Hexacentrus tiddae Ghosh, Jaiswara, Monaal & Rajaraman, 2023

Ghosh, Aarini, Jaiswara, Ranjana, Sabharwal, Shagun, Dasoju, Vivek, Bhattacharjee, Anubhab & Rajaraman, Bittu Kaveri, 2023, Description of three new species of predatory Genus Hexacentrus (Orthoptera Tettigoniidae) from India, with bioacoustic and morphological characterizations, Zootaxa 5249 (3), pp. 335-356 : 350-355

publication ID

https://doi.org/ 10.11646/zootaxa.5249.3.2

publication LSID

lsid:zoobank.org:pub:51EE6A05-41C8-44F7-90C9-B785D6788E1B

DOI

https://doi.org/10.5281/zenodo.7692068

persistent identifier

https://treatment.plazi.org/id/1461A428-1562-4973-EDFA-FB36FD3CFE61

treatment provided by

Plazi

scientific name

Hexacentrus tiddae Ghosh, Jaiswara, Monaal & Rajaraman
status

sp. nov.

Hexacentrus tiddae Ghosh, Jaiswara, Monaal & Rajaraman sp. nov.

Type Material. Holotype, ♂, INDIA: Haryana, Sonipat, Rai, Aswarpur , ~ 315 m a.s.l., 10.VII.2022, 28° 56′48.78″N; 77° 6′5.19″ E, AG_SO2_M1( ZSI) GoogleMaps . Paratype —1 ♂, the same information as holotype, VII-2022 ex-AG_SO2_M2, without left forewing ( BNHS) .

Type locality. Ashoka University , Aswarpur, Sonipat, Haryana, India.

Distribution. The species is so far only known from its type locality.

Etymology. ‘tiddae’ in Hindi and Haryanvi refers to Orthoptera —it is used for locusts and crickets.

Diagnosis and Description. The species is similar to H. ashoka , H. bifurcata & H. japonicus but differs by the following characters. Body medium size and slender ( Fig. 11A–B View FIGURE 11 ). Head. Face longer than wide. Antennae without any short dark rings. Fastigium verticis laterally much more compressed, apically tapering and triangular in dorsal view pointing appearance apically. Scapus cylindrical with slight bulge at apex in dorsal view, scapus almost 3 times as wide as fastigium ( Fig. 11C & 11F View FIGURE 11 ).

Pronotum. Pronotum longer than wide, flat with a slightly upward curved near end, longer than broad and extended posteriorly. Anterior and posterior margins slightly concave; an hourglass-like band covers the whole pronotum ( Fig. 11C–D View FIGURE 11 ).

Legs. FI dorsally unarmed and ventrally armed with 18–30 spines on inner and outer margins, 1 apical spine on lateral margin; TI inner tympanum slightly longer than outer tympanum; TI dorsally unarmed and ventrally armed with 6 subapical spurs on each side, both inner and outer margin without spines; FII dorsally unarmed and ventrally armed with 18–22 spines on inner and outer margins, 2 apical spines on the lateral margin; TII dorsally unarmed and ventrally armed with 6 subapical spurs on each side, both inner and outer margin without spines; FIII dorsally unarmed and ventrally armed with 39–52 spines both or inner and outer margin; TIII dorsally armed with 34–36 spines on both inner and outer margins and ventrally armed with 11–14 subapical spurs on both inner and outer margins, one subapical spur in center.

Male. Wings. Hindwings almost as long as tegmina, hidden under tegmen; tegmen is long surpassing hind tibiae. Male tegmen are long, broad in middle, and nearly triangular at end. M straight, thick distally, CuP bent distally, space between CuP and CuA shorter than between M and CuA, 1 st anal vein bearing stridulatory file straight, bent in middle, ventral side with 20–23 teeth ( Fig.14C View FIGURE 14 , 12 View FIGURE 12 ).

Male Genitalia. Supra-anal plate triangular with a dorsal groove. Little broadened short apex slightly pointed. Cerci cylindrical at base; broad with a tubercle on internal side, then abruptly narrowed to small digitiform apical appendages with strongly incurved apex ( Fig.11E View FIGURE 11 ). Sub-genital plate elongates with a median longitudinal furrow, lateral ridges well developed, apical margin with prominent ‘V’-shaped bifurcation ( Fig.11G View FIGURE 11 ). Styli slightly thicker at base than at tip, both are diverging from each other, and have the apex is rounded and inward curved ( Fig. 11G–H View FIGURE 11 ).

Acoustic measurements. Hexacentrus tiddae produces a regular amplitude modulated pattern of continuous syllables, alternating between longer, higher amplitude syllables and faster, low amplitude syllables. All syllables have the same broadband spectral structure. The peak frequency is 9.4 ± 3.6 kHz ( Fig. 13D–E View FIGURE 13 ) and the bandwidth is 40 ± 3.2 kHz ( Fig. 13D–E View FIGURE 13 ). The low amplitude syllables last for 0.9 ± 0.4 ms, with a total syllable period of 1.61 ± 0.6 ms ( Fig. 13B–13C View FIGURE 13 ), and SRR of 715 ± 156 (n=3 animals, 10 syllables of each kind per animal). The high amplitude syllables occur regularly, separated by an average interval of 846.25 ± 46 ms. The high amplitude syllable duration is 2.33 ± 0.7 ms with a syllable period of 1.71 ± 0.4 ms and SRR of 463 ± 120.2 ( Fig. 13C View FIGURE 13 ) (n=3 animals, 10 syllables per animal). The juxtaposition of the high amplitude buzzing bursts and the low amplitude background trill sounds almost like two simultaneous callers.

BNHS

Bombay Natural History Society

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Orthoptera

Family

Tettigoniidae

Genus

Hexacentrus

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