{"title":"Genetic relationships of three species of black flies (Diptera: Simuliidae) in Taiwan","authors":"","doi":"10.1016/j.actatropica.2024.107399","DOIUrl":null,"url":null,"abstract":"<div><p>As an island about 150 km from the mainland, Taiwan would be expected to have endemic species. About 64 % of its 36 species of black flies are considered endemic, more than twice the level of endemicity that has been recorded for all insects on the island. To begin assessing the validity of the high level of endemism for the Simuliidae, we used giant chromosome banding patterns and cytochrome c oxidase I (COI) sequences, against a well-defined morphological backdrop, to evaluate three of Taiwan's black flies, <em>Simulium chungi</em> Takaoka & Huang, <em>S. pingtungense</em> Huang & Takaoka, and <em>S. sakishimaense</em> Takaoka. Molecular data revealed high similarity of populations of <em>S. sakishimaense</em> in Taiwan and at the type locality on Ishigaki Island, Japan, about 180 km to the east. Thus, populations referred to as <em>S. sakishimaense</em> in Taiwan are conspecific with typical <em>S. sakishimaense</em> in Japan, confirming their non-endemicity in Taiwan. <em>Simulium sakishimaense</em> might have reached Ishigaki by island hopping via Taiwan from the Chinese mainland. Chromosomes and the COI gene agree with morphology that <em>S. sakishimaense</em> is a member of the <em>S. multistriatum</em> species group although the chromosomal banding patterns do not indicate that it is distinct from <em>S. fenestratum</em> Edwards on the mainland. Although molecular sequences indicate <em>S. sakishimaense</em> is monophyletic, this taxon falls within the same Operational Taxonomic Unit as nine other members of the <em>S. multistriatum</em> group, including <em>S. fenestratum. Simulium pingtungense</em>, in agreement with morphology, is molecularly distinct from the 10 other analyzed members of the <em>S. striatum</em> species group, tentatively suggesting that it is endemic to Taiwan, pending analysis of samples from mainland China. <em>Simulium chungi</em> in Taiwan is chromosomally and molecularly unique, with larvae resembling those of <em>S. saskishimaense</em>. It is not, however, a member of either the <em>S. multistriatum</em> or <em>S. striatum</em> species groups. For now, the <em>S. chungi</em> species group remains a legitimate taxon consisting of two species. Strengthening the case for endemic taxa in Taiwan awaits analysis of key samples from the Chinese mainland.</p></div>","PeriodicalId":7240,"journal":{"name":"Acta tropica","volume":null,"pages":null},"PeriodicalIF":2.1000,"publicationDate":"2024-09-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Acta tropica","FirstCategoryId":"3","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0001706X24002808","RegionNum":3,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"PARASITOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
As an island about 150 km from the mainland, Taiwan would be expected to have endemic species. About 64 % of its 36 species of black flies are considered endemic, more than twice the level of endemicity that has been recorded for all insects on the island. To begin assessing the validity of the high level of endemism for the Simuliidae, we used giant chromosome banding patterns and cytochrome c oxidase I (COI) sequences, against a well-defined morphological backdrop, to evaluate three of Taiwan's black flies, Simulium chungi Takaoka & Huang, S. pingtungense Huang & Takaoka, and S. sakishimaense Takaoka. Molecular data revealed high similarity of populations of S. sakishimaense in Taiwan and at the type locality on Ishigaki Island, Japan, about 180 km to the east. Thus, populations referred to as S. sakishimaense in Taiwan are conspecific with typical S. sakishimaense in Japan, confirming their non-endemicity in Taiwan. Simulium sakishimaense might have reached Ishigaki by island hopping via Taiwan from the Chinese mainland. Chromosomes and the COI gene agree with morphology that S. sakishimaense is a member of the S. multistriatum species group although the chromosomal banding patterns do not indicate that it is distinct from S. fenestratum Edwards on the mainland. Although molecular sequences indicate S. sakishimaense is monophyletic, this taxon falls within the same Operational Taxonomic Unit as nine other members of the S. multistriatum group, including S. fenestratum. Simulium pingtungense, in agreement with morphology, is molecularly distinct from the 10 other analyzed members of the S. striatum species group, tentatively suggesting that it is endemic to Taiwan, pending analysis of samples from mainland China. Simulium chungi in Taiwan is chromosomally and molecularly unique, with larvae resembling those of S. saskishimaense. It is not, however, a member of either the S. multistriatum or S. striatum species groups. For now, the S. chungi species group remains a legitimate taxon consisting of two species. Strengthening the case for endemic taxa in Taiwan awaits analysis of key samples from the Chinese mainland.
作为一个距离大陆约 150 公里的岛屿,台湾应该有其特有物种。在台湾的 36 种黑蝇中,约有 64% 被认为是特有种,是岛上所有昆虫特有性水平的两倍多。为了开始评估蚋科高度特有性的有效性,我们使用巨型染色体带型和细胞色素 c 氧化酶 I(COI)序列,在明确的形态背景下,评估了台湾的三种黑蝇:Simulium chungi Takaoka & Huang、S. pingtungense Huang & Takaoka 和 S. sakishimaense Takaoka。分子数据显示,S. sakishimaense 在台湾的种群与日本石垣岛的模式产地高度相似,石垣岛位于台湾以东约 180 公里处。因此,在台湾被称为 S. sakishimaense 的种群与日本典型的 S. sakishimaense 为同种,证实了它们在台湾的非地方性。崎岛蚋可能是从中国大陆经台湾跳岛到达石垣的。染色体和 COI 基因与形态学一致,表明 S. sakishimaense 是 S. multistriatum 种群的成员,但染色体条带模式并未表明它有别于大陆的 S. fenestratum Edwards。虽然分子序列表明 S. sakishimaense 是单系的,但该分类群与 S. multistriatum 群的其他 9 个成员(包括 S. fenestratum)同属一个业务分类单元。与形态一致,Simulium pingtungense 在分子上与 S. striatum 物种群的其他 10 个分析成员不同,初步表明它是台湾特有种,有待对来自中国大陆的样本进行分析。台湾的 Simulium chungi 在染色体和分子上都是独特的,其幼虫与 S. saskishimaense 相似。然而,它并不是 S. multistriatum 或 S. striatum 物种群的成员。目前,S. chungi物种组仍然是由两个物种组成的合法分类群。加强台湾特有分类群的理由有待对中国大陆的关键样本进行分析。
期刊介绍:
Acta Tropica, is an international journal on infectious diseases that covers public health sciences and biomedical research with particular emphasis on topics relevant to human and animal health in the tropics and the subtropics.