Taxonomic revision of Teleogryllus mitratus (Burmeister, 1838) and T. occipitalis (Serville, 1838) in India, withthe description of Teleogryllus rohinae Jaiswara & Jain sp. nov. and a key for Teleogryllus species from India (Orthoptera: Gryllidae) Author Jaiswara, Ranjana Department of Biological Sciences, Indian Institute of Science Education and Research Mohali 140306, Punjab, India. & Present Address: Department of Zoology, Panjab University, Chandigarh, 160014, India. Author Desutter-Grandcolas, Laure Institut de Systématique, Évolution, Biodiversit, ISYEB, Museum national d’histoire naturelle, Sorbonne université, CNRS, UPMC, EPHE, Université de Antilles, CP 50, 57 rue Cuvier 75231 Paris Cedex 05, France. Author Jain, Manjari Department of Biological Sciences, Indian Institute of Science Education and Research Mohali 140306, Punjab, India. text Zootaxa 2021 2021-08-04 5016 1 81 106 journal article 10.11646/zootaxa.5016.1.3 1175-5326 5221842 F0DA73A8-E6EE-4A64-873C-964D8F25670B Teleogryllus rohinae Jaiswara & Jain , sp. nov. Figures 1 , 4A–H , 5E , 6D , 7E , 8C , 9D , 10I–L , 11E–F & 12 ; Table 3 Type locality: India , Kerala , Nileshwar, Bekal Club, 5km from Nileshwar Railway Station. Type material: Holotype — INDIA : Kerala , Bekal Club , 8km from Nileshwar Railway Station , 1 male ( MJO _ 1177), 7m asl , 12° 16′ 20. 3′′ N 75° 6′ 47.4′′ E , 24.i.2017 , R. Jaiswara and M. Jain , ZSI Kolkata. Allotype — INDIA : Kerala , Bekal Club , 8km from Nileshwar Railway Station , 1 female ( MJO _1169), 7m asl , 12° 16′ 20. 3′′ N 75° 6′ 47. 4′′ E , 24.i.2017 , R. Jaiswara and M. Jain , ZSI Kolkata. Paratypes — INDIA : Kerala , Bekal Club , 12° 16′ 20.3′′ N 75° 6′ 47.4′′ E , 7m asl , 8km from Nileshwar Railway Station , 24.i.2017 , 5 male ( MJO _1175–1179) and 5 female ( MJO _1159–1163), collected by R. Jaiswara and M. Jain , thereafter deposited in IISER Mohali . Distribution: Currently known only from the type locality. Etymology: This new species is named in honour of Professor Rohini Balakrishnan, Centre for Ecological Sciences, Indian Institute of Science, Bangalore, for introducing RJ and MJ to the cricket model system and in recognition of her significant contribution to the understanding of the behaviour and ecology of Indian crickets. Name in apposition—gender feminine. Habitat: T. rohinae Jaiswara & Jain sp. nov. was primarily found in Cucurbitaceae plantations and sometimes on open grassland areas having moist soil. Diagnosis: Very similar to T. occipitalis ( Serville, 1838 ) in external morphology, but mainly differing in male ( Fig. 10I–K ) and female ( Fig. 11E–F ) genitalia structures. T. rohinae Jaiswara & Jain , sp. nov. also resembles T. emma ( Ohmachi & Matsuura, 1951 ) . Still, according to the morphological descriptions of T. emma by Libin et al. (2015) , it differs mainly in the male genitalia (female genitalia not known for T. emma ). Male. FW stridulatory apparatus: stridulatory file with 235 to 252 teeth (mean 242, n=3); harp with 4–6 usually (occasionally 3). Description: In addition to the characters of the genus: medium sized cricket very similar to T. occipitalis . Legs. TIII with 5–6 inner and 6–7 outer sub-apical spurs; basitarsomeres III with 3–4 inner and 5–7 outer spines. FIGURE 4. External morphological features of Teleogryllus rohinae Jaiswara & Jain , sp. nov. : (A–B) dorsal and lateral view of head and pronotum, (C) articles of maxillary palpi, (D–E) dorsal and lateral view of male sub-genital plate, (F) male supra-anal plate, (G) female sub-genital plate and (H) apex of ovipositor. Scale 2mm. Color. Body, head and pronotum dark brown ( Fig. 3A–B , 5E & 6D ). Inner margins of eyes with a thick yellow band ( Fig. 10L ), sometimes wide enough to make vertex look yellowish. Male. FW covering the epiproct fully or slightly longer ( Fig. 5E ), HW always longer than abdomen; harp with 3–4 regularly spaced oblique veins with a horizontal middle part (sometimes 1–2 faint veins at the angle of 1 st anal vein) ( Fig. 7E ). Stridulatory file with 235 to 252 teeth (mean 242, n=3); teeth on the stridulatory vein as on Fig. 8C . Mirror longer than wide; apical field with 4–5 cell alignments; lateral field with 12–13 veins ( Fig. 7E ). Male genitalia. Pseudepiphallic sclerite rather square-shaped in dorsal view, posterior margin slightly pointed from the middle, vertex rounded and smooth with convex lateral margins and almost at the level of median structure ( Fig. 10I ). In lateral view: pseudepiphallic sclerite very similar to T. occipitalis and T. emma ; pseudepiphallic apodeme as wide as its base ( Fig. 10J–K ). Female. Body size slightly bigger than males. FWs overlapping 2/3 rd of its width, length restricted up to 7 th abdominal tergite or extended slightly beyond epiproct; dorsal field with 11 diagonally parallel longitudinal veins; lateral field with 11–13 veins ( Fig. 9D ). HWs very long extended beyond the abdomen ( Fig. 6D ). Female genitalia. Copulatory organ sharply tapering anteroposterior and sclerotized posteriorly ( Fig. 11E, F ). Acoustic signal: Calls of T. rohinae consist of two kinds of chirps (long and short) interspersed with each other ( Fig. 12A ). The short chirps are 0.402 ± 0.024s while the longer chirps are more variable with a chirp duration of 0.677 ± 0.331s (mean SD). The short chirps consist of 6.35 0.93 syllables, while the longer chirps consist of 19.5 ± 8.6 syllables per chirp (mean ±SD). While T. rohinae Jaiswara & Jain s p. nov. and T. emma have similar call patterns with long and short calls, they vary in the number of syllables per chirp. Further, the dominant frequency for T. emma has been reported to be 3.7 kHz ( Lu et al . 2018 ), whereas, for T. rohinae , we determined it to be at 5.3 ± 0.16 kHz ( Fig. 12B ).