew J, Lamka Gina F, Janjua Safia, Brüniche-Olsen Anna, Bickham John W, Willoughby Janna R, DeWoody J Andrew
Department of Forestry and Natural Resources Purdue University West Lafayette Indiana USA.
Western Association of Fish and Wildlife Agencies Boise Idaho USA.
Evol Appl. 2024 Sep 10;17(9):e70000. doi: 10.1111/eva.70000. eCollection 2024 Sep.
Many international, national, state, and local organizations prioritize the ranking of threatened and endangered species to help direct conservation efforts. For example, the International Union for Conservation of Nature (IUCN) assesses the Green Status of species and publishes the influential Red List of threatened species. Unfortunately, such conservation yardsticks do not explicitly consider genetic or genomic diversity (GD), even though GD is positively associated with contemporary evolutionary fitness, individual viability, and with future evolutionary potential. To test whether populations of genome sequences could help improve conservation assessments, we estimated GD metrics from 82 publicly available mammalian datasets and examined their statistical association with attributes related to conservation. We also considered intrinsic biological factors, including trophic level and body mass, that could impact GD and quantified their relative influences. Our results identify key population GD metrics that are both reflective and predictive of IUCN conservation categories. Specifically, our analyses revealed that Watterson's theta (the population mutation rate) and autozygosity (a product of inbreeding) are associated with the current Red List categorization, likely because demographic declines that lead to "listing" decisions also reduce levels of standing genetic variation. We argue that by virtue of this relationship, conservation organizations like IUCN could leverage emerging genome sequence data to help categorize Red List threat rankings (especially in otherwise data-deficient species) and/or enhance Green Status assessments to establish a baseline for future population monitoring. Thus, our paper (1) outlines the theoretical and empirical justification for a new GD-based assessment criterion, (2) provides a bioinformatic pipeline for estimating GD from population genomic data, and (3) suggests an analytical framework that can be used to measure baseline GD while providing quantitative GD context for consideration by conservation authorities.
许多国际、国家、州和地方组织将受威胁和濒危物种的排名作为优先事项,以帮助指导保护工作。例如,国际自然保护联盟(IUCN)评估物种的绿色状态,并发布具有影响力的濒危物种红色名录。不幸的是,尽管遗传或基因组多样性(GD)与当代进化适应性、个体生存能力以及未来进化潜力呈正相关,但此类保护标准并未明确考虑遗传或基因组多样性。为了测试基因组序列群体是否有助于改进保护评估,我们从82个公开可用的哺乳动物数据集中估计了GD指标,并检查了它们与保护相关属性的统计关联。我们还考虑了可能影响GD的内在生物学因素,包括营养级和体重,并量化了它们的相对影响。我们的结果确定了关键的群体GD指标,这些指标既反映又预测了IUCN保护类别。具体而言,我们的分析表明,沃特森氏θ(群体突变率)和纯合度(近亲繁殖的产物)与当前的红色名录分类相关,这可能是因为导致“列入名录”决定的种群数量下降也会降低现有遗传变异水平。我们认为,凭借这种关系,像IUCN这样的保护组织可以利用新兴的基因组序列数据来帮助对红色名录威胁排名进行分类(特别是在其他数据缺乏的物种中)和/或加强绿色状态评估,以建立未来种群监测的基线。因此,我们的论文(1)概述了基于GD的新评估标准的理论和实证依据,(2)提供了一个从群体基因组数据估计GD的生物信息管道,(3)提出了一个分析框架,可用于测量基线GD,同时为保护当局提供定量的GD背景以供考虑。
