John M Mola, Ian S Pearse, Michelle L Boone, Elaine Evans, Mark J Hepner, Robert P Jean, Jade M Kochanski, Cale Nordmeyer, Erik Runquist, Tamara A Smith, James P Strange, Jay Watson, Jonathan B U Koch
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Additionally, we conducted a site-level analysis of colony abundance to inform prioritizing areas for conservation, translocation, and other recovery actions. We find substantial evidence of population structuring along an east-to-west gradient. Putative populations show evidence of isolation by distance, high inbreeding coefficients, and a range-wide male diploidy rate of ~15%. Our results suggest the Appalachians represent a genetically distinct cluster with high levels of private alleles and substantial differentiation from the rest of the extant range. Site-level analyses suggest low colony abundance estimates for B. affinis compared to similar datasets of stable, co-occurring species. These results lend genetic support to trends from observational studies, suggesting that B. affinis has undergone a recent decline and exhibit substantial spatial structure. The low colony abundances observed here suggest caution in overinterpreting the stability of populations even where B. affinis is reliably detected interannually. 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Site-level analyses suggest low colony abundance estimates for B. affinis compared to similar datasets of stable, co-occurring species. These results lend genetic support to trends from observational studies, suggesting that B. affinis has undergone a recent decline and exhibit substantial spatial structure. The low colony abundances observed here suggest caution in overinterpreting the stability of populations even where B. affinis is reliably detected interannually. 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引用次数: 0
摘要
大黄蜂物种范围和数量的减少在多个大洲都有记录,这促使人们需要开展研究,以帮助物种恢复和保护。锈斑大黄蜂(Bombus affinis)是北美第一个被联邦列入名录的大黄蜂物种。我们对所有现存保护单位的锈斑大黄蜂进行了全区种群遗传学研究,为保护工作提供信息。为了了解该物种的脆弱性并帮助确定恢复目标,我们研究了种群结构、遗传多样性模式和种群分化。此外,我们还对群落丰度进行了地点级分析,为确定保护、迁移和其他恢复行动的优先区域提供信息。我们发现有大量证据表明,该物种的种群结构沿着从东到西的梯度分布。推定种群显示出距离隔离、高近交系数和整个分布区约 15% 的雄性二倍体率。我们的研究结果表明,阿巴拉契亚山脉代表了一个遗传上独特的群落,具有高水平的私有等位基因,并与现存分布区的其他地方有很大差异。地点水平分析表明,与类似的稳定共存物种数据集相比,B. affinis的群落丰度估计值较低。这些结果为观察研究的趋势提供了遗传学支持,表明 B. affinis 最近经历了衰退,并表现出很大的空间结构。这里观察到的低群落丰度表明,即使在每年间都能可靠地检测到 B. affinis 的情况下,也要小心谨慎地过度解读种群的稳定性。这些结果有助于划定明智的管理单位,为迁移计划的潜在风险提供背景资料,并有助于为该物种和其他濒危熊蜂物种设定明确的恢复目标。
Range-wide genetic analysis of an endangered bumble bee (Bombus affinis, Hymenoptera: Apidae) reveals population structure, isolation by distance, and low colony abundance
Declines in bumble bee species range and abundances are documented across multiple continents and have prompted the need for research to aid species recovery and conservation. The rusty patched bumble bee (Bombus affinis) is the first federally listed bumble bee species in North America. We conducted a range-wide population genetics study of B. affinis from across all extant conservation units to inform conservation efforts. To understand the species’ vulnerability and help establish recovery targets, we examined population structure, patterns of genetic diversity, and population differentiation. Additionally, we conducted a site-level analysis of colony abundance to inform prioritizing areas for conservation, translocation, and other recovery actions. We find substantial evidence of population structuring along an east-to-west gradient. Putative populations show evidence of isolation by distance, high inbreeding coefficients, and a range-wide male diploidy rate of ~15%. Our results suggest the Appalachians represent a genetically distinct cluster with high levels of private alleles and substantial differentiation from the rest of the extant range. Site-level analyses suggest low colony abundance estimates for B. affinis compared to similar datasets of stable, co-occurring species. These results lend genetic support to trends from observational studies, suggesting that B. affinis has undergone a recent decline and exhibit substantial spatial structure. The low colony abundances observed here suggest caution in overinterpreting the stability of populations even where B. affinis is reliably detected interannually. These results help delineate informed management units, provide context for the potential risks of translocation programs, and help set clear recovery targets for this and other threatened bumble bee species.
期刊介绍:
The Journal of Insect Science was founded with support from the University of Arizona library in 2001 by Dr. Henry Hagedorn, who served as editor-in-chief until his death in January 2014. The Entomological Society of America was very pleased to add the Journal of Insect Science to its publishing portfolio in 2014. The fully open access journal publishes papers in all aspects of the biology of insects and other arthropods from the molecular to the ecological, and their agricultural and medical impact.