Strong population structure and limited gene flow between Yellow-billed Ducks and Mallards in southern Africa

IF 2.6 2区生物学 Q1 ORNITHOLOGY

Condor Pub Date : 2019-09-05 DOI:10.1093/condor/duz042

Joshua I. Brown, Philip Lavretsky, G. Cumming, J. Peters

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引用次数: 5

Abstract

ABSTRACT Secondary contact and hybridization between recently diverged taxa have been increasing due to anthropogenic changes to the environment. Determining whether secondary contact leads to gene flow between species is important for understanding both the evolutionary consequences of such events (i.e. genetic swamping, speciation reversal, hybrid speciation) and for establishing proper conservation measures. Mallards (Anas platyrhynchos), which natively have a Holarctic distribution, have been introduced nearly worldwide due to game-farm and domestic pet releases. Their expanding range has resulted in secondary contact and increased incidences of hybridization with many closely related Mallard-like ducks that comprise the Mallard complex. Here, we assay molecular diversity for 19 nuclear introns and the mitochondrial DNA for wild Mallards (n = 50) across their Holarctic range and Yellow-billed Ducks (n = 30–75; Anas undulata) from southern Africa to determine population genetic structure and test for evidence of Mallard introgression into Yellow-billed Ducks. While we found limited support for contemporary gene flow across nuclear markers, we provide evidence from mitochondrial DNA that best supports ancient gene flow between Yellow-billed Ducks and Mallards. Yellow-billed Ducks best fit a single population at nuclear markers but show some location-specific mtDNA structure that suggests recent founder or bottleneck events. Although we find that introgression from Mallards into Yellow-billed Duck is limited, Yellow-billed Duck populations should be monitored to determine if expanding feral Mallard populations in southern Africa are increasing introgression.

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非洲南部黄嘴鸭和绿头鸭之间的强种群结构和有限的基因流动

由于环境的人为变化，最近分化的分类群之间的二次接触和杂交正在增加。确定次生接触是否会导致物种间的基因流动，对于理解这些事件的进化后果(如遗传沼泽、物种形成逆转、杂交物种形成)和建立适当的保护措施都很重要。野鸭(Anas platyrhynchos)，其原生分布在全北极，由于游戏农场和国内宠物的释放，已被引入几乎世界各地。它们不断扩大的范围导致了二次接触，并增加了与许多密切相关的绿头鸭类鸭子的杂交发生率，这些鸭子组成了绿头鸭群。在这里，我们分析了野鸭(n = 50)和黄嘴鸭(n = 30-75)的19个核内含子和线粒体DNA的分子多样性;以确定种群遗传结构和测试绿头鸭向黄嘴鸭渗透的证据。虽然我们发现当代基因流动在核标记上的支持有限，但我们提供了线粒体DNA的证据，最能支持黄嘴鸭和绿头鸭之间的古代基因流动。黄嘴鸭在核标记上最适合单一种群，但显示出一些特定位置的mtDNA结构，表明最近的建立或瓶颈事件。虽然我们发现绿头鸭向黄嘴鸭的遗传渗入是有限的，但黄嘴鸭种群应该被监测，以确定在非洲南部不断扩大的野生绿头鸭种群是否增加了遗传渗入。

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

Condor ORNITHOLOGY-

CiteScore

6.30

自引率

12.50%

发文量

审稿时长

6-12 weeks

期刊介绍： The Condor is the official publication of the Cooper Ornithological Society, a non-profit organization of over 2,000 professional and amateur ornithologists and one of the largest ornithological societies in the world. A quarterly international journal that publishes original research from all fields of avian biology, The Condor has been a highly respected forum in ornithology for more than 100 years. The journal is one of the top ranked ornithology publications. Types of paper published include feature articles (longer manuscripts) Short Communications (generally shorter papers or papers that deal with one primary finding), Commentaries (brief papers that comment on articles published previously in The Condor), and Book Reviews.