Cylisticus convexus ( de Geer, 1778 )
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https://doi.org/ 10.11865/zs.2022208 |
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lsid:zoobank.org:pub:9A927B9F-4002-4D3F-85D6-A74CF01DCBD3 |
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https://treatment.plazi.org/id/03CB87AE-FFD4-3965-FF56-FA5D1ECF8B5B |
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Felipe |
scientific name |
Cylisticus convexus ( de Geer, 1778 ) |
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Cylisticus convexus ( de Geer, 1778) View in CoL ( Figs 1–24 View Figures 1–7 View Figures 8–15 View Figures 16–24 )
Description. Maximum length 9.0 mm for male, 10.0 mm for female. Body elongated and convex, about 2 times as long as wide, exoantennal conglobation ability (when body rolls up, its antenna bend on back). Dorsal surface of head, pereon and pleon brown-gray with pale muscle spots ( Fig. 1 View Figures 1–7 ). Cephalon and pereonite 1 without any groove on dorsal surface ( Fig. 3 View Figures 1–7 ). Dorsal surface of tergites covered with gland pores.
Cephalon with nearly quadrangular lateral lobes obliquely directed outwards; medial lobe triangular, not surpassing lateral lobes in dorsal view; supra-antennal line absent ( Figs 3, 5 View Figures 1–7 ). Eyes with 22 ommatidia ( Fig. 5 View Figures 1–7 ). Antenna with fifth article of peduncle longer than flagellum; flagellum of two articles, distal and proximal articles nearly equal in length ( Fig. 15 View Figures 8–15 ). Mandible with molar penicil consisting of numerous setae arising from a common stem; several penicils between lacinia mobilis and molar process; incisor process and lacinia mobilis of right mandible smaller than left ( Figs 19–20 View Figures 16–24 ). Maxillule with exopod bearing 11 (4 simple + 7 cleft apically) teeth; outer margin of exopod with a row of dense setae with short setae on upper part and long setae on lower part ( Fig. 18 View Figures 16–24 ). Maxilla two-lobed, with both lobes bearing setules; inner lobe larger than outer lobe with scatter spines ( Fig. 17 View Figures 16–24 ). Maxilliped coxa bearing scales and scale-setae; endite with four setae on distal margin; palp reduced, three-segmented with basal segment bearing 2 setae, distal margin of medial segment bearing 1 large seta on inner side and 1 seta on medial margin, distal process of apical segment bearing a tuft of small setae ( Fig. 16 View Figures 16–24 ).
Pereonite 1 with postero-lateral corners acute and postero-lateral margin concave; pereonites 2–4 with postero-lateral corners rounded; pereonites 5–7 with postero-lateral corners almost right-angled ( Fig. 1 View Figures 1–7 ). Noduli laterals on pereonite 4 2.5 times as far from lateral margin than those on pereonite 3. Pereopod 1 carpus with longitudinal slender scales on rostral surface, dactylus with one dactylar seta and brown-yellow claw curved ventrally ( Fig. 8 View Figures 8–15 ).
Side edge of pleon in line with side edge of pereon ( Fig. 1 View Figures 1–7 ). Pleopod 1–5 exopod with internal lungs. Telson triangular with concave sides and rounded apex; apex surpassing uropodal protopod ( Figs 1, 4 View Figures 1–7 ). Uropodal protopod grooved on outer margin; endopod as long as exopod ending with long setae ( Figs 2, 7 View Figures 1–7 ).
Male. Pereopods 1–7 merus and carpus with brush of setae on ventral surface. Distal two thirds of pereopods 6 basis with long and dense setae ( Fig. 13 View Figures 8–15 ). Ventral margin of pereopod 7 ischium slightly concave with hairy brush of small setae and six long setae ( Fig. 14 View Figures 8–15 ). Pleopod 1 exopod nearly heart-shaped with a raw of short setae on outer margin; endopod with proximal half wide, distal half narrow, and tip slightly curved outward ( Figs 21–22 View Figures 16–24 ). Pleopod 2 exopod triangular with a raw of short setae on outer margin; endopod styliform, longer than exopod ( Figs 23–24 View Figures 16–24 ).
Material examined. CMMI 20201110001–005, 4♀ 6♂, under stones, Mountain Dongjiguan , Lvshunkou, Dalian, Liaoning, China (38°48'23.6″N, 121°17'15.6″E, elev. 73 m), 10 November 2020, coll. W.H. Dai. GoogleMaps
Distribution. China (Liaoning), Asia Minor, Europe, Northern Africa, North and South America.
Biology. The species was found in a tourist attraction with the vegetation type of deciduous forest ( Fig. 25 View Figures 25–26 ). Individuals often hide in humid environments during the day, such as soft soil, under stones and thick piles of dead leaves. When frightened by light, sound or vibration, it will roll its body into a ball or run away quickly ( Fig. 26 View Figures 25–26 ).
Remarks. The genus Cylisticus consists of an eastern group (Eastern Europe, Turkey, Caucasus region, northern and western Iran) and a western group (southern France, northern Italy, Corsica, Sardinia) ( Schmalfuss, 2003b). There are two vague diagnostic characters of the genus: the exoantennal conglobation ability which may be liable to convergence, male pereopod 6 basis with sexual modification while this characteristic is deficient in smaller, endogenous life, unpigmented species of the western group. The discovery of C. convexus adds a family to the Chinese woodlouse species lists. Up to now, 14 families and one incertae sedis genus of the suborder Oniscidea in China. Woodlouse species such as Armadillidium vulgare (Latreille, 1804) , Porcellio laevis Latreille, 1804 , and Porcellionides pruinosus (Brandt, 1833) have spread to all parts of the world through human activities. Whether the source of Chinese C. convexus originated from the same path still needs to be further studied.
The suborder Oniscidea in China has been intermittently reported ( Shen, 1949; Wei, 1992; Kwon & Taiti, 1993; Wang & Kwon, 1993; Gui et al., 1994; Tang et al., 1994a, b; Jeon & Kwon, 1995, 1996; Kwon & Wang, 1996; Gui & Tang, 1996; Dai & Cai, 1998; Tang & Gui, 2000; Chen, 2003; Li, 2015, 2017, 2018). Previous studies had been focused on the southern part of China, but more areas of China still need to be investigated by zoologists, such as the western, central and northern parts of China. It has a great potential that more species of the suborder Oniscidea occur in areas not explored or incompletely sampled.
Funding The research was supported by National Natural Science Foundation of China (82073972), and the Fundamental Research Funds for the Central Public Welfare Research Institutes (ZZ13-YQ-089-C1).
Acknowledgements We are very grateful to Wenhao Dai for his help to collect specimens. We would also like to thank Stefano Taiti for kindly providing important literature.
Zhidong Wang1, 2, Chao Jiang2 *, Luqi Huang2 * 1College of Pharmaceutical Science, Zhejiang Chinese Medical University, Hangzhou 310053, China
2 State Key Laboratory Breeding Base of Dao-di Herbs, National Resource Center for Chinese Materia Medica, China Academy of Chinese Medical Sciences, Beijing 100700, China
* Corresponding authors, E-mail: jiangchao0411@126.com; huangluqi01@263.com
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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