澳大利亚内陆长寿双壳类（蚌目：河蚌科）中的隐存种与形态可塑性

Cryptic species and morphological plasticity in long-lived bivalves (Unionoida: Hyriidae) from inland Australia.

作者信息

Baker Andrew M, Bartlett Chris, Bunn Stuart E, Goudkamp Katrina, Sheldon Fran, Hughes Jane M

机构信息

Cooperative Research Centre for Freshwater Ecology, Australian School of Environmental Studies, Griffith University, Nathan, Queensland 4111, Australia.

出版信息

Mol Ecol. 2003 Oct;12(10):2707-17. doi: 10.1046/j.1365-294x.2003.01941.x.

DOI:10.1046/j.1365-294x.2003.01941.x

PMID:12969474

Abstract

Molecular (mitochondrial DNA, isozyme) and morphological diversity of freshwater mussels (Family Hyriidae) was examined at 21 sites encompassing four large river systems, across southwest Queensland, Australia. Evidence was found for two major morphological groups. One group, which occurred in every river system, closely matched a recognized species (Velesunio ambiguus) both morphologically and in a well-supported lineage within a mitochondrial phylogeny generated from partial cytochrome c oxidase subunit I (COI) sequences. The second group most closely matched Velesunio wilsonii in shell morphology but formed three deeply divergent mitochondrial DNA lineages. All four lineages occurred sympatrically in some areas and displayed corresponding fixed differences at nuclear allozyme loci, which suggests an absence of recent hybridization and the presence of separate species.

摘要

在澳大利亚昆士兰州西南部，对涵盖四个大型河流系统的21个地点的淡水贻贝（珠蚌科）的分子（线粒体DNA、同工酶）和形态多样性进行了研究。发现了两个主要形态组的证据。其中一组出现在每个河流系统中，在形态上与一个已确认的物种（模糊珠蚌）以及从细胞色素c氧化酶亚基I（COI）部分序列生成的线粒体系统发育中一个得到充分支持的谱系密切匹配。第二组在壳形态上与威尔逊珠蚌最接近，但形成了三个深度分化的线粒体DNA谱系。所有四个谱系在某些地区同域出现，并在核同工酶位点显示出相应的固定差异，这表明近期没有杂交现象，存在独立的物种。

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澳大利亚内陆长寿双壳类（蚌目：河蚌科）中的隐存种与形态可塑性

Cryptic species and morphological plasticity in long-lived bivalves (Unionoida: Hyriidae) from inland Australia.

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