Pycnoscelus schwendingeri, Anisyutkin, 2018
publication ID |
https://doi.org/ 10.5281/zenodo.1196021 |
DOI |
https://doi.org/10.5281/zenodo.5590555 |
persistent identifier |
https://treatment.plazi.org/id/677687FA-8612-FF81-12D0-F9F5FD6E99E5 |
treatment provided by |
Plazi |
scientific name |
Pycnoscelus schwendingeri |
status |
sp. nov. |
Pycnoscelus schwendingeri View in CoL sp. nov.
Figs 6-7 View Figs 6-11 , 12-26 View Figs 12-26
Material examined: MHNG, without accession number; male holotype (genital complex in prep. 110817/01); THKN-12/04: Cambodia, Siem Reap Prov., Kbal Spean (13°41’04’’N, 104°01’10’’E), 200 m, semievergreen forest; 27. GoogleMaps VI.2013; leg. P. Schwendinger.
Etymology: This species is named in honor of Dr Peter Schwendinger, collector of the holotype of this species and curator of the Arthropoda collections of the Muséum d’histoire naturelle de Genève.
Description:
Somatic characters of male (holotype): General colour yellowish brown, with scattered black spots ( Figs 6-7 View Figs 6-11 ); facial part of head contrastingly coloured ( Fig. 7 View Figs 6-11 ); eyes black; antennae greyish; pronotum, tegmina and abdominal sternites with black spots; legs yellow, partly darkened. Surfaces smooth and lustrous, antennae with proximal 8-10 segments lustrous, the remaining segments dull; pronotum, tegmina, mostly in proximal half, and, to a lesser degree, facial part of head with distinct punctuation. Head slightly longer than wide, with transverse impression between antennal sockets ( Figs 7 View Figs 6-11 , 12 View Figs 12-26 ); ocellar spots small but distinct; distance between eyes about equal to eye length; distance between antennal sockets about 2.5 times scape length (~ 0.6 mm); approximate length ratio of 3rd-5th segments of maxillary palps 1.1: 1.0: 1.2. Pronotum as in Figs 6 View Figs 6-11 , 13 View Figs 12-26 ; cranial margin widely rounded, caudal one distinctly angulate. Tegmina and wings slightly abbreviate, reaching abdominal apex ( Figs 6-7 View Figs 6-11 ). Tegmina with widely rounded apex ( Fig. 6 View Figs 6-11 ), sclerotized in costal field; venation simplified and slightly obliterated along cranial margin; Sc thickened (well visible on ventral side of tegmen); R, M and CuP weak; anal field with obliterated venation. Hind wings membranous, shorter than tegmina, with simplified venation. Fore tibiae distinctly thickened distally ( Fig. 14 View Figs 12-26 ). Anterior margin of fore femora of armed type C, with single apical spine ( Fig. 14 View Figs 12-26 ). Tibial spines well developed. Structure of hind tarsus ( Fig. 15 View Figs 12-26 ): metatarsus about as long as other tarsal segments combined, with large euplantula; spines absent; claws symmetrical, simple; arolium distinct, about half as long as claw. Fore and mid tarsi similar to hind tarsi, but segments comparatively shorter. Abdomen without visible glandular specializations; tergite VIII with distinct spiracle-bearing outgrowths ( Figs 16-17 View Figs 12-26 ), large medial and two smaller oval lateral membranous areas; sternite VIII large, plate-like and weakly sclerotized ( Fig. 18 View Figs 12-26 ). Anal plate (tergite X) weakly sclerotized and asymmetrical ( Figs 16-17 View Figs 12-26 ). Cerci short, with distinct segments. Paraprocts of blaberi-type, with curved hook on right paraproct and with membranous area at cranio-medial angles of left paraproct ( Fig. 17 View Figs 12-26 , par.). Hypandrium asymmetrical ( Figs 19-20 View Figs 12-26 ), with caudal margin weakly concave, hook at caudolateral angle well sclerotized ( Fig. 20 View Figs 12-26 , h.); left stylus absent, right one in shape of elongated triangle.
Genitalia of male holotype ( Figs 20-26 View Figs 12-26 ): Right phallomere ( R + N): caudal part of sclerite R1 T well sclerotized, widely rounded ( Fig. 21 View Figs 12-26 , c.p. R 1 View Figs 1-5 T); bristles absent; R1 T nearly straight; R2 weakly curved; R3 elongated ( Figs 21-22 View Figs 12-26 ); R4 small, not fused with other sclerites; R5 absent; R1 T and R2 cranially prolonged into large sclerotized plate. Sclerite L 2D (L1) divided into basal and apical parts ( Fig. 24 View Figs 12-26 ); basal part robust, widened cranially ( Fig. 24 View Figs 12-26 , b.L 2D View Figs 1-5 ); “apical sclerite” with small teeth at caudal margin ( Figs 23-24 View Figs 12-26 , ap. scl.); bristles absent; “dorsal outgrowth” present ( Figs 23-24 View Figs 12-26 , d.o.). Sclerite L 3 (L2d) without basal subsclerite ( Figs 25-26 View Figs 12-26 ); “folded structure” weakly developed, without bristles ( Fig. 26 View Figs 12-26 , f.s.); apex of L3 with “small tooth” ( Figs 25-26 View Figs 12-26 , s.t.); groove hge absent. Sclerite L 4U (L3d) divided into two parts ( Fig. 25 View Figs 12-26 ) .
Female: Unknown.
Measurements (in mm): Head length 2.6, head width 2.5; pronotum length 4.0, pronotum width 5.8; tegmen length 10.8, tegmen width 3.9.
Comparison: Pycnoscelus schwendingeri sp. nov. belongs to the indicus species-group ( Roth, 1998) judging from the structure of its right stylus. This species-group includes nine species ( Roth, 1998; Anisyutkin, 2002): P. conferta , P. femapterus , P. indicus , P. janetcheki , P. nigra , P. surinamensis , P. gorochovi , P. vietnamensis and P. rothi . The new species readily differs from all species of the indicus species-group by a contrastingly coloured pronotum and facial part of head ( Figs 6-7 View Figs 6-11 ). From P. indicus , P. nigra , P. janetsheki , P. conferta and P. femapterus the new species differs by a distinctly asymmetrical, i.e. emarginated at right side ( Figs 16-17 View Figs 12-26 ), anal plate. The shape of the anal plate is somewhat similar in P. gorochovi , P. vietnamensis , P. rothi and P. schwendingeri sp. nov., but these species can be readily differentiated by the shape of the apical part of sclerite L2D of the male genitalia (compare figs 26-28 in Anisyutkin, 2002 and Figs 23-24 View Figs 12-26 of present paper).
MHNG |
Museum d'Histoire Naturelle |
VI |
Mykotektet, National Veterinary Institute |
R |
Departamento de Geologia, Universidad de Chile |
T |
Tavera, Department of Geology and Geophysics |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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Pycnoscelinae |
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