通过 DNA 条码技术揭示北极圈附近加拿大地区高度多样化的螨类动物群。

Revealing the hyperdiverse mite fauna of subarctic Canada through DNA barcoding.

机构信息

Biodiversity Institute of Ontario and Department of Integrative Biology, University of Guelph, Guelph, Ontario, Canada.

出版信息

PLoS One. 2012;7(11):e48755. doi: 10.1371/journal.pone.0048755. Epub 2012 Nov 2.

DOI:10.1371/journal.pone.0048755

PMID:23133656

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3487733/

Abstract

Although mites are one of the most abundant and diverse groups of arthropods, they are rarely targeted for detailed biodiversity surveys due to taxonomic constraints. We address this gap through DNA barcoding, evaluating acarine diversity at Churchill, Manitoba, a site on the tundra-taiga transition. Barcode analysis of 6279 specimens revealed nearly 900 presumptive species of mites with high species turnover between substrates and between forested and non-forested sites. Accumulation curves have not reached an asymptote for any of the three mite orders investigated, and estimates suggest that more than 1200 species of Acari occur at this locality. The coupling of DNA barcode results with taxonomic assignments revealed that Trombidiformes compose 49% of the fauna, a larger fraction than expected based on prior studies. This investigation demonstrates the efficacy of DNA barcoding in facilitating biodiversity assessments of hyperdiverse taxa.

摘要

尽管螨类是节肢动物中最丰富和最多样化的群体之一，但由于分类学上的限制，它们很少成为详细生物多样性调查的目标。我们通过 DNA 条形码技术解决了这一差距，评估了曼尼托巴丘吉尔的螨类多样性，该地点位于苔原-泰加林过渡带。对 6279 个标本的条形码分析显示，近 900 种螨类具有较高的种间转换，在基质之间以及森林和非森林之间。在调查的三个螨目种中，任何一个的积累曲线都没有达到渐近线，估计表明在这个地方有超过 1200 种螨类。DNA 条形码结果与分类学分配的结合表明，Trombidiformes 构成了动物区系的 49%，比先前的研究预期的比例要大。这项研究表明，DNA 条形码技术在促进对高度多样化类群的生物多样性评估方面是有效的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a5b/3487733/ff9c8ff9951a/pone.0048755.g001.jpg

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通过 DNA 条码技术揭示北极圈附近加拿大地区高度多样化的螨类动物群。

Revealing the hyperdiverse mite fauna of subarctic Canada through DNA barcoding.

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