Back from the Past: DNA Barcodes and Morphology Support Ablabesmyia americana Fittkau as a Valid Species (Diptera: Chironomidae)

Stur;  da Silva;  Ekrem

doi:10.3390/d11090173

Back from the Past: DNA Barcodes and Morphology Support Ablabesmyia americana Fittkau as a Valid Species (Diptera: Chironomidae)

Diversity ◽

10.3390/d11090173 ◽

2019 ◽

Vol 11 (9) ◽

pp. 173 ◽

Cited By ~ 2

Author(s):

Stur ◽

da Silva ◽

Ekrem

Keyword(s):

Sensu Stricto ◽

Coi Gene ◽

Valid Species ◽

Life Stages ◽

Dna Barcodes ◽

Biting Midges ◽

Major Life ◽

The Past ◽

Taxonomic Studies ◽

European Populations

Short, standardized gene fragments for species identification (DNA barcodes) have proven effective in delineating closely-related insect species, and can be critical characters to include in taxonomic studies. This is also the case for the species-rich and widely distributed fly family Chironomidae (non-biting midges). Inspired by observed genetic differences in partial COI gene sequences between North American and European populations of the chironomid Ablabesmyia monilis sensu lato, we investigated whether or not the morphology of male and female adults supported the distinction of more than one species. Our results support that the junior synonym Ablabesmyia americana is a valid species separate from A. monilis, and that A. monilis sensu stricto is distributed both in the Palearctic region and in North America. We provide re-descriptions of all of the major life stages of A. americana and of the adult female of A. monilis.

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Revision of the subgenus Phortica (sensu stricto) (Diptera, Drosophilidae) from East Asia, with assessment of species delimitation using DNA barcodes

Zootaxa ◽

10.11646/zootaxa.4678.1.1 ◽

2019 ◽

Vol 4678 (1) ◽

pp. 1-75

Author(s):

JIA HUANG ◽

LU GONG ◽

SHUN-CHERN TSAUR ◽

LIN ZHU ◽

KEYING AN ◽

...

Keyword(s):

New Species ◽

Cytochrome C Oxidase ◽

Species Delimitation ◽

Species Complex ◽

Dna Barcode ◽

Sensu Stricto ◽

Coi Gene ◽

Mitochondrial Cytochrome ◽

Dna Barcodes ◽

New Synonyms

A total of 50 (43 known and seven new) species in the subgenus Phortica (sensu stricto) were surveyed and (re)described from China: P. bicornuta (Chen & Toda, 1997); P. bipartita (Toda & Peng, 1992); P. biprotrusa (Chen & Toda, 1998); P. cardua (Okada, 1977); P. chi (Toda & Sidorenko, 1996); P. conifera (Okada, 1977); P. eparmata (Okada, 1977); P. eugamma (Toda & Peng, 1990); P. excrescentiosa (Toda & Peng, 1990); P. fangae (Máca, 1993); P. flexuosa (Zhang & Gan, 1986); P. foliata (Chen & Toda, 1997); P. gamma (Toda & Peng, 1990); P. gigas (Okada, 1977); P. glabtabula Chen & Gao, 2005; P. hainanensis (Chen & Toda, 1998); P. hongae (Máca, 1993); P. huazhii Cheng & Chen, 2008; P. iota (Toda & Sidorenko, 1996); P. jadete Zhu, Cao & Chen, 2018; P. kappa (Máca, 1977); P. lambda (Toda & Peng, 1990); P. latifoliacea Chen & Watabe, 2008; P. magna (Okada, 1960); P. okadai (Máca, 1977); P. omega (Okada, 1977); P. orientalis (Hendel, 1914); P. pangi Chen & Wen, 2005; P. paramagna (Okada, 1971); P. perforcipata (Máca & Lin, 1993); P. pi (Toda & Peng, 1990); P. protrusa (Zhang & Shi, 1997); P. pseudopi (Toda & Peng, 1990); P. pseudotau (Toda & Peng, 1990); P. psi (Zhang & Gan, 1986); P. rhagolobos Chen & Gao, 2008; P. saeta (Zhang & Gan, 1986); P. setitabula Chen & Gao, 2005; P. subradiata (Okada, 1977); P. tau (Toda & Peng, 1990); P. uncinata Chen & Gao, 2005; P. unipetala Chen & Wen, 2005; P. allomega Gong & Chen, sp. nov.; P. archikappa Gong & Chen, sp. nov.; P. dianzangensis Gong & Chen, sp. nov.; P. imbacilia Gong & Chen, sp. nov.; P. liukuni Gong & Chen, sp. nov.; P. tibeta Gong & Chen, sp. nov.; and P. xianfui Gong & Chen, sp. nov. In addition, seven new synonyms were recognized: P. acongruens (Zhang & Shi, 1997), syn. nov.; P. antillaria (Chen & Toda, 1997), syn. nov.; P. kukuanensis Máca, 2003, syn. nov.; P. linae (Máca & Chen, 1993), syn. nov.; P. shillongensis (Singh & Gupta, 1979), syn. nov.; P. takadai (Okada, 1977), syn. nov.; and P. watanabei (Máca & Lin, 1993), syn. nov. A key to all Asian species (except for the eparmata species complex) of this subgenus was provided. All currently available DNA barcode (partial mitochondrial cytochrome c oxidase subunit I (COI) gene) sequences of this subgenus (217 sequences of 54 species) are employed in a molecular analysis using different species delimitation methods. The results indicate that approximately 68.5% (37 of 54 spp.) of Phortica (s. str.) species could be clearly distinguished from closely related morphospecies or cryptic species.

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DNA barcodes for species delimitation in Chironomidae (Diptera): a case study on the genusLabrundinia

The Canadian Entomologist ◽

10.4039/tce.2013.44 ◽

2013 ◽

Vol 145 (6) ◽

pp. 589-602 ◽

Cited By ~ 13

Author(s):

Fabio Laurindo da Silva ◽

Torbjørn Ekrem ◽

Alaide Aparecida Fonseca-Gessner

Keyword(s):

Species Delimitation ◽

Pupal Stage ◽

Coi Gene ◽

Life Stages ◽

Dna Barcodes ◽

Paulo State ◽

Taxon Identification ◽

Excellent Tool ◽

Barcode Gap

AbstractIn this study, we analysed the applicability of DNA barcodes for delimitation of 79 specimens of 13 species of nonbiting midges in the subfamily Tanypodinae (Diptera: Chironomidae) from São Paulo State, Brazil. Our results support DNA barcoding as an excellent tool for species identification and for solving taxonomic conflicts in genusLabrundinia.Molecular analysis of cytochrome c oxidase subunit I (COI) gene sequences yielded taxon identification trees, supporting 13 cohesive species clusters, of which three similar groups were subsequently linked to morphological variation at the larval and pupal stage. Additionally, another cluster previously described by means of morphology was linked to molecular markers. We found a distinct barcode gap, and in some species substantial interspecific pairwise divergences (up to 19.3%) were observed, which permitted identification of all analysed species. The results also indicated that barcodes can be used to associate life stages of chironomids since COI was easily amplified and sequenced from different life stages with universal barcode primers.

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Notes on the molecular taxonomy of the Proclossiana eunomia complex (Lepidoptera, Nymphalidae: Argynnini): analysis of DNA barcodes

Ukrainian Journal of Ecology ◽

10.15421/2018_206 ◽

2018 ◽

Vol 8 (1) ◽

pp. 222-232 ◽

Cited By ~ 1

Author(s):

R. V. Yakovlev ◽

N. A. Shapoval ◽

G. N. Kuftina ◽

A. V. Kulak ◽

S. V. Kovalev

Keyword(s):

Body Size ◽

Molecular Taxonomy ◽

Taxonomic Status ◽

Molecular Data ◽

Coi Gene ◽

Wing Pattern ◽

Molecular Approach ◽

Dna Barcodes ◽

Morphological Differences ◽

Proclossiana Eunomia

The Proclossiana eunomia (Esper, 1799) complex is currently composed of the several subspecies distributed throughout Palaearсtic region and North America. Despite the fact that some of the taxa have differences in wing pattern and body size, previous assumptions on taxonomy not supported by molecular data. Therefore, the identity of certain populations of this complex has remained unclear and the taxonomic status of several recently described taxa is debated. Here, we provide insights into systematics of some Palaearctic members of this group using molecular approach, based on the analysis of the barcoding fragment of the COI gene taking into account known morphological differences.

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Review of Eohiodon (Teleostei: Osteoglossomorpha) from western North America, with a phylogenetic reassessment of Hiodontidae

Journal of Paleontology ◽

10.1017/s0022336000036064 ◽

1997 ◽

Vol 71 (6) ◽

pp. 1109-1124 ◽

Cited By ~ 25

Author(s):

Li Guo-Qing ◽

Mark V. H. Wilson ◽

Lance Grande

Keyword(s):

North America ◽

Sister Group ◽

Sensu Stricto ◽

Valid Species ◽

Western North America ◽

Extant Species ◽

The Family ◽

Fossil Records ◽

Fossil Genus ◽

Freshwater Teleosts

Review of recently collected material of Eohiodon from North America suggests that there are two valid species, E. rosei (Hussakof) and E. woodroffi Wilson. Eohiodon falcatus Grande is identical to E. woodruffi in known skeletal features and nearly all meristic features and is treated as a junior synonym of the latter. The fossil genus Eohiodon Cavender differs from Hiodon Lesueur, which is known from both fossil and extant species, in numerous meristic and osteological features. The caudal skeleton in Eohiodon is nearly identical to that in Hiodon.The traditionally accepted Notopteroidei, containing Lycopteridae, Hiodontidae, and Notopteridae, is a polypheletic group. The Asian fossil family Lycopteridae is not more closely related to Hiodontidae than it is to other taxa in the Osteoglossomorpha, but is sister to all other Osteoglossomorpha. The Hiodontiformes sensu stricto, including only the family Hiodontidae, is the sister-group of the Osteoglossiformes. This family is not more closely related to notopterids than to other taxa in Osteoglossiformes. The Notopteridae are most closely related to the Mormyroidea; together they and the fossil family Ostariostomidae constitute the sister-group of the Osteoglossoidei.Fossil records of Hiodontiformes sensu stricto and Notopteroidei indicate a widespread pre-Neogene biogeographic range of these freshwater teleosts, suggesting that extinction must have been involved in the Cenozoic evolution of these two osteoglossomorph sublineages.

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Morphological and molecular characterisation of Aporcelaimellus simplex (Thorne & Swanger, 1936) Loof & Coomans, 1970 and a new concept for Aporcella Andrássy, 2002 (Dorylaimida: Aporcelaimidae)

Nematology ◽

10.1163/156854112x651320 ◽

2013 ◽

Vol 15 (2) ◽

pp. 165-178 ◽

Cited By ~ 6

Author(s):

Sergio Álvarez-Ortega ◽

Sergei A. Subbotin ◽

Reyes Peña-Santiago

Keyword(s):

Molecular Data ◽

Evolutionary Tree ◽

Valid Species ◽

Molecular Characterisation ◽

New Combinations ◽

Terminal Portion ◽

Significant Difference ◽

European Populations ◽

Emended Diagnosis

This contribution presents a study of Iberian and Californian populations of Aporcelaimellus simplex, including morphological, morphometric and molecular data. The species is characterised and distinguished by its lip region offset by an expansion, pars refringens vaginae absent, and conical tail with a small but distinct hyaline terminal portion. No significant difference exists between American and European populations. Molecular data and the derived evolutionary tree show a topology in which this species forms a well-supported group with members of Discolaiminae, far from other representatives of Aporcelaimellus. Putting special emphasis in the absence of pars refringens vaginae, A. simplex is transferred to the genus Aporcella. The taxonomy of this genus is revised in depth, with the proposal of an emended diagnosis, the provision of a list of 13 valid species (mostly new combinations from Aporcelaimellus) as well as a key to their identification and a compendium of their main morphometrics. Aporcella debruinae sp. n. is proposed for Aporcelaimellus papillatus apud de Bruin & Heyns, 1992.

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DNA barcodes provide evidence for the independent origin of the cultivated silkworms Samia ricini and Samia cynthia

Journal of Insects as Food and Feed ◽

10.3920/jiff2021.0077 ◽

2021 ◽

pp. 1-8

Author(s):

J.-C. Huang ◽

X.-Y. Li ◽

Y.-P. Li ◽

R.-S. Zhang ◽

D.-B. Chen ◽

...

Keyword(s):

Genetic Distance ◽

Phylogenetic Relationship ◽

Dna Barcode ◽

Distinct Species ◽

Coi Gene ◽

Molecular Evidence ◽

Dna Barcodes ◽

Close Relationship ◽

Molecular Phylogenetic ◽

Phylogenetic Framework

Samia ricini (Wm. Jones) and Samia cynthia (Drury) (Lepidoptera: Saturniidae) have been used as traditional sources of food as well as silk-producing insects. However, the phylogenetic relationship between the two silkworms remains to be addressed. In this study, the mitochondrial cytochrome c oxidase subunit 1 (COI) gene sequences corresponding to DNA barcodes from 13 Samia species were analysed, and a DNA barcode-based phylogenetic framework for these Samia species was provided. Phylogenetic analysis showed that multiple individuals of a species could be clustered together. Our analysis revealed a close relationship among Samia yayukae Paukstadt, Peigler and Paukstadt, Samia abrerai Naumann and Peigler, Samia kohlli Naumann and Peigler, Samia naessigi Naumann and Peigler, Samia naumanni Paukstadt, Peigler and Paukstadt, and Samia kalimantanensis Paukstadt and Paukstadt. The mixed clustering relationship and low Kimura-2-parameter (K2P) genetic distance (0.006) between individuals of S. ricini and Samia canningi (Hutton) indicated that the cultivated silkworm S. ricini was derived from the non-cultivated silkworm S. canningi. The remote phylogenetic relationship and high K2P genetic distance (0.039) indicated that S. ricini and S. cynthia are distinct species, thus providing solid molecular evidence that they had entirely independent origins. The relationships between S. kalimantanensis and S. naumanni and between S. cynthia and Samia wangi Naumann and Peigler, as well as the potential cryptic species within S. abrerai were also discussed. This is the first study to assess the DNA barcodes of the genus Samia, which supplements the knowledge of species identification and provides the first molecular phylogenetic framework for Samia species.

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An overview of recent taxonomic studies on Euphorbiaceae s.l. in Brazil

Rodriguésia ◽

10.1590/s2175-78602012000100014 ◽

2012 ◽

Vol 63 (1) ◽

pp. 227-242 ◽

Cited By ~ 14

Author(s):

Ricardo de S. Secco ◽

Inês Cordeiro ◽

Luci de Senna-Vale ◽

Margareth F. de Sales ◽

Letícia Ribes de Lima ◽

...

Keyword(s):

New Species ◽

Molecular Phylogeny ◽

Sensu Stricto ◽

Classification Systems ◽

Taxonomic Position ◽

Diverse Families ◽

Taxonomic Studies ◽

The Tropics

The Euphorbiaceae sensu lato are distributed mainly in the tropics, in various types of vegetation and habitats, being one of the largest, most complex and diverse families of angiosperms. It has recently been divided into four families, according to classification systems based on molecular phylogeny: Euphorbiaceae sensu stricto, Phyllanthaceae, Putranjivaceae, and Picrodendraceae. There is a proposition to establish Peraceae still under discussion. There were also changes in the taxonomic position of genera widely distributed in the Brazilian territory, such as Amanoa, Drypetes, Pera, Phyllanthus, Podocalyx, Pogonophora, and Richeria, among others. In addition, new species have been proposed and the limits of taxa distribution are expanding in Brazil. Thus, the authors provide an overview of recent studies and advances in the taxonomy of Euphorbiaceae s.l. in the Northern, Northeastern, Southeastern and Southern regions of Brazil, concentrating on review works and regional floras, as well as the changes that resulted in setting a new taxonomic family.

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Integrative taxonomy reveals a rare and new cusk-eel species of Luciobrotula (Teleostei, Ophidiidae) from the Solomon Sea, West Pacific

European Journal of Taxonomy ◽

10.5852/ejt.2021.750.1361 ◽

2021 ◽

Vol 750 ◽

pp. 52-69

Author(s):

Man-Kwan Wong ◽

Mao-Ying Lee ◽

Wei-Jen Chen

Keyword(s):

Lateral Line ◽

Gene Tree ◽

Distinct Species ◽

Integrative Taxonomy ◽

Coi Gene ◽

Valid Species ◽

The West ◽

West Pacific ◽

Fin Ray ◽

The Family

With six valid species, Luciobrotula is a small genus of the family Ophidiidae, commonly known as cusk-eels. They are benthopelagic fishes occurring at depths ranging from 115–2300 m in the Atlantic, Indian, and Pacific Oceans. Among them, Luciobrotula bartschi is the only known species in the West Pacific. Three specimens of Luciobrotula were collected from the Philippine Sea, Bismarck Sea, and Solomon Sea in the West Pacific during the AURORA, PAPUA NIUGINI, and MADEEP expeditions under the Tropical Deep-Sea Benthos program, and all of them were initially identified as L. bartschi. Subsequent examination with integrative taxonomy indicates that they belong to two distinct species, with the specimen collected from the Solomon Sea representing a new species, which is described here. In terms of morphology, Luciobrotula polylepis sp. nov. differs from its congeners by having a relatively longer lateral line (end of the lateral line below the 33rd dorsal-fin ray) and fewer vertebrae (abdominal vertebrae 13, total vertebrae 50). In the inferred COI gene tree, the two western Pacific species of Luciobrotula do not form a monophyletic group. The genetic K2P distance between the two species is 13.8% on average at the COI locus.

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Parasitic wasps as natural enemies of aphid populations in the Mashhad region of Iran: New data from DNA barcodes and SEM

Archives of Biological Sciences ◽

10.2298/abs1104225d ◽

2011 ◽

Vol 63 (4) ◽

pp. 1225-1234 ◽

Cited By ~ 1

Author(s):

Reyhaneh Darsouei ◽

Javad Karimi ◽

Mehdi Modarres-Awal

Keyword(s):

Dna Barcoding ◽

Modern Method ◽

Diaeretiella Rapae ◽

Coi Gene ◽

Dna Barcodes ◽

Parasitic Wasps ◽

Pome Fruit ◽

Initial Attempt ◽

Morphometric Characters ◽

Preliminary Identification

DNA barcoding is a modern method for the identification of different species, including insects. Among animals, the major emphasis of DNA barcoding is on insects. Due to this global trend we addressed this approach for surveying a group of insects. The parasitic wasps (including primary and hyperparasitoids) of pome fruit orchard aphids were collected from Iran-Mashhad during 2009-2010. Preliminary identification of this group was performed by using morphological and morphometric characters and SEM. The COI gene in the specimens was amplified and sequenced. In this survey, Aphidius matricariae, Binodoxys angelicae, Diaeretiella rapae, Ephedrus persicae, Lysiphlebus fabarum and Praon volucre parasitoids and Alloxysta sp., Asaphes suspensus, Dendrocerus carpenteri, Pachyneuron aphidis, Syrphophagus aphidivorus hyperparasitoids were studied. Based on intra-interspecies distances and phylogenetic analysis using NJ, all species possess diagnostic barcode sequences. The results of this study show that the COI sequence could be useful in identification study of this group of insects. Here we have provided the first GenBank data for the COI gene of the above-mentioned hyperparasitoids as well as an initial attempt toward preparing DNA barcodes for Iranian parasitoid and hyperparasitoid aphids.

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Investigating leaf beetles (Coleoptera, Chrysomelidae) on the west coast islands of Sabah via checklist-taking and DNA barcoding

10.7287/peerj.preprints.26801 ◽

2018 ◽

Author(s):

Kam-Cheng Yeong ◽

Haruo Takizawa ◽

Thor-Seng Liew

Keyword(s):

Dna Barcoding ◽

West Coast ◽

Leaf Beetle ◽

Coi Gene ◽

Beetle Species ◽

Dna Barcodes ◽

The West ◽

Leaf Beetles ◽

Baseline Knowledge ◽

Island Habitats

Sabah, northern Borneo is one of the world’s most well-recognized biodiversity hotspots famous for the incredible diversity of its flora and fauna. Plenty of studies of leaf beetle fauna from this region have been conducted over the past 30 years. Yet, our knowledge of the leaf beetle fauna from island habitats remains scarce despite Sabah having the highest number of islands in Malaysia (ca. 500 islands). In this study, we collected leaf beetle fauna from 13 islands off the west coast of Sabah between January 2016 and March 2017. All specimens were identified to species level. Species names were assigned when the specimens fitted the description of species in the literature and morpho-species were assigned when the species names could not be determined. In addition, DNA barcodes – mitochondarial COI gene – of the species were sequenced. A total of 68 species from 31 genera and 5 subfamilies were collected with 12 species name being determined. From the data it was established that Pulau Gaya has the highest species richness (42 species), followed by Pulau Tiga (22 species) and Pulau Sapangar (18 species). Furthermore, a total of 64 Barcode Index Numbers consisting of 101 DNA barcodes were obtained from 60 leaf beetle species. The mean intraspecific and interspecific distances were determined as 0.77 % and 16.11 %, respectively. In addition, DNA barcoding also reveals phenotypic variation in leaf beetle species, particularly in the case of the subfamily Galerucinae. This study provides baseline knowledge and information about the DNA barcodes of leaf beetle species on Sabah’s island habitats for use in future studies.

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