Tigano Anna, Damus Martin, Birt Tim P, Morris-Pocock Jamie A, Artukhin Yuri B, Friesen Vicki L
From the Department of Biology, Queen's University, Kingston, Ontario K7L 3N6, Canada (Tigano, Damus, Birt, Morris-Pocock, and Friesen); and the Kamchatka Branch of Pacific Geographical Institute of Far Eastern Branch RAS, Rybakov Prospekt 19a, Petropavlovsk-Kamchatsky 683024, Russia (Artukhin). Martin Damus is now at the Canadian Food Inspection Agency, Ottawa, Ontario K1A 0Y9, Canada. Morris-Pocock is now at the School of Health Sciences, St. Lawrence College, Brockville, Ontario K6V 5X3, Canada.
J Hered. 2015 May-Jun;106(3):238-46. doi: 10.1093/jhered/esv016. Epub 2015 Mar 30.
Quaternary glaciations affected the distribution of many species. Here, we investigate whether the Arctic represented a glacial refugium during the Last Glacial Maximum or an area of secondary contact following the ice retreat, by analyzing the genetic population structure of the thick-billed murre (Uria lomvia), a seabird that breeds throughout the North Atlantic, North Pacific and Arctic Oceans. The thick-billed murre is a species of socio-economic importance and faces numerous threats including hunting, oil pollution, gill netting, and climate change. We compared variation in the mitochondrial DNA (mtDNA) control region (n = 424), supplemented by 4 microsatellite loci (n = 445), among thick-billed murres sampled throughout their range. MtDNA data indicated that colonies comprise 4 genetically differentiated groups (Φst = 0.11-0.81): 1) Atlantic Ocean plus New Siberian Islands region, 2) Cape Parry, 3) Chukchi Sea, and 4) Pacific Ocean. Microsatellite variation differed between Atlantic and Pacific populations. Otherwise, little substructure was found within either ocean. Atlantic and Pacific populations appear to have been genetically isolated since the last interglacial period and should be considered separate evolutionary significant units for management. The Chukchi Sea and Cape Parry appear to represent areas of secondary contact, rather than arctic refugial populations.
第四纪冰川作用影响了许多物种的分布。在此,我们通过分析厚嘴海鸦(Uria lomvia)的遗传种群结构,来研究北极地区在上次盛冰期时是否代表一个冰期避难所,或者在冰川消退后是否是一个二次接触区域。厚嘴海鸦是一种具有社会经济重要性的物种,面临着包括捕猎、石油污染、刺网捕捞和气候变化在内的诸多威胁。我们比较了在厚嘴海鸦整个分布范围内采集样本的线粒体DNA(mtDNA)控制区(n = 424)的变异情况,并辅以4个微卫星位点(n = 445)的数据。线粒体DNA数据表明,各个群体由4个遗传分化的组构成(Φst = 0.11 - 0.81):1)大西洋加新西伯利亚群岛地区,2)帕里角,3)楚科奇海,以及4)太平洋。大西洋和太平洋种群的微卫星变异情况有所不同。除此之外,在任何一个大洋内部都几乎没有发现亚结构。自上一个间冰期以来,大西洋和太平洋种群似乎在遗传上是隔离的,在管理上应被视为独立的进化显著单元。楚科奇海和帕里角似乎代表二次接触区域,而非北极避难种群。
