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非洲热带食蚜蝇属Macquart(双翅目,食蚜蝇科)的分类修订

Taxonomic revision of the Afrotropical hover fly genus Macquart (Diptera, Syrphidae).

作者信息

Meyer Marc De, Goergen Georg, Jordaens Kurt

机构信息

Royal Museum for Central Africa, Invertebrates Section and JEMU, Leuvensesteenweg 13, B3080 Tervuren, Belgium Royal Museum for Central Africa Tervuren Belgium.

International Institute of Tropical Agriculture, Biodiversity Centre, 08 BP 0932 Tri Postal, Cotonou, Benin International Institute of Tropical Agriculture, Biodiversity Centre Cotonou Benin.

出版信息

Zookeys. 2020 Dec 14;1003:83-160. doi: 10.3897/zookeys.1003.56557. eCollection 2020.

DOI:10.3897/zookeys.1003.56557
PMID:33384563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7752890/
Abstract

The representatives of the Afrotropical hover fly genus Macquart (Diptera) are revised. In total, ten species are recognized. (Bezzi) is herewith placed as junior synonym of Macquart, (Bezzi) is herewith placed as junior synonym of (Macquart) and (Bezzi) is herewith placed as junior synonym of (Gerstaecker). All species are redescribed and an identification key is provided. DNA barcoding analysis (7 species, 64 barcodes) showed that the technique can be used to unambiguously identify the species. The relationships among the different species are discussed based on morphological and DNA data.

摘要

对非洲热带食蚜蝇属Macquart(双翅目)的代表物种进行了修订。总共识别出10个物种。(贝齐)在此被列为Macquart的次异名,(贝齐)在此被列为(Macquart)的次异名,(贝齐)在此被列为(格斯特克尔)的次异名。对所有物种进行了重新描述并提供了鉴定检索表。DNA条形码分析(7个物种,64个条形码)表明该技术可用于明确鉴定物种。基于形态学和DNA数据讨论了不同物种之间的关系。

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4
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