Male and female association in <i>Trichomyia</i> Haliday in Curtis, 1839 using a molecular approach (Diptera, Psychodidae, Trichomyiinae), and description of new species from Brazil

Araújo, Maíra Xavier; Aragão, Marcos; Cordeiro, Danilo; Bravo, Freddy; Carvalho, Claudio José Barros de; Andena, Sergio R.

doi:10.1016/j.rbe.2018.08.004

ABSTRACT

A new species of Trichomyia from the state of Bahia, Brazil, is described and illustrated, and male and female are associated using DNA barcoding. Additionally, fragments of the COI of two other species, Trichomyia cerdosa Araújo & Bravo, 2016 and Trichomyia ituberensis Araújo & Bravo, 2016, and the females of two unidentified species, are sequenced.

Keywords
DNA-barcoding; COI; Neotropical Region; Psychodid; Trichomyiinae

Introduction

Taxonomy of Trichomyia Haliday in Curtis is mainly based on males. Duckhouse (1978)Duckhouse, D.A., 1978. Taxonomy, phylogeny and distribution of the genus Trichomyia (Diptera, Psychodidae) in Australia and New Guinea. Syst. Entomol. 3, 197-243., for example, described 30 species, only two of which included females, and Araújo and Bravo (2016)Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76. described all of the forty-four Trichomyia species based only on males. It is possible that the absence of females in taxonomic treatments is due to the fact that they are not attracted to the same baits that attract males (Duckhouse, 1978Duckhouse, D.A., 1978. Taxonomy, phylogeny and distribution of the genus Trichomyia (Diptera, Psychodidae) in Australia and New Guinea. Syst. Entomol. 3, 197-243.: 202); alternatively, the morphological association between males and females in this genus is difficult when several species are collected from the same locality.

Males of nine species of Trichomyia are unknown: T. barretoi Barreto, T. coutinhoi (Barretto), T. squamosa (Enderlein), T. eatoni Satchell, T. travassosi (Barretto), T. vazi (Barretto) and T. wasmanni (Holmgren) from the Neotropical Region and T. batu Quate from the Oriental Region.

The DNA barcoding technique (Hebert et al., 2003Hebert, P.D.N., Cywinska, A., Ball, S.L., Waard, J.R., 2003. Biological identifications through DNA barcodes. Proc. R. Soc. Lond. 270, 313-321.), i.e., the analysis of a short region of the mitochondrial cytochrome c oxidase gene subunit I (COI) (< 650 pb), has been used with relative success in animals to differentiate species, including in Diptera (Ekrem et al., 2010Ekrem, T., Stur, E., Hebert, P.D.N., 2010. Females do count: documenting Chironomidae (Diptera) species diversity using DNA barcoding. Org. Divers. & Evol. 10, 397.; Kurina et al., 2011Kurina, O., Õunap, E., Ramel, G., 2011. Baeopterogyna mihalyii Matile (Diptera, Mycetophilidae): association of sexes using morphological and molecular approaches with the first description of females. Zookeys 114, 15-27.). The technique has also been used extensively to associate life stages such as males and females (Willassen, 2005Willassen, E., 2005. New species of Diamesa (Diptera: Chironomidae) from Tibet: conspecific males and females associated with mitochondrial DNA. Zootaxa 1049, 19-32.; Zhang et al., 2013Zhang, D., Zhang, M., Pape, T., Wu, W., 2013. Sarcophaga (Hoa) flexuosa Ho (Diptera: Sarcophagidae): association of sexes using morphological and molecular approaches, and a redefinition of Hoa Rohdendorf. Zootaxa 3670, 71-79.) or immatures and adults (Contreras-Gutierrez et al., 2013Contreras-Gutierrez, M.A., Gómez, R.V., Soto, S.U., 2013. DNA barcode: una herramienta para la identificacíon de Lutzomyia spp. a partir de larvas. Boletín del Museo Entomológico Francisco Luís Gallego 5, 7-16.; García-Robledo et al., 2013García-Robledo, C., Kuprewicz, E.K., Staines, C.L., Kress, W.J., Erwin, T.L., 2013. Using a comprehensive DNA barcode library to detect novel egg and larval host plant associations in a Cephaloleia rolled-leaf beetle (Coleoptera: Chrysomelidae). Biol. J. Linn. Soc. 110, 189-198.; Vivero et al., 2017Vivero, R.J., Bejarano, E.E., Estrada, L.G., Flórez, F., Ortega-Gómez, E., Aparicio, Y., 2017. DNA barcode for identification of immature stages of sand flies (Diptera: Psychodidae) collected from natural breeding sites. Zootaxa 4277, 228-236.). In Psychodidae, DNA barcoding has been used extensively for species differentiation in Phlebotominae (e.g. Kumar et al., 2012Kumar, N.P., Srinivasan, R., Jambulingam, P., 2012. DNA barcoding for identification of sand flies (Diptera: Psychodidae) in India. Mol. Ecol. Resour. 12, 414-420.; Gutiérrez et al., 2014Gutiérrez, M.A.C., Vivero, R.J., Vélez, I.D., Porter, C.H., Uribe, S., 2014. DNA barcoding for the identification of sand fly species (Diptera, Psychodidae, Phlebotominae) in Colombia. PLOS ONE 9, 85496.; Nzelu et al., 2015Nzelu, C.O., Cáceres, A.C., Arrunátegui-Jiménez, M.J., Lañas-Rosas, M.F., Yañez-Trujillano, H.H., Luna-Caipo, D.V., Holguín-Mauricci, C.E., Katakura, K., Hashiguchi, Y., Katoa, H., 2015. DNA barcoding for identification of sand fly species (Diptera: Psychodidae) from leishmaniasis-endemic areas of Peru. Acta Tropica 145, 45-51.; Pinto et al., 2015Pinto, I.S., Chagas, B.D., Rodrigues, A.A.F., Ferreira, A.L., Rezende, H.R., 2015. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLOS ONE 10, 10.), but also for other subfamilies including Psychodinae (Kvifte and Andersen, 2012Kvifte, G.M., Andersen, T., 2012. Moth flies (Diptera, Psychodidae) from Finnmark, northern Norway. Norwegian J. Entomol. 59, 108-119.; Kvifte and Boumans, 2014Kvifte, G.M., Boumans, L., 2014. Further records and DNA barcodes of Norwegian moth flies (Diptera, Psychodidae). Norwegian J. Entomol. 61, 11-14.; Kvifte and Menzel, 2016Kvifte, G.M., Menzel, F., 2016. Erstnachweise von Seoda morula (Eaton) und Atrichobrunettia simplex Wagner (Diptera: Psychodidae) aus Frankreich. Studia Dipterologica 22, 130-132.), Sycoracinae (Ježek et al., 2015Ježek, J., Wahab, R.A., Ševčík, J., 2015. Two new species of Sycorax (Diptera: Psychodidae: Sycoracinae) from the Oriental region. Zootaxa 4057, 539-550.) and Bruchomyiinae (Polseela et al., 2018Polseela, R., Wagner, R., Kvifte, G.M., Rulik, B., Apiwathnasorn, C., 2018. Revision of Bruchomyiinae (Diptera, Psychodidae) of the Oriental Region, with description of a new genus and species and discussion of putative male/female antagonistic coevolution. Insect Syst. Evol. , 1-16.). In this paper, sex association by DNA barcoding is used for the first time in Trichomyia. Additionally, male and female of a new species from Brazil are described.

Material and methods

The specimens studied are deposited at Coleção Entomológica Professor Johann Becker do Museu de Zoologia da Universidade Estadual de Feira de Santana, Feira de Santana, Brazil (MZFS). The specimens for DNA extraction were collected with Malaise and light traps between 2012/2013 from Reserva Ecológica da Michelin, state of Bahia, Brazil (13°50′16.0″S/39°14′28.9″W; 139 m).

The specimens were collected in 70% ethanol, transferred and stored in 100% ethanol, then packed in a freezer at -20 °C. The head, wing and genitalia of each specimen studied were separated and mounted on permanent slides with Canada balsam after a diaphanization process with potassium hydroxide (10% KOH). The thorax and abdomen of the studied specimens were used in the DNA extraction. All vouchers are deposited at the MZFS.

Terminology

The morphological terminology is based on Cumming and Wood (2009)Cumming, J.M., Wood, D.M., 2009. Adult morphology and terminology. In: Brown, B.V., Borkent, A., Cumming, J.M., Wood, D.M., Zumbado, M.A. (Eds.), Manual of Central American Diptera, vol. 1. NRC Research Press, Ottawa, pp. 9–50., except for the antenna (Ibáñez-Bernal, 2004Ibáñez-Bernal, S., 2004. Notes on the known species of Trichomyia Haliday of Mexico, with the establishment of a synonymy and the description of a new species (Diptera: Psychodidae). Zootaxa 523, 1-14.). The posterior projection of gonocoxite is named here as ‘arm of gonocoxite'.

Molecular techniques

The sequences were obtained in the Laboratory of Molecular Systematics of Plants (Lamol) of the Universidade Estadual de Feira de Santana. The extraction was performed with the DNeasy Blood & Tissue Kit (Qiagen, Valencia, USA) following the protocol provided by the manufacturer with the following modifications: for more concentrated DNA, elution was performed in two successive steps of 50 µl each with Buffer AE.

A partial sequence of the mitochondrial cytochrome oxidase gene subunit I (COI) was amplified and sequenced with the primer pairs listed in Table 1. The DNA primers LCO/HCO were used to amplify some samples. When the primer pair mentioned above failed, a smaller fragment, obtained with the primers MtD6 and MtD9, was amplified instead (see Table 1). All primers at 10 nmol/µl.

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Table 1
Primer pairs used for the amplification of COI gene fragments.

A solution for polymerase chain reaction (PCR) was prepared with the following concentrations: 0.7 µl MilliQ water; 2 µl of additive; 0.15 µl of each primer and 5 µl of Top Taq Master Mix kit (Qiagen) for each 2 µl of concentrated DNA. Subsequently, the PCR was performed with 37 cycles of the following steps: an initiation of 94 °C for 3 min, denaturation at 94 °C for 30 s, annealing at 48 °C for 40 s, extension at 72 °C for 40 s and a final extension of 72 °C for 5 min.

The result of this amplification was analyzed on a 1.0% agarose gel, stained with ethidium bromide and visualized on a UV transilluminator. The strong bands were measured as an indirect measure of the amount of DNA, which was confirmed by measurement in Nanodrop^® using 1 µl of the PCR reaction. According to these results the samples were considered good for the sequencing reaction and subjected to a PEG (polyethylene glycol) cleaning.

The mix for the pre-reactions of sequencing were made with 10 µl (in both directions, forward and reverse) using 0.75 µl of BigDye Terminator v3.1 Cycle Sequencing Kit (Applied Biosystems), 1.75 µl of buffer for sequencing (Save Money 5×) and 1.0 µl of the 5 pmol/µl primer. The amount of DNA and ultra pure water used in this solution depended on the values obtained in the count in Nanodrop^®.

The sequencing reaction followed this schedule in the Biocycler^® MJ96G thermal cycler: 30 cycles of initial temperature of 96 °C for 3 min, denaturation of 96 °C for 15 s, annealing of 50 °C for 10 s, extension of 60 °C for 4 min and finally final extension of 60 °C for 7 min. The samples were then purified for sequencing and inserted into an automatic sequencer (ABI 3130XL Genetic Analyzer).

All sequences are deposited in GenBank (Table 2).

Alignment

Each nucleotide sequence was compared to the sequences deposited in the NCBI (National Center of Biotechnology Information) database through the BLAST (Standard Nucleotide Basic Local Alignment Search Tool) algorithm. The sequences obtained were edited and aligned using the program BioEdit 7.1.9 (www.mbio.ncsu.edu/BioEdit/BioEdit.html). For each sequence, the agreement between the chromatogram and the nucleotides, and between the two complementary strands, was maximized.

Intra and interspecific genetic divergences were calculated using the p-distances in the MEGA X 10.0.4 program (Kumar et al., 2018Kumar, S., Stecher, G., Li, M., Knyaz, C., Tamura, K., 2018. MEGA X: molecular evolutionary genetics analysis across computing platforms. Mol. Biol. Evol. 35, 1547-1549.).

Taxonomy

Trichomyia pseudoannae Araújo & Bravo sp. nov.

(Figs. 1.1-9 and 2.1-3)

Fig. 1.
1–9 Trichomyia pseudoannae sp. nov. 1. Scape, pedicel and flagellomeres 1 and 2; 2. Right wing; 3. Head, dorsal view; 4. Head, ventral view; 5. Palpus; 6. Male terminalia, lateral, arrow in projection in the gonocoxal apodeme; 7. Cerci, epandrium, hypoproct; 8. Male terminalia, ventral; 9. Aedeagus and parameres (agv, ventral arm of gonocoxite; agd, dorsal arm of gonocoxite; cer, cercus; aed, aedeagus; hyp, hypoproct; pm, paramere; php, post-hypandrial plate).

Diagnosis. Head with one row of supraocular alveoli and one row of occipital alveoli. Palpus with three segments. Male terminalia with hypandrium fused to gonocoxites and expanded posteriorly as a apically slightly bifucate plate covering the aedeagus, gonocoxite with two pairs of arms. Female with the subgenital plate trapezoidal and bifurcated apically, cerci elongated.

Description.

Male. Head subcircular, eyes rounded. Supraocular setae in single row (Fig. 1.3). Occipital setae arranged in single row (Fig. 1.4). Antennal pit subtriangular, short distance between antennae (less than 1/3 of the width of the pits and with sclerotic fold). Scape subcylindrical and pedicel subespherical, basal flagellomeres pyriform and eccentric; with a pair of mediobasal digitiform and S-shaped ascoids, first and second flagellomere equal in length, ascoids 1.4 times length of flagellomere (Fig. 1.1). Palpus three-segmented; first segment with sensilla in depressed pit on inner side; palpus formula: 1.0:0.6:0.9 (Fig. 1.5). Wing (Fig. 1.2). Sc-r sclerotized but not microsetose, r-m present, radial fork distal of apices of CuA₂ and medial fork, base of M₂ sclerotized but without microsetae. Male terminalia. Hypandrium fused with gonocoxites and expanded posteriorly as an apically slightly bifucate plate covering the aedeagus. Two pairs of arms of gonocoxite (Fig. 1.8: agd, agv), one dorsal, directed to apical region and with fine bristles distributed irregularly and a ventral pair, longer than dorsal one, directed to internal region of genitalia at an angle of 60°. Pair of dorsal arms digitiform, with row of rod-like setae at apex and simple bristles distributed irregularly. Gonostylus sub-circular, slightly sclerotized and with fine bristles, articulated with ventral region of gonocoxite (Fig. 1.8). Gonocoxal apodeme with medium, narrow and sclerotized projection directed to dorsal region of genitalia (Fig. 1.6 and 1.8). Aedeagus bifid; two pairs of parameres, dorsal lanciform and ventral digitiform, ejaculatory apodeme long, 1.75 times length of parameres (Fig. 1.9). Cercus cuneiform with bristles distributed irregularly. Hypoproct with micropilosity and apex rounded. Epandrium trapezoidal and pilose, with alveoli distributed in two lateral patches (Fig. 1.7).

Female. Head, antennae, mouthparts, palpi and wings as in male. Female terminalia. subgenital plate trapezoidal bifurcated apically. Cerci elongate, about 5.2 times longer than wide; sclerotized arch between cerci acuminate and with microseate, 0.4 as long as cerci (Fig. 2.1 and 2.3). Spermathecae with ducts annulated, inflated apically, apex slightly truncated. Median apodeme with two sclerotized projections anteriorly and three posteriorly; median posterior projection three times longer than other projections (Fig. 2.2).

Fig. 2.
1–3 Trichomyia pseudoannae sp. nov. 1. Female terminalia, ventral; 2. Median apodeme and spermathecae; 3. Female terminalia, dorsal (map, median apodeme; cer, cercus; spm, spermathecae; subp, subgenital plate).

Material examined: Voucher #m and holotype #m (MZFS) Brazil, Bahia, Igrapiuna, Reserva Ecológica da Michelin, Pancada Grande, 18.V.2013, M. Aragão & E. Menezes cols.; 1 paratype #m (MZFS) the same locality and collector as holotype, 15.VI.2013; 22 paratypes #m (MZFS) Brazil, Bahia, Igrapiuna, Reserva Ecológica da Michelin, Pacangê, M. Aragão & E. Menezes cols. 27-28.X.2012 (1 paratype); 22.IX-28.X.2012 (5 paratypes); 16.XII-20.I.2013 (11 paratypes); 24.II-31.III.2013 (1 paratype); 21-22.VII.2012 (1 paratype); 27-28.IV.2013 (2 paratypes); 30-31.III.2013 (1 paratype); 1 paratype #m (MZFS) Brazil, Bahia, Igrapiuna, Reserva Ecológica da Michelin, Vila 5, 24.II-31.III.2013, M. Aragão & E. Menezes cols.; Voucher #f (MZFS) Brazil, Bahia, Igrapiuna, Reserva Ecológica da Michelin, Pancada Grande, 22.IX.2012, M. Aragão & E. Menezes cols.; 1 paratype #f (MZFS) the same locality and collector as allotype.

Etymology. The epithet refers to morphological similarity with Trichomyia annae Bravo, 2001.

Distribution. Known only from the type locality.

Comments. The new species is morphologically similar to Trichomyia annae. The differences are in the male terminalia, the plate expanded posteriorly of hypandrium and gonocoxites has a small bifurcation apically with projections on rounded apex and not lanciform as in T. annae. Both species, to date, have not been included in any subgenus.

Trichomyia ituberensis Araújo & Bravo

Trichomyia ituberensisAraújo & Bravo, 2016Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76.: 30-31, figs. 13A-I.

Comments. Males of T. ituberensis are recognized by the genitalia, with a hypandrium fused with gonocoxites and expanded posteriorly as an apically strongly bifucate plate covering the aedeagus. There are two pairs of parameres and rod-like setae in the arm of gonocoxite.

Material examined. Brazil, Bahia, Igrapiuna, Reserva Ecológica Michelin, Vila 5, 28.IV-19.V.2013 (Malaise), M. Aragão & E. Menezes cols., 1 #m (MZFS).

Distribution. Brazil (Bahia).

Trichomyia cerdosa Araújo & Bravo

Trichomyia cerdosaAraújo & Bravo, 2016Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76.: 39-40, figs. 20A-H.

Comments. Males of T. cerdosa are recognized by the genitalia, with an elongate arm of gonocoxite with elongate apical bristles. The cercus has four apical bristles rod-like.

Material examined. Brazil, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 15.VI.2013 (light trap), M. Aragão & E. Menezes cols., 2 #m (MZFS).

Distribution. Brazil (Bahia).

Sexual association by DNA barcoding

Fragments of COI of seven specimens of at least three species were sequenced (Table 2).

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Table 2
Specimens analyzed in this work, including the species names; BR, Brazil; gender (M, male; F, female); code, primer, pair base sequence, GenBank accession numbers and locality.

The male-female association was possible only in Trichomyia pseudoannae sp nov. The COI sequences from male and female diverged in only in nucleotide position 361 (G in the sequenced female and A in the male). Data from morphology, close DNA-barcoding (0.002) and the fact that both specimens were collected from the same locality corroborate our hypothesis that of that they belong to the same species (Fig. 3).

Fig. 3.
Dendrogram of genetic similarity among Trichomyia species analyzed, F, female.

Concerning the other specimens analyzed here, the distance between the sequences of two male specimens of T. cerdosa was 0.011. In general, the intra/inter specific genetic distances range from 0.002-0.010/0.390-0.314 respectively (Table 3).

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Table 3
Matrix of p-distances among males and females of specimens ofTrichomyia. Bold denotes shortest distances; F, female.

Acknowledgements

The authors would like to thank Dr. Gunnar Mikalsen Kvife and Dr. Rüdiger Wagner for your valuable input that have helped to improve this manuscript. CJBC and FB thanks the CNPq for support (process # 309873/2016-9 and 306441/2015-2, respectively).

References

Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76.
Contreras-Gutierrez, M.A., Gómez, R.V., Soto, S.U., 2013. DNA barcode: una herramienta para la identificacíon de Lutzomyia spp. a partir de larvas. Boletín del Museo Entomológico Francisco Luís Gallego 5, 7-16.
Cumming, J.M., Wood, D.M., 2009. Adult morphology and terminology. In: Brown, B.V., Borkent, A., Cumming, J.M., Wood, D.M., Zumbado, M.A. (Eds.), Manual of Central American Diptera, vol. 1. NRC Research Press, Ottawa, pp. 9–50.
Duckhouse, D.A., 1978. Taxonomy, phylogeny and distribution of the genus Trichomyia (Diptera, Psychodidae) in Australia and New Guinea. Syst. Entomol. 3, 197-243.
Ekrem, T., Stur, E., Hebert, P.D.N., 2010. Females do count: documenting Chironomidae (Diptera) species diversity using DNA barcoding. Org. Divers. & Evol. 10, 397.
Folmer, O., Black, M., Hoeh, W., Lutz, R., Vrijenhoek, R., 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mol. Mar. Biol. Biotechnol. 3, 294-299.
García-Robledo, C., Kuprewicz, E.K., Staines, C.L., Kress, W.J., Erwin, T.L., 2013. Using a comprehensive DNA barcode library to detect novel egg and larval host plant associations in a Cephaloleia rolled-leaf beetle (Coleoptera: Chrysomelidae). Biol. J. Linn. Soc. 110, 189-198.
Gutiérrez, M.A.C., Vivero, R.J., Vélez, I.D., Porter, C.H., Uribe, S., 2014. DNA barcoding for the identification of sand fly species (Diptera, Psychodidae, Phlebotominae) in Colombia. PLOS ONE 9, 85496.
Hebert, P.D.N., Cywinska, A., Ball, S.L., Waard, J.R., 2003. Biological identifications through DNA barcodes. Proc. R. Soc. Lond. 270, 313-321.
Ibáñez-Bernal, S., 2004. Notes on the known species of Trichomyia Haliday of Mexico, with the establishment of a synonymy and the description of a new species (Diptera: Psychodidae). Zootaxa 523, 1-14.
Ježek, J., Wahab, R.A., Ševčík, J., 2015. Two new species of Sycorax (Diptera: Psychodidae: Sycoracinae) from the Oriental region. Zootaxa 4057, 539-550.
Kumar, N.P., Srinivasan, R., Jambulingam, P., 2012. DNA barcoding for identification of sand flies (Diptera: Psychodidae) in India. Mol. Ecol. Resour. 12, 414-420.
Kumar, S., Stecher, G., Li, M., Knyaz, C., Tamura, K., 2018. MEGA X: molecular evolutionary genetics analysis across computing platforms. Mol. Biol. Evol. 35, 1547-1549.
Kurina, O., Õunap, E., Ramel, G., 2011. Baeopterogyna mihalyii Matile (Diptera, Mycetophilidae): association of sexes using morphological and molecular approaches with the first description of females. Zookeys 114, 15-27.
Kvifte, G.M., Andersen, T., 2012. Moth flies (Diptera, Psychodidae) from Finnmark, northern Norway. Norwegian J. Entomol. 59, 108-119.
Kvifte, G.M., Boumans, L., 2014. Further records and DNA barcodes of Norwegian moth flies (Diptera, Psychodidae). Norwegian J. Entomol. 61, 11-14.
Kvifte, G.M., Menzel, F., 2016. Erstnachweise von Seoda morula (Eaton) und Atrichobrunettia simplex Wagner (Diptera: Psychodidae) aus Frankreich. Studia Dipterologica 22, 130-132.
Nzelu, C.O., Cáceres, A.C., Arrunátegui-Jiménez, M.J., Lañas-Rosas, M.F., Yañez-Trujillano, H.H., Luna-Caipo, D.V., Holguín-Mauricci, C.E., Katakura, K., Hashiguchi, Y., Katoa, H., 2015. DNA barcoding for identification of sand fly species (Diptera: Psychodidae) from leishmaniasis-endemic areas of Peru. Acta Tropica 145, 45-51.
Pinto, I.S., Chagas, B.D., Rodrigues, A.A.F., Ferreira, A.L., Rezende, H.R., 2015. DNA barcoding of neotropical sand flies (Diptera, Psychodidae, Phlebotominae): species identification and discovery within Brazil. PLOS ONE 10, 10.
Polseela, R., Wagner, R., Kvifte, G.M., Rulik, B., Apiwathnasorn, C., 2018. Revision of Bruchomyiinae (Diptera, Psychodidae) of the Oriental Region, with description of a new genus and species and discussion of putative male/female antagonistic coevolution. Insect Syst. Evol. , 1-16.
Simon, C., Frati, F., Becknbach, A., Crespi, B., Liu, H., Flook, P., 1994. Evolution, weighting, and phylogenetic utility of mitochondrial gene sequences and a compilation of conserved polymerase chain reaction primers. Ann. Entomol. Soc. Am. 87, 651-701.
Vivero, R.J., Bejarano, E.E., Estrada, L.G., Flórez, F., Ortega-Gómez, E., Aparicio, Y., 2017. DNA barcode for identification of immature stages of sand flies (Diptera: Psychodidae) collected from natural breeding sites. Zootaxa 4277, 228-236.
Zhang, D., Zhang, M., Pape, T., Wu, W., 2013. Sarcophaga (Hoa) flexuosa Ho (Diptera: Sarcophagidae): association of sexes using morphological and molecular approaches, and a redefinition of Hoa Rohdendorf. Zootaxa 3670, 71-79.
Willassen, E., 2005. New species of Diamesa (Diptera: Chironomidae) from Tibet: conspecific males and females associated with mitochondrial DNA. Zootaxa 1049, 19-32.

Edited by

Associate Editor: Andrzej Grzywacz

Publication Dates

Publication in this collection
Oct-Dec 2018

History

Received
28 May 2018
Accepted
23 Aug 2018
Published
5 Sept 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76.

[2] Contreras-Gutierrez, M.A., Gómez, R.V., Soto, S.U., 2013. DNA barcode: una herramienta para la identificacíon de Lutzomyia spp. a partir de larvas. Boletín del Museo Entomológico Francisco Luís Gallego 5, 7-16.

[3] Cumming, J.M., Wood, D.M., 2009. Adult morphology and terminology. In: Brown, B.V., Borkent, A., Cumming, J.M., Wood, D.M., Zumbado, M.A. (Eds.), Manual of Central American Diptera, vol. 1. NRC Research Press, Ottawa, pp. 9–50.

[4] Duckhouse, D.A., 1978. Taxonomy, phylogeny and distribution of the genus Trichomyia (Diptera, Psychodidae) in Australia and New Guinea. Syst. Entomol. 3, 197-243.

[5] Ekrem, T., Stur, E., Hebert, P.D.N., 2010. Females do count: documenting Chironomidae (Diptera) species diversity using DNA barcoding. Org. Divers. & Evol. 10, 397.

[6] Folmer, O., Black, M., Hoeh, W., Lutz, R., Vrijenhoek, R., 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mol. Mar. Biol. Biotechnol. 3, 294-299.

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Primer	Sequence (5′ → 3′)	References
LCO1490	GGTCAACAAATCATAAAGATATTGG	Folmer et al. (1994)Folmer, O., Black, M., Hoeh, W., Lutz, R., Vrijenhoek, R., 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mol. Mar. Biol. Biotechnol. 3, 294-299.
HCO2198	TAAACTTCAGGGTGACCAAAAAATCA	Folmer et al. (1994)Folmer, O., Black, M., Hoeh, W., Lutz, R., Vrijenhoek, R., 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Mol. Mar. Biol. Biotechnol. 3, 294-299.
MtD6	GGAGGATTTGGAAATTGATTAGTTCC	Simon et al. (1994)Simon, C., Frati, F., Becknbach, A., Crespi, B., Liu, H., Flook, P., 1994. Evolution, weighting, and phylogenetic utility of mitochondrial gene sequences and a compilation of conserved polymerase chain reaction primers. Ann. Entomol. Soc. Am. 87, 651-701.
MtD9	CCCGGTAAAATTAAAATATAAACTTC	Simon et al. (1994)Simon, C., Frati, F., Becknbach, A., Crespi, B., Liu, H., Flook, P., 1994. Evolution, weighting, and phylogenetic utility of mitochondrial gene sequences and a compilation of conserved polymerase chain reaction primers. Ann. Entomol. Soc. Am. 87, 651-701.

Species	Gender	DNA extraction	Primer	Sequence	GenBank accession	Locality
		code		(pb)	numbers
T. cerdosaAraújo &Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76. Bravo, 2016	M	T15	lco/hco	657	MH042537	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 15.VI.2013 (light trap), M. Aragão & E. Menezes leg.
T. cerdosaAraújo &Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76. Bravo, 2016	M	P4	mtd6/mtd9	480	MH042535	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 15.VI.2013 (light trap), M. Aragão & E. Menezes leg.
T. pseudoannae sp. nov.	M	P28	lco/hco	468	MH042538	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 18.V.2013 (light trap), M. Aragão & E. Menezes leg.
T. ituberensisAraújo &Araújo, M.X., Bravo, F., 2016. Description of forty four new species, taxonomic notes and identification key to Neotropical Trichomyia Haliday in Curtis (Diptera: Psychodidae, Trichomyiinae). Zootaxa 4130, 1-76. Bravo, 2016	M	P21	mtd6/mtd9	480	MH042540	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Vila 5, 28.IV–19.V.2013 (Malaise), M. Aragão & E. Menezes leg.
T. pseudoannae sp. nov.	F	P46	lco/hco	657	MH042536	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 22.IX.2012 (light trap), M. Aragão & E. Menezes leg.
Trichomyia sp1	F	P29	mtd6/mtd9	467	MH042539	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 18.V.2013 (light trap), M. Aragão & E. Menezes leg.
Trichomyia sp2	F	P44	lco/hco	633	MH042541	BR, Bahia, Igrapiuna, Reserva Ecológica Michelin, Pancada Grande, 24.III.2013 (light trap), E. Mota, M. Aragão & E. Menezes leg.

	#P4 T.	#P46 T.	#T15 T.	#P28 T.	#P29 Trichomyia	#P21 T.	#P44 Trichomyia
	cerdosa	pseudoannae (F)	cerdosa	pseudoannae	sp1 (F)	ituberensis	sp2 (F)
#P4 T. cerdosa		0.156	0.010	0.162	0.197	0.216	0.276
#P46 T.	0.156		0.166	0.002	0.188	0.139	0.287
pseudoannae (F)
#T15 T. cerdosa	0.010	0.166		0.168	0.201	0.220	0.294
#P28 T.	0.162	0.002	0.168		0.202	0.154	0.304
pseudoannae
#P29 Trichomyia	0.197	0.188	0.201	0.202		0.218	0.388
sp.1 (F)
#P21 T. ituberensis	0.216	0.139	0.220	0.154	0.218		0.314
#P44 Trichomyia	0.276	0.287	0.294	0.304	0.388	0.314
sp.2 (F)

Brasil

Brasil

Male and female association in Trichomyia Haliday in Curtis, 1839 using a molecular approach (Diptera, Psychodidae, Trichomyiinae), and description of new species from Brazil

ABSTRACT

Introduction

Material and methods

Terminology

Molecular techniques

Alignment

Taxonomy

Sexual association by DNA barcoding

Acknowledgements

References

Edited by

Publication Dates

History