黎凡里蜂鸟(Eugenes fulgens)种群的遗传和形态分化(鸟类:蜂鸟科)

The Auk Pub Date : 2020-07-24 DOI:10.1093/auk/ukaa032
Luz E. Zamudio-Beltrán, J. Ornelas, Andreia Malpica, Blanca E. Hernández-Baños
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引用次数: 8

摘要

遗传变异和系统地理学研究对于理解物种形成机制至关重要。通过遗传变异和系统地理分析,重建了Rivoli’s Hummingbird (Eugenes fulgens)种群的人口统计学历史,并对其形态分化进行了评价。这个分布广泛的物种栖息在墨西哥和中美洲北部的高地,有2个亚种被特万特佩克地峡隔开(西:e.f. fulgens,东:e.f. vieps)。我们对2个线粒体DNA标记(mtDNA, 129个个体)和核DNA(6个微卫星,85个个体)进行了遗传变异调查。我们还推断了人口历史,估计了分化时间,并分析了使用470个凭证标本的形态学变化。我们利用生态位模型模拟了该物种当前的潜在分布,并将其投射到过去,以模拟更新世气候周期的影响。单倍型网络、两两FST比较、AMOVA和形态学分析揭示了由特万特佩克地峡(Isthmus of Tehuantepec, IT;对应于2个公认的亚种:fulgens和vi可笑),并通过Motagua-Polochic-Jocotán (MPJ)系统故障。人口统计情景显示末次间冰期冰川分布收缩,末次盛冰期冰川分布扩张,但自末次盛冰期以来变化不大。大约59,600年前,在基因流动存在的情况下,被特万特佩克地峡分隔的族群之间发生了分化,这表明特万特佩克地峡是基因流动的半透性屏障。微卫星数据的结构分析检测到3个遗传分化群体。一些结果符合最近谱系分化的模型,包括遗传分化的显著信号,人口扩张,基因流动从过去到现在的减少,以及LGM期间的北扩展和间冰期的收缩。我们认为,马德林松栎林中富尔根松的遗传分化是由自然屏障(IT和MPJ)分隔的种群之间的地理隔离造成的。目前的工作使我们能够重建中美洲高地富尔根尤金种的系统地理格局和进化史。结果表明,在特万特佩克地峡以西有3个主要种群(E. fulgens),地峡以东有2个种群(E. vieps),它们在地理上因特万特佩克地峡和Motagua-Polochic-Jocotán系统断层而相互隔离。我们的研究结果支持了一种假说,即富尔根菌种复合体的分化和种群扩张与更新世冰期-间冰期旋回有关。
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Genetic and morphological differentiation among populations of the Rivoli's Hummingbird (Eugenes fulgens) species complex (Aves: Trochilidae)
ABSTRACT Genetic variation and phylogeographic studies have been crucial for understanding mechanisms of speciation. We analyzed genetic variation and phylogeography to reconstruct the demographic history of the Rivoli's Hummingbird (Eugenes fulgens) species complex and also evaluated their morphological differentiation. This widely distributed species inhabits the highlands of Mexico and northern Central America, with 2 subspecies separated by the Isthmus of Tehuantepec (west: E. f. fulgens, east: E. f. viridiceps). We surveyed genetic variation in 2 mitochondrial DNA markers (mtDNA, with 129 individuals) and nuclear DNA (6 microsatellites, with 85 individuals). We also inferred the demographic history, estimated divergence times, and analyzed morphological variation using 470 vouchered specimens. We modeled the current potential distribution of the species using ecological niche modeling and projected it into the past to model the effects of the Pleistocene climatic cycles. Haplotype networks, pairwise FST comparisons, AMOVA, and morphological analysis revealed differences between geographically isolated populations separated by the Isthmus of Tehuantepec (IT; corresponding to the 2 recognized subspecies: fulgens and viridiceps), and by the Motagua-Polochic-Jocotán (MPJ) system fault. Demographic scenarios revealed a contraction in distribution during the last interglacial, and expansion during the Last Glacial Maximum (LGM) with little change since the LGM. Divergence between groups separated by the Isthmus of Tehuantepec ∼59,600 yr ago occurred in the presence of gene flow, suggesting that the Isthmus of Tehuantepec is a semipermeable barrier to gene flow. STRUCTURE analyses of microsatellite data detected 3 genetically differentiated groups. Several results fit a model of recent lineage divergence, including a significant signal of genetic differentiation, demographic expansion, decreased gene flow from past to present, and northward expansion during the LGM and contraction during the interglacial periods. We conclude that the genetic differentiation of E. fulgens in the Madrean Pine-Oak Woodlands resulted from recent geographical isolation of populations separated by natural barriers (IT and MPJ). LAY SUMMARY The present work allowed us to reconstruct the phylogeographic pattern and evolutionary history of Eugenes fulgens in the highlands of Mesoamerica. It revealed the presence of 3 main lineages: populations west of the Isthmus of Tehuantepec (E. fulgens) and 2 populations east of the isthmus (E. viridiceps), geographically isolated from each other by the Isthmus of Tehuantepec and by the Motagua-Polochic-Jocotán system fault. Our results support the hypothesis that the divergence and demographic expansion within the E. fulgens species complex are associated with the Pleistocene glacial–interglacial cycles.
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