Corresponding author: Liang Tang (
Academic editor: V. Assing
Two new species of the
After our recently published work (
The specimens examined in this paper were collected by sifting leaf litters in forests. For examination of the male genitalia, the last three abdominal segments were detached from the body after softening in hot water. The aedeagi, together with other dissected pieces, were mounted in Euparal (Chroma Gesellschaft Schmidt, Koengen, Germany) on plastic slides. Photos of sexual characters were taken with a Canon G7 camera attached to an Olympus SZX 16 stereoscope; habitus photos were taken with a Canon macro photo lens MP-E 65 mm attached to a Canon EOS60D camera.
The type specimens treated in this study are deposited in the following public and private collections:
Department of Biology, Shanghai Normal University, P. R. China
The measurements of proportions are abbreviated as follows:
body length, measured from the anterior margin of the clypeus to the posterior margin of abdominal tergite X
length of forebody, measured from the anterior margin of the clypeus to the apex of the elytra (apico-lateral angle)
width of head including eyes
width of pronotum
width of elytra
length of pronotum
length of elytra, measured from humeral angle apico-lateral angle
length of elytral suture
Brachypterous; body blackish, anterior margin of labrum brownish, antennae, maxillary palpi and legs yellowish brown, each elytron with an oval orange spot near lateral side, which is about 1/3 as long as and 1/3 as broad as the respective elytron.
BL: 4.1–4.9 mm; FL: 2.1–2.3 mm.
HW: 0.84–1.02 mm, PL: 0.71–0.82 mm, PW: 0.62–0.72 mm, EL: 0.73–0.88 mm, EW: 0.71–0.89 mm, SL: 0.57–0.65 mm.
Head 1.12–1.18 times as wide as elytra; interocular area with deep longitudinal furrows, median portion convex, extending to the level of inner eye margins; punctures round, well delimited in median portion and more or less confluent into diagonal stria in furrows, slightly larger and sparser in median area than near inner margins of eyes, diameter of large punctures about as wide as apical cross section of antennal segment II; interstices partially with faint reticulation, smaller than half the diameter of punctures except those in median portion and behind basi-antennal tubercles, which may be much larger. Antennae, when reflexed, extending a little beyond posterior margin of pronotum; relative length of antennal segments from base to apex as 11: 8: 19: 11.5: 10: 9.5: 9.5: 6.5: 7: 8: 8.5. Paraglossa oval.
Pronotum 1.11–1.15 times as long as wide; disc with distinct median longitudinal furrow, two indistinct impressions in anterior half, indistinct transverse impression in the middle, and two indistinct impressions in posterior half; punctures moderately rugose and confluent, a little larger than those of head; interstices partially indistinctly reticulated, mostly smaller than half the diameter of punctures except those at the bottom of median longitudinal furrow, which may be distinctly larger.
Elytra 0.94–1.03 times as long as wide, lateral margins with slight concavity before the middle; disc slightly uneven with shallow longitudinal humeral impression, shallow postero-lateral impression, and distinct sutural impression; suture moderately convex; punctation and interstices similar to those of pronotum.
Hind tarsi 0.73 times as long as hind tibiae, tarsomeres IV distinctly bilobed.
Abdomen cylindrical; distinct paratergites absent, but rudimentary lateral border present; tergite VII with palisade fringe; punctures on abdominal tergites III–VIII round to elliptic, gradually becoming smaller posteriad; interstices smaller to little larger than half the diameter of punctures, with relatively faint reticulation on all abdominal tergites.
Male. Sternite VII with posteromedian portion slightly flattened; sternite VIII (
Female. Abdomen broader than in male; sternite VIII (
China (Guangxi Province: Huaping Nature Reserve).
All the specimens were collected by shifting the mixture of bamboo leaves and broad tree leaves in dense forest.
In general facies, the new species resembles
The specific name is derived from “Huaping”, the type locality of this species.
Brachypterous; body entirely black, anterior margin of labrum brownish, maxillary palpi yellowish brown, antennae and legs reddish brown.
BL: 4.0–4.3 mm; FL: 2.0–2.2 mm.
HW: 0.87–0.98 mm, PL: 0.71–0.84 mm, PW: 0.63–0.71 mm, EL: 0.74–0.82 mm, EW: 0.77–0.86 mm, SL: 0.53–0.64 mm.
Head 1.13–1.18 times as wide as elytra; interocular area with deep longitudinal furrows, median portion convex, not quite extending to level of inner eye margins; punctures round, mostly well delimited, slightly larger and sparser on median area than those near inner margins of eyes, diameter of large punctures about as wide as apical cross section of antennal segment II; interstices smooth, mostly much smaller than half the diameter of punctures. Antennae, when reflexed, not quite reaching posterior margin of pronotum; relative length of antennal segments from base to apex as 10.5: 7.5: 17.5: 10.5: 10: 7: 6.5: 5: 5: 5.5: 7.5. Paraglossa oval.
Pronotum 1.09–1.29 times as long as wide; disc with shallow short median longitudinal furrow, two indistinct impressions in anterior half, indistinct transverse impression in the middle, and two indistinct impressions in posterior half; punctures smaller than those of head, rugose and confluent; interstices smooth, slightly broader than diameter of punctures.
Elytra 0.95–1.00 times as long as wide, lateral margins with slight concavity before the middle; disc uneven with shallow longitudinal humeral impression, shallow sutural impression and shallow postero-lateral impression; suture convex; punctation and interstices similar to those of pronotum, but more rugose and confluent.
Hind tarsi 0.72 times as long as hind tibiae, tarsomeres IV distinctly bilobed.
Abdomen cylindrical; segments III–VI with tergites and sternites completely fused, without paratergites or sutures; tergite VII with palisade fringe; punctures on abdominal tergites III–VIII round to elliptic, gradually becoming smaller posteriad, punctures of tergite III large, of similar size as those of head; interstices smooth, mostly smaller than half the diameter of punctures.
Male. Sternite VII with posteromedian portion slightly flattened; sternite VIII (
Female. Abdomen broader than in male; sternite VIII (
China (Zhejiang Province: Qingliangfeng N. R.).
All the specimens were collected by shifting leaves in coniferous and broad-leaved mixed forest.
This species resembles
This species is named in honor of Mr. Jian-Qing Zhu, who collected most of the specimens of the new species.
To accommodate the new species, the recently published key to the Chinese species of the
2 | Elytra shorter (EL/EW =0.86–0.93). Habitus: |
|
– | elytra longer (EL/EW = 0.95–1.01) | 2a |
2a | Body size larger (BL: 4.0–4.3 mm), punctation of pronotum and elytra rugose and confluent. Habitus: |
|
– | Body size smaller (BL: 3.3–3.5 mm), punctation of pronotum and elytra well delimited. Habitus: |
|
5 | Elytral marks larger, ranging from 3/5 to 4/5 as long and 1/2 to 2/3 as broad as the respective elytron. Habitus: Figs 7, 8 in |
|
– | Elytral marks smaller, ranging from 1/3 to 1/2 as long and 1/3 to 2/5 as broad as the respective elytron…5a | |
5a | Elytral marks on average smaller, about 1/3 as long and 1/3 as broad as the respective elytron; punctation of head sparser and coarser. Habitus: |
|
– | Elytral marks on average larger, ranging from 1/3 to 1/2 as long and 1/3 to 2/5 as broad as the respective elytron; punctation of head denser and finer. Habitus: Figs 9, 10 in |
Habitus of
Habitus of
Habitus of
Habitus of
We would like to express our sincere gratitude to dear Dr. V. Puthz (Germany) for his constant guidance on our study of Chinese Steninae, to Mr. Benedikt Feldmann (Germany) and Dr. Volker Assing (Germany) for revising the manuscript, to Mr. Ding-Heng Zhang, Mrs. Chun-Yan Shi and Mr. Lei Pan (Huaping Nature Reserve) for numerous helps during our field work and to all the collectors mentioned in the paper. The research was supported by the National Natural Science Foundation of China (No. 31101659 and No. 31172134), the National Natural Science Foundation of Shanghai (No. 10ZR1421600) and the Innovation Program of Shanghai Municipal Education Commission (No. 12YZ077).