烟粉虱隐种复合群的遗传网络揭示了生物入侵的模式。

Genetic networking of the Bemisia tabaci cryptic species complex reveals pattern of biological invasions.

机构信息

CSIRO Ecosystem Sciences, Brisbane, Queensland, Australia.

出版信息

PLoS One. 2011;6(10):e25579. doi: 10.1371/journal.pone.0025579. Epub 2011 Oct 3.

DOI:10.1371/journal.pone.0025579

PMID:21998669

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3184991/

Abstract

BACKGROUND

A challenge within the context of cryptic species is the delimitation of individual species within the complex. Statistical parsimony network analytics offers the opportunity to explore limits in situations where there are insufficient species-specific morphological characters to separate taxa. The results also enable us to explore the spread in taxa that have invaded globally.

METHODOLOGY/PRINCIPAL FINDINGS: Using a 657 bp portion of mitochondrial cytochrome oxidase 1 from 352 unique haplotypes belonging to the Bemisia tabaci cryptic species complex, the analysis revealed 28 networks plus 7 unconnected individual haplotypes. Of the networks, 24 corresponded to the putative species identified using the rule set devised by Dinsdale et al. (2010). Only two species proposed in Dinsdale et al. (2010) departed substantially from the structure suggested by the analysis. The analysis of the two invasive members of the complex, Mediterranean (MED) and Middle East - Asia Minor 1 (MEAM1), showed that in both cases only a small number of haplotypes represent the majority that have spread beyond the home range; one MEAM1 and three MED haplotypes account for >80% of the GenBank records. Israel is a possible source of the globally invasive MEAM1 whereas MED has two possible sources. The first is the eastern Mediterranean which has invaded only the USA, primarily Florida and to a lesser extent California. The second are western Mediterranean haplotypes that have spread to the USA, Asia and South America. The structure for MED supports two home range distributions, a Sub-Saharan range and a Mediterranean range. The MEAM1 network supports the Middle East - Asia Minor region.

CONCLUSION/SIGNIFICANCE: The network analyses show a high level of congruence with the species identified in a previous phylogenetic analysis. The analysis of the two globally invasive members of the complex support the view that global invasion often involve very small portions of the available genetic diversity.

摘要

背景

在隐种的背景下，一个挑战是在复杂的环境中对单个物种进行划分。统计简约网络分析提供了一个机会，可以在缺乏足够的形态特征来区分分类群的情况下，探索极限情况。该结果还使我们能够探索已经在全球范围内入侵的分类群的分布情况。

方法/主要发现：利用来自 352 个独特单倍型的 657bp 线粒体细胞色素氧化酶 1 部分，对烟粉虱隐种复合体的分析显示了 28 个网络加上 7 个不相连的个体单倍型。在这些网络中，有 24 个与使用 Dinsdale 等人（2010 年）制定的规则集识别的假定物种相对应。只有 Dinsdale 等人（2010 年）提出的两个物种与分析所建议的结构有很大出入。对该复合体的两个入侵成员——地中海型（MED）和中东-小亚细亚 1 型（MEAM1）的分析表明，在这两种情况下，只有少数几个单倍型代表了超越其原分布范围的大多数种群；一个 MEAM1 和三个 MED 单倍型占了>80%的 GenBank 记录。以色列可能是全球入侵的 MEAM1 的来源，而 MED 则有两个可能的来源。第一个是东地中海，它只入侵了美国，主要是佛罗里达州，其次是加利福尼亚州。第二个是地中海西部的单倍型，已经传播到美国、亚洲和南美洲。MED 的网络结构支持两种原分布范围，即撒哈拉以南地区和地中海地区。MEAM1 网络支持中东-小亚细亚地区。

结论/意义：网络分析与之前的系统发育分析中确定的物种高度一致。对该复合体的两个全球入侵成员的分析支持了这样一种观点，即全球入侵通常涉及可用遗传多样性的很小一部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2be/3184991/f017ad2e8cbb/pone.0025579.g001.jpg

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烟粉虱隐种复合群的遗传网络揭示了生物入侵的模式。

Genetic networking of the Bemisia tabaci cryptic species complex reveals pattern of biological invasions.

机构信息

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