Australobius tracheoperspicuus sp. n., the first subterranean species of centipede from southern China (Lithobiomorpha, Lithobiidae)


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Australobius tracheoperspicuus sp. n., the first subterranean species of centipede from southern China (Lithobiomorpha, Lithobiidae)

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Australobius tracheoperspicuus sp. n., the first subterranean species of centipede from southern China (Lithobiomorpha, Lithobiidae)
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ZooKeys
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Li, Qing
Pei, Su-jian
Guo, Xuan
Ma, Hui-qin
Chen, Hui-ming
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Australobius ( local )
Cave Lithobiomorpha, China, New Species ( local )
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serial ( sobekcm )

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Australobius tracheoperspicuus sp. n. (Lithobiomorpha: Lithobiidae) was recently discovered from the Cave of the brickyard of Gaofeng village, in the Guizhou Province, southwest China, and it is described here. Morphologically the new species is similar to A. magnus (Trozina>, 1894) from north-western China. The new species can be easily distinguished from those by the trachea connected to the valve of the TIII clearly visible from the dorsal side, the absence of ocelli on each side of the cephalic plate, the DaC spine being only present on the XIIIth–XVth legs. Numbers of examined specimens, distribution and the main morphological characters and an identification key to the known Chinese species of genus Australobius based on adult specimens is given.
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ZooKeys, Vol. 795 (2018-11-08).

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83 Australobius tracheoperspicuus sp. n., the first subterranean species of centipede from southern China (Lithobiomorpha, Lithobiidae) Qing Li 1 , Su-jian Pei 2 , Xuan Guo 1 , Hui-qin Ma 3 , Hui-ming Chen 1 1 Guizhou Institute of Biology, Guiyang, Guizhou 550001, PR China 2 School of Life Sciences, Hengshui University, Hengshui, Hebei 053000, PR China 3 Scientic Research Oce, Hengshui University, Hengshui, Hebei 053000, PR China Corresponding authors: Hui-qin Ma ( mhq008@yahoo.com ); Hui-ming Chen ( mei601@126.com ) Academic editor: M. Zapparoli |Received 28 June 2018|Accepted 5 September 2018|Published 8 November 2018 http://zoobank.org/B1D0C7E4-8AAE-4A07-B193-F33761C27D4F Citation: Li Q, Pei S-j, Guo X, Ma H-q, Chen H-m (2018) Australobius tracheoperspicuus sp. n., the rst subterranean species of centipede from southern China (Lithobiomorpha, Lithobiidae). ZooKeys 795: 83–91. https://doi. org/10.3897/zookeys.795.28036 Abstract Australobius tracheoperspicuus sp. n. (Lithobiomorpha: Lithobiidae) was recently discovered from the Cave of the brickyard of Gaofeng village, in the Guizhou Province, southwest China, and it is described here. Morphologically the new species is similar to A. magnus (Trozina, 1894) from north-western China. e new species can be easily distinguished from those by the trachea connected to the valve of the TIII clearly visible from the dorsal side, the absence of ocelli on each side of the cephalic plate, the DaC spine being only present on the XIII th –XV th legs. Numbers of examined specimens, distribution and the main mor phological characters and an identication key to the known Chinese species of genus Australobius based on adult specimens is given. Keywords Australobius , cave Lithobiomorpha, China, new species Introduction e World Catalogue of Centipedes (Bonato et al. 2016) currently records 33 spe cies/subspecies for the genus Australobius Chamberlin, 1920, mostly in South-East Asia and East Australia (Zapparoli and Edgecombe 2011). e genus is characterized by possessing the following traits (Eason 1978, 1997, Edgecombe 2002, Zapparoli ZooKeys 795: 83 (2018) doi: 10.3897/zookeys.795.28036 http://zookeys.pensoft.net Copyright Qing Li et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. RESEARCH ARTICLE Launched to accelerate biodiversity research A peer-reviewed open-access journal

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84 and Edgecombe 2011): antenna mostly with 20 articles, some species more than 24; ocelli few (e.g., 1+3+6), some species more than 8; forcipular coxosternal teeth at least 3+3; tergites with more or less distinct posterior triangular projections; female gonopods with uni-, bior tridentate claw, 3+3+4 spurs, rarely more than 4; tarsal articulation of legs I–XIII indistinct in some species. e myriapoda fauna of China is still poorly known and this is especially the case with centipedes of the order Lithobiomorpha. Only 80 species/subspecies of lithobiomorphs are to date known from the country (Ma et al. 2014a, b, 2015, 2018; Pei et al. 2014, 2015, 2016, 2018; Qin et al. 2014, 2017; Qiao et al. 2018; Chao et al. 2018). Altogether, only ve species of Australobius have been recorded from China (Ma et al. 2008a, b, 2014b, Qin et al. 2014). However, none of them have been recorded from subterranean environment. e present note is devoted to the description of a new cave-dwelling Australobius from southern China, as well as the rst subterranean species of Lithobiomorpha from China. An identication key is also given to all six species of Australobius known to occur in China. Materials and methods All specimens were hand-collected in cave and preserved in 75 % ethanol. Illustrations and measurements were produced using a ZEISS SteREO Discovery. V20 microscope equipped with an Abbe drawing tube and an ocular micrometer and axiocam 512 color. e colour description is based on specimens xed in 75% ethanol. e body length is measured from the anterior margin of the cephalic plate to the posterior end of the postpedal tergite. Type specimens are deposited in the School of Life Sciences, Hengshui University, Hengshui, China ( HUSLS ). e terminology of the external anatomy follows Bonato et al. (2010). Measurements are shown in millimeters (mm). e following abbreviations are used in the text and the tables: T, TT tergite, tergites; S, SS sternite, sternites; C coxa, Tr trochanter, P prefemur, F femur, Ti tibia, a anterior, m median, p posterior, DaC spine anterior dorsal spine of coxa. Taxonomy Australobius tracheoperspicuus sp. n. http://zoobank.org/98D3BEF9-A361-40BF-BDE0-2B9400875C49 Figs 1, Table 1 Material. Type material. Holotype: male, Cave of the brickyard of Gaofeng village, Yancang Town, Yi-Hui-Miao Autonomous County of Weining , Bijie City, Guizhou Province, 26'30.95"N, 104'13.78"E, alt. 2430 m a.s.l., 19 V 2017, Huiming

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85 Chen leg. Paratypes: 1 , 1 , same data as holotype. Other material. 4 (larvae), the Gaodiping Cave of Dashan village, shaanqiao street, Yi-Hui-Miao Autonomous County of Weining , Bijie City, Guizhou Province, 26'55.03"N, 104'08.81"E, alt. 2175 m a.s.l., 23 IV 2017, Huiming Chen leg. Diagnosis. Antennae with 26 articles, no ocelli, anterior margin of the coxoster nite with 5+5 teeth, more or less developed, porodonts slender, between fourth and fth outer teeth. Tergites without posterior triangular projections, trachea connected to the valve of the T III clearly visible from the dorsal side. Coxal pores 4. Tarsal articulation well dened on legs I–XV. No secondary sexual modications on legs XIV and XV of male. Female gonopods with simple claw, 2+2 spurs. Male gonopods short and small blunt cone bulge, apically slightly sclerotized. Description. Body length 17.43 .24 mm, cephalic plate 1.76.93 mm long, 1.77.97 mm wide; the whole body pale yellow–brownish, tarsus II of all legs more darker, proximal parts of forcipules and the teeth of the anterior margin of the coxos ternite brown, all claws of legs yellow–brown. Antennae with 26+26 articles; basal article slightly longer than wide, subsequent ar ticles markedly longer than wide, distal article up to 2.5 times as long as wide. Abundant long setae on antennal surface, less so on basal articles, gradual increase in density of setae to about the fourth article, then more or less constant. Length of antenna 7.3.4 times width of cephalic plate, and often extending close to posterior edge of T XI (Figure 1). No ocelli on each side of the cephalic plate. Tmsvry’s organ ovate, situated at anterolateral margin of the cephalic plate (Figure 2). Cephalic plate smooth, convex, very slightly wider than long; tiny setae emerging from pores scattered very sparsely over whole surface; frontal marginal ridge with shallow an terior median furrow; from short to long setae scattered along marginal ridge of cephalic plate, there more setae close to the antenna; lateral marginal ridge discontinuous (Figure 3). Forcipular coxosternite subtrapezoidal (Figure 4), anterior margin broad, external side lightly longer than internal side; median diastema moderately narrow, deeply V– shaped; anterior margin with 5+5 blunt teeth; porodonts slender, lying between the fourth and fth outer teeth, and more closer to the fourth tooth, the innermost tooth more posterior, and the interdental distance gradually increases from the internal side to the external side (Figure 5); some short setae scattered on the ventral side of coxos ternite; usually there are more setae near the dental margin. All tergites with wrinkles, central backside slightly hunched, T I posterolaterally narrower than anterolaterally, generally trapeziform, narrower than cephalic plate, broader than T III. Trachea connected to the valve of the T III is clearly visible from Table 1. Leg plectrotaxy of Australobius tracheoperspicuus sp. n. Legs Ventral side Dorsal side C Tr P F Ti C Tr P F Ti I–XII mp amp am amp ap ap XIII amp amp am a amp ap ap XIV m amp amp a a amp ap ap XV m amp am a a amp a

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86 the dorsal side (Figs 6). Posterior margin of T I slightly concave, posterior margin of TT III, V, VII, VIII, X, XII, XIV and XV concave. Marginal ridge of TT II , IV, VI, IX, X, XI, XII , XIII, XIV and XV bulging; lateral marginal ridge of all tergites Figures 1. Australobius tracheoperspicuus sp. n. (holotype male 1, 7, 11 paratype female 6 and 10 ) 1 Habitus, dorsal view 2 Tmsvry’s organ, lateral view 3 Cephalic plate, dorsal view 4 Cephalic plate, ventral view 5 Forcipular coxosternite, ventral view 6 T III of female 7 T III of male 8 SS I–V 9 SS VI and VII 10 Posterior segments and gonopods of female, ventral view 11 Posterior segments and gonopods in male, ven tral view 12 Living specimen of Australobius tracheoperspicuus sp. n. 13 Cave of the brickyard of Gaofeng village.

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87 continuous; all posterior angles generally rounded, without triangular projections; tiny setae scattered very sparsely over surface, more densely on anterior and posterior angles (Figure1). All the tergites more longer than the congeneric species, T X is the longest, at most up to 1.3 times as long as wide. Posterior side of sternites narrower than anterior one, generally trapeziform, com paratively smooth, long and thick setae emerging from pores scattered sparsely on sur face, more setae on surface of the SS I–V (Figure 8), there are two irregular rows short and slightly thinker setae along the posterior margin of the SS VI and VII (Figure 9), few setae on surface of the following SS. Legs long and slender, tarsal articulation well dened on legs I-IV; all legs with fairly long curved claws; anterior and posterior accessory spurs on legs I–XIII anterior accessory spurs moderately long and slender, forming an angle of about 45 with tarsal claws; posterior one slightly strong, forming an angle of about 30 with tarsal claws; no accessory spurs on legs XIV and XV. Comparatively long setae scattered very sparsely over surface of prefemur, femur, tibia and tarsus of legs I–XIII, more setae scattered on surface of tarsus; dorsal setae slightly longer than ventral, however, more setae in ventral; setae scattered on surface of legs XIV and XV clearly scarcer and short and ne than on other legs. Legs XIV and XV hardly thicker and stronger in both male and female, tarsus I about 6.3.6 times as long as wide in legs XV. Tarsus I of legs XV 5.0.6 times as long as wide in male, tarsus I of legs XV 5.0.6 times as long as wide in male. Leg plectrotaxy as in Table 1. Coxal pores 4, most of them round, few ovate, 5-5-6-5 or 5-6-5-5 in female, 4-5-54 or 4-4-4-4 in male, coxal pore eld set in a relatively shallow groove, fringe of coxal pore eld with eminence, moderately long setae scattered sparsely over surface of eminence. Female S XV anterolaterally broader than posterolaterally, generally trapeziform, posteromedially straight; sternite of genital segment usually well chitinised; posterior margin of genital sternite deeply concave between condyles of gonopods, except for a small, median bulge; long setae scattered over ventral surface of genital segment, regu larly fringed, with longer setae along posterior margin. Gonopods: rst article fairly broad, second moderately long and slender, coniform spurs in right, inner spur obvi ously larger than outer one (Figure 10); apical claw of third article simple, slender and sharp (Figure 11). Many long setae on surface of all segments of gonopods. Male S XV posterolaterally narrower than anterolaterally, posterior edge straight, sparsely covered with long setae; sternite of genital segment smaller than in female, usu ally well sclerotised. Posterior margin quite deeply concave between gonopods, without a medial bulge; comparatively long setae scattered on ventral surface of genital segment, few slender setae near S XV, setae gradually increasing in density from anterior to poste rior, gonopods short and small blunt cone bulge, apically slightly sclerotised (Figure 10). Etymology. e specic name refers to the trachea connected to the valve of the T III that is clearly visible from the dorsal side. Habitat. e specimens were collected on the limestone walls and bedrock oor of the cave. Discussion. e new species resembles A. magnus (Trozina, 1894) from NorthWestern China in having the coxal pores numbering 6, no accessory spurs on legs

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88 Table 2. Numbers of examined specimens, distribution and main morphological characters of the have known Chinese species of Australobius Chamberlin, 1920. Abbreviation: DaC spine, anterior spine of dorsal of coxa. A. anamagnus A. apicicornis A. magnus A. nodulus A. tetrophthalmus A. tracheoper spicuus sp. n. Original description Ma et al. 2008a Qin et al. 2014 Trotzina 1894 Ma et al. 2008b Loksa 1960 is paper Specimens examined 2 1 3 2 1 4 2 1 1 2 (4 larvae) Other sources no no Eason 1997, Dyachkov 2017 no Eason 1978 no Specimens examined no no 13 6 , 34 8 no 1 no Distribution Qinghai-Tibet Plateau China (Tibet) Qinghai-Tibet Plateau China (Sichuan) Qinghai-Tibet Plateau China (Tibet), Kirghizia and Kazakhstan Qinghai-Tibet Plateau, China (Tibet) China S (Guangxi) China S (Guizhou) Body length (mm) 15.9 – 26.6 17.6 – 22.5 16.0 – 30.0 17.1 – 22.1 19.0 17.4 .2 Number of antennal articles 26+26, rarely 25+26 24+24 25+25 – 30+30 31+31 – 33+33 29 26+26 Number and arrangement of ocelli 10, in 2 rows 7 – 9, in 2 rows 8 – 9, in 2 rows 9 – 11, in 2 rows 4, in 2 rows None Tmsvry's organ Nearly round, smaller than adjoining ocelli Round, smaller than adjacent ocellus Round, smaller than adjacent ocellus Smaller than adjoining ocelli Ovate, larger than adjoining ocelli Ovate Number and arrangement of coxosternal teeth 3+3, 3+4, 4+4 8+6, 5+5, 6+6, 5+6, Roughly triangular 2+2 – 7+7, few 3+4, 6+7, small, blunt 6+6 or 6+5, small and of 5+5, small blunt 5+5 Porodont Comparatively thick and strong, situated between outer two teeth, few between second and third Absent Short and pointed, situated between outer two teeth, or between second and third Situated between outer third and fourth teeth, rarely between second and third teeth Not reported slender, lying between the fourth and fth outer teeth, and more closer to the fourth tooth Number of coxal pores 4 – 9 Females: 5-6-7-6, 5-7-77, 6-7-7-6, 5 – 8, usually 6-6-6-6, 6-66-5, 8-8-8-8, 6-7-7-6, 6-77-7, 6-7-8-7, 6-7-9-7 3 – 7, rarely 8 4 – 7 arranged into an irregular row, 5-6-6-5, 4-5-5-5, 6-7-76, 6-7-7-5 3-3-3-3 4 – 6, 5-5-6-5 or 5-6-5-5 in female, 4-5-5-4 or 4-4-44 in male DaC spine On XII th (present or absent) –XV th legs On XIII th – XV th legs On VIII th –X th present or absent, on XI th –XV 15 th legs present On VII th –XV th legs Absent On XIII th –XV th legs legs XIV th accessory spur Absent Present Absent Absent Not reported Absent legs XV th accessory spur Absent Absent Absent Absent Not reported Absent Number and shape of spurs on female gonopods 3+3, 3+4, 4+4 moderately small, inner coniform spurs, inner one much smaller 3+3 or 4+4 coniform spurs, ones smaller than outer spurs 2+2 – 4+4, rarely 4+5 2+2 or 4+4 moderately small, coniform spurs, inner spur clearly smaller than outer one Not reported 2+2 moderately long and slender, coniform spurs, inner spur larger than outer one, Apical claw of female gonopods and lateral denticles Broad, simple Simple Simple Broad, simple Not reported simple, slender and sharp Male gonopods A small hemispherical protuberance, with a single long seta, distal region slightly sclerotised small, indistinct swellings, with one or two long setae small, spherical Small hemispheroid protuberance, with3 – 4 long setae, apically slightly sclerotized Not reported small small blunt cone bulge, apically slightly sclerotised

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89 XIV and XV, DaC spine present on legs XIII–XV, apical claw of female gonopods sim ple. However, the new species can be easily distinguished by the following characters: trachea connected to the valve of the TIII clearly visible from the dorsal side in new species instead of the trachea connected to the valve of the TIII is invisible from the dorsal side in A. magnus ; absence of ocellus on each side of the cephalic plate vs. 8 ocelli in A. magnus ; DaC spine being only present on the XIII th –XV th legs in contrast to being present or absent on VIII th –X th legs, present on X th –XV th legs in A. magnus . On the other hand, several diagnostic features of the recently described Chinese species that are routinely used in the diagnosis of species of Australobius Chamberlin, 1920 are variable within the framework of the original description, perhaps the most conspicuous variation pertains to the number of teeth on the anterior margin of the coxosternite and the numbers of the antennal articles and the ocelli. For example, in the original description of the genus Australobius , the number of antennal articles is mostly 20, some species more than 24 articles, whereas in many species occurring in China it is higher (Table 2). e same is true for the number of the ocelli, which is few (e.g., 1+3+6) or in some species more than 8 in the original description of the genus, whereas in many species occurring in China it is higher (Table 2), and for the number of coxosternal teeth, which is at least 3+3 in the original description, whereas in many species occurring in China it is more variable (Table 2). To assist in the identication of the Chinese species of Australobius , numbers of exam ined specimens, distribution and main morphological characters of the known species of this genus in China is presented (Table 2) and key to the known Chinese species of the ge nus is presented, these characters are specic only to adults of the taxa occurring in China. Key to the known Chinese species of the genus Australobius Chamberlin, 1920 1 No ocelli on each side of cephalic plate .............. A. tracheoperspicuus sp. n. – At least four ocelli on each side of cephalic plate ......................................... 2 2 Four ocelli on each side of cephalic plate, Tmsvry’s organ larger than adja cent ocelli ................................................ A. tetrophthalmus (Loksa, 1960) – More than seven ocelli on each side of cephalic plate, Tmsvry’s organ smaller than adjacent ocelli ......................................................................... 3 3 No prodonts ................................................................................................ ................. A. apicicornis Qin, Lin, Zhao, Li, Xie, Ma, Su & Zhang, 2014 – Porodonts present ....................................................................................... 4 4 Large posterior tergites wrinkled; bulge present on terminal part of tarsus .... .......................................................................... A. magnus (Trozina, 1894) – Large posterior tergites smooth; no bulge on the terminal part of tarsus ..... 5 5 Antenna with at most 26 articles and 2+2 or 4+4 forcipular coxosternal teeth .... ............................................................. A. anamagnus Ma, Song & Zhu, 2008 – Antenna with at least 31 articles and at most 6+6 forcipular coxosternal teeth .... ................................................................... A. nodulus Ma, Song & Zhu, 2008

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90 Acknowledgements is study was supported by the National Natural Science Foundation of China (NSFC grant No. 31572239), the Talents Introduction Foundation of the Guizhou Academy of Sciences (2009-2); the Foundation of Biologic Resource and Environment Big Data ([2015] 4013); the scientic investigation of Caohai lake National Nature Reserve (2016GZCH-012); the innovative Talent Team (2015) 4012; and the innovative Talent Plan (2016) 5666. We are grateful to Gregory D Edgecombe, London, UK, Pavel Stoev, Soa, Bulgaria, and Marzio Zapparoli, Viterbo, Italy, for their hospitality and continu ous help during our research. We thank Rowland M Shelley, North Carolina, USA, and Dr His–Te Shih, Taichung, China, for providing us with invaluable literature. References Bonato L, Chagas Junior A, Edgecombe GD, Lewis JGE, Minelli A, Pereira LA, Shelley RM, Stoev P, Zapparoli M (2016) ChiloBase 2.0 – A World Catalogue of Centipedes (Chilop oda). http://chilobase.biologia.unipd.it Bonato L, Edgecombe GD, Lewis JGE, Minelli A, Pereira LA, Shelley RM, Zapparoli M (2010) A common terminology for the external anatomy of centipedes (Chilopoda). ZooKeys 69: 17. https://doi.org/10.3897/zookeys.69.737 Chao J, Lee K, Chang H (2018) Lithobius ( Monotarsobius ) meifengensis, a new species of cen tipede from high altitude forest in central Taiwan (Chilopoda, Lithobiomorpha, Lithobii dae). Zookeys 741: 181. https://doi.org/10.3897/zookeys.741.21036 Dyachkov YuV (2017) New data on the Australobius magnus (Trotzina, 1894) (Chilopoda: Lithobiomorpha: Lithobiidae) from Southern Kazakhstan. Ukrainian Journal of Ecology 7(4): 440. http://dx.doi.org/10.15421/2017_139 Eason EH (1997) On some Lithobiomorpha from the mountains of Kirghizia and Kazakhstan (Chilopoda). Arthropoda Selecta 6(1): 117. Eason EH (1978) On Lithobiidae from the Seychelles with description of two new species of the subgenus Australobius , genus Lithobius (Chilopoda: Lithobiomorpha). Journal of Zool ogy 184: 21. https://doi.org/10.1111/j.1469-7998.1978.tb03263.x Edgecombe GD (2002) Morphology and distribution of Australobius scabrior (Chilopoda: Lithobiomorpha: Lithobiidae). Memoirs of the Queensland Museum 48: 103. http:// www.nhm.ac.uk/resources-rx/les/edgecombe--hollington-2002-australobius-94124.pdf Loksa I (1960) Einige neue Diplopoden-und Chilopoden-Arten aus Chinesischen Hhlen. Acta Zoologica Academiae Scientiarum Hungaricae 6: 135. Ma H, Lu Y, Liu H, Hou X, Pei S (2018) Hessebius luculentus , a new species of the genus Hes sebius Verhoe, 1941 from China (Lithobiomorpha, Lithobiidae). Zookeys 741: 193. https://doi.org/10.3897/zookeys.741.20061 Ma H, Pei S, Hou X, Zhu T (2014a) Lithobius ( Monotarsobius ) zhangi sp. n., a new species from Eastern China (Chilopoda, Lithobiomorpha, Lithobiidae). ZooKeys 459: 1. https:// doi.org/10.3897/zookeys.459.8169

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91 Ma H, Pei S, Hou X, Zhu T, Gai Y (2015) Lithobius ( Ezembius ) anabilineatus sp. nov., a new species (Lithobiomorpha: Lithobiidae) from Eastern China. Oriental Insects 49(3): 256. https://doi.org/10.1080/00305316.2015.1081647 Ma H, Pei S, Hou X, Zhu T, Wu D, Gai Y (2014b) An annotated checklist of Lithobiomorpha of China. Zootaxa 3847(3): 333. http://dx.doi.org/10.11646/zootaxa.3847.3.2 Ma H, Song D, Zhu M (2008a) A new species of the genus Australobius Chamberlin, 1920 (Lithobiomorpha: Lithobiidae) from Tibet, China. Entomological News 2: 171. htt ps://doi.org/10.3157/0013-872X(2007)118[77:HPBTCT]2.0.CO;2 Ma H, Song D, Zhu M (2008b) A new species of Australobius Chamberlin, 1920 (Lithobio morpha: Lithobiidae) from China. Oriental Insects 42: 335. https://doi.org/10.1080 /00305316.2008.10417558 Pei S, Lu Y, Liu H, Hou X, Ma H (2018) Lithobius ( Ezembius ) tetraspinus , a new species of centipede from northwest China (Lithobiomorpha, Lithobiidae). ZooKeys 741: 203. https://doi.org/10.3897/zookeys.741.19980 Pei S, Lu Y, Liu H, Hou X, Ma H, Zapparoli M (2016) Lithobius ( Ezembius ) multispinipes n. sp., a new species of centipede from Northwest China (Lithobiomorpha: Lithobiidae). Zootaxa 4169(2): 390. http://dx.doi.org/10.11646/zootaxa.4169.2.12 Pei S, Ma H, Zhu T, Gai Y (2014) A new species of Lithobius ( Ezembius ) Chamberlin (Litho biomorpha: Lithobiidae) from China. Oriental Insects 48(1): 102. https://doi.org /10.1080/00305316.2014.959787 Pei S, Ma H, Hou X, Zhu T, Gai Y (2015) Lithobius ( Ezembius ) laevidentata sp. n., a new species (Chilopoda: Lithobiomorpha: Lithobiidae) from the Northwest region of China. Biologia 70(8): 1113. https://doi.org/10.1515/biolog-2015-0124 Qiao P, Qin W, Ma H, Su J, Zhang T (2018) Two new species of the genus Hessebius Verho e, 1941 from China (Lithobiomorpha, Lithobiidae). Zookeys 735: 65. https://doi. org/10.3897/zookeys.735.22237 Qin W, Lin G, Zhao X, Li B, Xie J, Ma H, Su J, Zhang T (2014) A new species of Australobius (Lithobiomorpha: Lithobiidae) from the Qinghai–Tibet Plateau, China. Biologia 69(11): 1601. https://doi.org/10.2478/s11756-014-0459-4 Qin W, Qiao P, Huang Y, Lin G, Su J, Zhang T (2017) A new species of Bothropolys and a new record of Lithobius magnitergiferous (Lithobiidae) from the Qinghai-Tibet Plateau, China. Biologia 72(11): 1314. https://doi.org/10.1515/biolog-2017-0151 Trotzina A (1894) Vier neue Lithobius -Arten aus Central Asia. Horae Societatis Entomologicae Rossicae 28: 247. Zapparoli M, Edgecombe GD (2011) Lithobiomorpha. – In: Minelli A (Ed.) Treatise on Zo ology – Anatomy, Taxonomy, Biology – e Myriapoda, Volume 1. Jordaan Luchtmans, Brill, Leiden/Boston, 371.


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