Baird Amy B, Braun Janet K, Engstrom Mark D, Holbert Ashlyn C, Huerta Maritza G, Lim Burton K, Mares Michael A, Patton John C, Bickham John W
Department of Natural Sciences, University of Houston - Downtown, Houston, Texas, United States of America.
Sam Noble Museum, University of Oklahoma, Norman, Oklahoma, United States of America.
PLoS One. 2017 Oct 11;12(10):e0186085. doi: 10.1371/journal.pone.0186085. eCollection 2017.
Previous studies on genetics of hoary bats produced differing conclusions on the timing of their colonization of the Hawaiian Islands and whether or not North American (Aeorestes cinereus) and Hawaiian (A. semotus) hoary bats are distinct species. One study, using mtDNA COI and nuclear Rag2 and CMA1, concluded that hoary bats colonized the Hawaiian Islands no more than 10,000 years ago based on indications of population expansion at that time using Extended Bayesian Skyline Plots. The other study, using 3 mtDNA and 1 Y-chromosome locus, concluded that the Hawaiian Islands were colonized about 1 million years ago. To address the marked inconsistencies between those studies, we examined DNA sequences from 4 mitochondrial and 2 nuclear loci in lasiurine bats to investigate the timing of colonization of the Hawaiian Islands by hoary bats, test the hypothesis that Hawaiian and North American hoary bats belong to different species, and further investigate the generic level taxonomy within the tribe. Phylogenetic analysis and dating of the nodes of mtDNA haplotypes and of nuclear CMA1 alleles show that A. semotus invaded the Hawaiian Islands approximately 1.35 Ma and that multiple arrivals of A. cinereus occurred much more recently. Extended Bayesian Skyline plots show population expansion at about 20,000 years ago in the Hawaiian Islands, which we conclude does not represent the timing of colonization of the Hawaiian Islands given the high degree of genetic differentiation among A. cinereus and A. semotus (4.2% divergence at mtDNA Cytb) and the high degree of genetic diversity within A. semotus. Rather, population expansion 20,000 years ago could have resulted from colonization of additional islands, expansion after a bottleneck, or other factors. New genetic data also support the recognition of A. semotus and A. cinereus as distinct species, a finding consistent with previous morphological and behavioral studies. The phylogenetic analysis of CMA1 alleles shows the presence of 2 clades that are primarily associated with A. semotus mtDNA haplotypes, and are unique to the Hawaiian Islands. There is evidence for low levels of hybridization between A. semotus and A. cinereus on the Hawaiian Islands, but it is not extensive (<15% of individuals are of hybrid origin), and clearly each species is able to maintain its own genetic distinctiveness. Both mtDNA and nuclear DNA sequences show deep divergence between the 3 groups (genera) of lasiurine bats that correspond to the previously recognized morphological differences between them. We show that the Tribe Lasiurini contains the genera Aeorestes (hoary bats), Lasiurus (red bats), and Dasypterus (yellow bats).
先前关于灰蝙蝠遗传学的研究,在其对夏威夷群岛的殖民时间,以及北美灰蝙蝠(Aeorestes cinereus)和夏威夷灰蝙蝠(A. semotus)是否为不同物种的问题上,得出了不同结论。一项研究使用线粒体DNA细胞色素氧化酶亚基I(mtDNA COI)以及核基因Rag2和CMA1,基于当时使用扩展贝叶斯天际线图显示的种群扩张迹象,得出灰蝙蝠在不超过10000年前殖民了夏威夷群岛的结论。另一项研究使用3个线粒体DNA位点和1个Y染色体位点,得出夏威夷群岛大约在100万年前被殖民的结论。为了解决这些研究之间明显的不一致,我们检测了黄毛蝠科蝙蝠4个线粒体和2个核基因座的DNA序列,以研究灰蝙蝠对夏威夷群岛的殖民时间,检验夏威夷灰蝙蝠和北美灰蝙蝠属于不同物种的假设,并进一步研究该族内的属级分类。线粒体DNA单倍型节点和核基因CMA1等位基因的系统发育分析及年代测定表明,夏威夷灰蝙蝠大约在135万年前侵入夏威夷群岛,而北美灰蝙蝠的多次迁入则发生在更近的时期。扩展贝叶斯天际线图显示,夏威夷群岛在大约20000年前出现了种群扩张,鉴于北美灰蝙蝠和夏威夷灰蝙蝠之间高度的遗传分化(线粒体DNA细胞色素b的差异为4.2%)以及夏威夷灰蝙蝠内部高度的遗传多样性,我们得出这并不代表夏威夷群岛的殖民时间。相反,20000年前的种群扩张可能是由于对其他岛屿的殖民、瓶颈后的扩张或其他因素导致的。新的遗传数据也支持将夏威夷灰蝙蝠和北美灰蝙蝠认定为不同物种,这一发现与之前的形态学和行为学研究一致。对CMA1等位基因的系统发育分析显示存在2个主要与夏威夷灰蝙蝠线粒体DNA单倍型相关的分支,且这些分支是夏威夷群岛所特有的。有证据表明夏威夷灰蝙蝠和北美灰蝙蝠在夏威夷群岛存在低水平的杂交,但并不广泛(<15%的个体为杂交起源),并且显然每个物种都能够保持自身的遗传独特性。线粒体DNA和核DNA序列均显示,黄毛蝠科蝙蝠的3个类群(属)之间存在深度分化,这与之前所认识到的它们之间的形态学差异相对应。我们表明,黄毛蝠族包含灰蝠属(Aeorestes)、红蝠属(Lasiurus)和黄蝠属(Dasypterus)。
