北美西部冰期和冰期后草原高等双翅目植物的系统地理学。

IF 2.2 2区 环境科学与生态学 Q1 Agricultural and Biological Sciences
Anna M Solecki, Jeffrey H Skevington, Christopher M Buddle, Terry A Wheeler
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引用次数: 4

摘要

背景:更新世冰期对北美生物区系的物种分布和群落组成产生了重要影响。这些物种在冰原以南和/或其他避难所(如白令陆桥)的冰期循环中幸存下来。在这项研究中,我们利用来自三种双翅目物种的线粒体DNA,评估了目前在白令陆桥草原上发现的苍蝇是否(1)作为白令陆桥和南部避难所的分离种群在冰川时期存活下来;(2)冰川后由南部避难区向北分散;或者(3)由两者结合而产生。样本收集于加拿大西部的草原:阿尔伯塔省和马尼托巴省的大草原;和平河地区(阿尔伯塔);以及育空地区南部。对3种高等双翅目昆虫细胞色素c氧化酶I亚基658 bp和细胞色素b亚基510 bp的两个基因区进行了测序,其中一个基因区连续分布于草原地区,另一个基因区种群间不相交。我们使用贝叶斯方法在没有先验假设的情况下确定种群分组,并进行了分子方差分析(AMOVA)和种群分化的精确检验(ETPD)来检验其有效性。分子定年法用于确定发散时间。结果:所有物种均有两个地理结构种群:南部草原和平河种群和育空种群。虽然AMOVA没有显示出种群间的显著差异,但ETPD却有。育空地区和南部地区两个种群的分化时间早于全新世;分化时间不明确的物种具有较高的单倍型多样性,这可能表明它们在白令陆桥避难所生存过。结论:育空草原双翅目种群在更新世冰期可能在白令陆桥草原生境中持续存在。该地区目前的种群似乎是白令陆桥遗留种群的混合体,在较小程度上,是冰川后从南部草原向北扩散的种群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Phylogeography of higher Diptera in glacial and postglacial grasslands in western North America.

Phylogeography of higher Diptera in glacial and postglacial grasslands in western North America.

Phylogeography of higher Diptera in glacial and postglacial grasslands in western North America.

Phylogeography of higher Diptera in glacial and postglacial grasslands in western North America.

Background: Pleistocene glaciations have had an important impact on the species distribution and community composition of the North American biota. Species survived these glacial cycles south of the ice sheets and/or in other refugia, such as Beringia. In this study, we assessed, using mitochondrial DNA from three Diptera species, whether flies currently found in Beringian grasslands (1) survived glaciation as disjunct populations in Beringia and in the southern refugium; (2) dispersed northward postglacially from the southern refugium; or (3) arose by a combination of the two. Samples were collected in grasslands in western Canada: Prairies in Alberta and Manitoba; the Peace River region (Alberta); and the southern Yukon Territory. We sequenced two gene regions (658 bp of cytochrome c oxidase subunit I, 510 bp of cytochrome b) from three species of higher Diptera: one with a continuous distribution across grassland regions, and two with disjunct populations between the regions. We used a Bayesian approach to determine population groupings without a priori assumptions and performed analysis of molecular variance (AMOVA) and exact tests of population differentiation (ETPD) to examine their validity. Molecular dating was used to establish divergence times.

Results: Two geographically structured populations were found for all species: a southern Prairie and Peace River population, and a Yukon population. Although AMOVA did not show significant differentiation between populations, ETPD did. Divergence time between Yukon and southern populations predated the Holocene for two species; the species with an ambiguous divergence time had high haplotype diversity, which could suggest survival in a Beringian refugium.

Conclusions: Populations of Diptera in Yukon grasslands could have persisted in steppe habitats in Beringia through Pleistocene glaciations. Current populations in the region appear to be a mix of Beringian relict populations and, to a lesser extent, postglacial dispersal northward from southern prairie grasslands.

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来源期刊
BMC Ecology
BMC Ecology ECOLOGY-
CiteScore
5.80
自引率
4.50%
发文量
0
审稿时长
22 weeks
期刊介绍: BMC Ecology is an open access, peer-reviewed journal that considers articles on environmental, behavioral and population ecology as well as biodiversity of plants, animals and microbes.
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