A Small Proportion of Breeders Drive American Bullfrog Invasion of the Yellowstone River Floodplain, Montana

IF 0.5 4区环境科学与生态学 Q4 ECOLOGY

Northwest Science Pub Date : 2021-05-21 DOI:10.3955/046.094.0302

Daniel M. Bingham, Adam J. Sepulveda, S. Painter

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引用次数: 0

Abstract

Abstract The American bullfrog (Lithobates catesbeianus) is a non-native invader of aquatic habitats across the northwestern United States. It recently invaded the Yellowstone River, Montana, and has spread to over 140 km of floodplain habitat. We analyzed seven microsatellites in 528 tadpoles sampled across nearly the entire Yellowstone River invasion (about 140 river km) to characterize invasion genetics, compare our results with those of a recent mtDNA study (Kamath et al. 2016), and to inform control efforts. Microsatellite variation supports the mtDNA-based hypothesis of at least two independent introductions to the floodplain from genetically divergent populations in the midwestern United States, followed by massive range expansion. One introduction is associated with the upstream extent of the invasion near Park City, Montana and the other more broadly with downstream populations. All sites were characterized by small effective numbers of breeders (Nb; harmonic mean = 9.97), and therefore, a small proportion of highly successful adults may drive the invasion by producing large families. Microsatellites and mtDNA produced discordant estimates of genetic admixture between the upstream and downstream invasions, which may reflect small effective population size. Although we observed isolation by distance using both types of markers, microsatellites appear to reflect population structure resulting from secondary contact between the two introductions, as opposed to structure resulting from equilibrium between gene flow and genetic drift. Most sites showed evidence for genetic bottlenecks, which supports the recent history of invasion. Small Nb paired with known high localized extinction rates following colonization suggests focused removal of post metamorphic life stages at sites less likely to go extinct on their own could help limit invasion by bullfrogs.

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一小部分繁殖者驱使美国牛蛙入侵蒙大拿州黄石河漫滩

美洲牛蛙(Lithobates catesbeianus)是美国西北部水生栖息地的外来入侵者。它最近入侵了蒙大拿州的黄石河，并蔓延到超过140公里的洪泛区栖息地。我们分析了几乎整个黄石河入侵(约140公里)中528只蝌蚪样本的7颗微卫星，以表征入侵遗传学，将我们的结果与最近的mtDNA研究结果进行比较(Kamath et al. 2016)，并为控制措施提供信息。微卫星变异支持了基于mtdna的假设，即美国中西部基因不同的种群至少有两次独立的引入洪泛区，随后是大规模的范围扩张。一种引入与上游入侵范围有关，靠近蒙大拿州帕克城，另一种更广泛地与下游种群有关。所有站点的特点是有效育种者数量少(Nb;调和平均值= 9.97)，因此，一小部分非常成功的成虫可能通过产生大家庭来驱动入侵。微卫星和mtDNA对上游和下游入侵之间的遗传混合产生了不一致的估计，这可能反映了有效种群规模较小。虽然我们使用这两种类型的标记观察到距离隔离，但微卫星似乎反映了两个引种之间的二次接触所产生的群体结构，而不是基因流动和遗传漂变之间平衡所产生的结构。大多数遗址显示出遗传瓶颈的证据，这支持了最近的入侵历史。小Nb与殖民化后已知的高局部灭绝率相结合，表明在不太可能自行灭绝的地方集中清除后变质生命阶段可以帮助限制牛蛙的入侵。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Northwest Science 环境科学-生态学

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： The pages of Northwest Science are open to original and fundamental research in the basic, applied, and social sciences. All submissions are refereed by at least two qualified peer reviewers. Papers are welcome from authors outside of the Pacific Northwest if the topic is suitable to our regional audience.