Cyphoderus

Taxonavigation

Ordo: Collembola
Familia: Cyphoderidae

Name

Cyphoderus Nicolet, 1842 – Wikispecies link – Pensoft Profile

Type species

Cyphoderus albinus Nicolet, 1842

Character assessment

Several characters of taxonomic importance were discovered or re-appraised in the course of this study. All antennal segments were examined on both dorsal and ventral sides, revealing 10 types of chaetae (Fig. 3A). Their distribution pattern on the antennae is complex, but similar in the two species. Similarities are also obvious with the few Entomobryoidea where antennal chaetotaxy has been described. For instance, sens 1 to 5 and 8 of AIIIO as figured in Sinella by Chen and Christiansen (1993)^[1] were easily retrieved in our Cyphoderus (Fig. 3G). Several of the chaetal types recognized here are also found in other genera of Entomobryoidea. However, patterns are very complex and their comparisons would require detailed analyses beyond the scope of this paper. S-chaetae can be grouped in four types (Fig. 4A), with chaeta S4 difficult to distinguish from type-5 mes. The S-chaetae formula observed in our species, as well as in other unidentified ones of the bidenticulati group, is 0/2,1/1,2,3,4,3,0 from head to Abd.VI (Figs 4–6), including 0/1,0/1,0,1,0,0 for S1; 0/1,1/0,1,0,0,0 for S2, 0/0,0/0,1,2,2,3 for S3 and 0/0,0/0,0,0,2,0 for S4. This S-chaetae pattern is similar to that of Entomobryoidea, except for the position of chaetae S1 and S2 on Th.II. In Entomobryoidea, S1 and S2 (=ms and S in Zhang et al. 2009^[2]) are close each other antero-laterally on the tergite (see Zhang et al. 2009^[2]). In the examined Cyphoderus, S2 is not close to S1, but intermediate between the position of antero-lateral S2 and of the postero-lateral S2 as observed in several Entomobryidae. Pseudopores on tergites are arranged as in the Entomobryoidea species where they have been recorded (Jordana 2012^[3] for instance): 1,1/1,1,1,1,0,0 from Th.II to Abd.VI. The presence of dorso-distal pseudopores on manubrium (2+2 in the studied Cyphoderus, Fig. 7H, 8D) is also characteristic of Entomobryoidea. Special to Cyphoderus described here are the 2+2 pseudopores behind the posterior row of chaetae of Abd.IV, found also in other unidentified Cyphoderus of the bidenticulati group (Fig. 4B). This pseudopore location is only known in Troglopedetinae, i.e., in Troglopedetes (Deharveng 1988^[4]), in Cyphoderopsis (Jantarit et al. 2013) and in Trogolaphysa (Soto-Adames and Taylor 2013^[5]), with a number of pseudopores different for each genus. A ventral pseudopore is present on antennal area, in the same location as in Isotomidae (Deharveng 1979^[6]), Neanuridae (Deharveng 1983^[7]) and Onychiuridae (Pomorski 1998, Martinez et al. 2004^[8]). At least, the presence of 1+1 or 2+2 pseudopores on head anteriorly to the antenno-basal line (Fig. 2H) is a new pseudopore location for Collembola, unnoticed as far as we know in other genera of the class. Important features of dorsal head chaetotaxy have been discovered by Yoshii (1980^[9], 1987^[10], 1992^[11]), useful for characterizing the family Cyphoderidae and several taxa of lower rank. The number and arrangement of post-labial chaetae as well as the presence of one mic among them are the same in the two species described here. However, they differ when compared with other species and might provide another promising set of taxonomic characters. Body chaetae of various types were detected and tentatively grouped in categories. The mes of type-5 are the most numerous chaetae dorsally. They are seen as smooth under microscope examination, but serrated under SEM, Fig. 4A5; distinguishing them from S4 sens is especially difficult on Abd.IV where both are present, and the same confusion may arise for many other Entomobryoidea. As patterns of these mes as well as those of S4 sens seem to be stable inside population and different between species, further investigations will have to re-examine this character for its use in taxonomy. The chaetotaxy of dorsal side (Figs 4–6) matches in most cases that given by Szeptycki (1979)^[12] for Cyphoderus albinus, and is very similar to that of Entomobryoidea (see Zhang et al. 2009^[2]). Main differences include the relative position of S1 and S2 on Th.II (see above), and chaeta “as” of Th.III as a mes in our material versus a short S-chaetae in Szeptycki (1979)^[12]. One of the most important characters for differentiating species of the bidenticulati group is claw morphology, and it is the most diagnostic feature of the species described here. Although some variability in size and position of the various dental teeth has been noticed by other authors, it has not been taken into account in previous descriptions, leaving doubts about the validity of several species.

Taxon Treatment

• Jantarit, S; Satasook, C; Deharveng, L; 2014: Cyphoderus (Cyphoderidae) as a major component of collembolan cave fauna in Thailand, with description of two new species ZooKeys, 368: 1-21. doi

Images

Figure 2. Cyphoderus songkhlaensis sp. n. A habitus B outer maxillary lobe C maxilla head and ventral complex of the labrum D mandible E labial palp: proximal chaetae and external papilla E F labrum, dorsal view G chaetotaxy of labial basis; frontal chaetae H frontal chaetae and pseudopores of head I dorsal chaetotaxy of head.  Figure 3. Cyphoderus songkhlaensis sp. n. continued A chaetae of antenna drawn from optical microscope, except 3* derived from SEM image B dorsal side of right Ant.I C ventral side of right Ant.I D dorsal side of right Ant.II; the apical swollen sens of type-7 are indicated by arrows E ventral side of right Ant.II with apical pseudopore F ventral side of right Ant.III with apical pseudopore G dorsal side of right Ant.III H distal organite of Ant.III I ventral side of Ant.IV J dorsal side of Ant.IV with separate view of the subapical organite (left).  Figure 4. Cyphoderus songkhlaensis sp. n. continued A chaetae of tergites drawn from optical microscope, except 5* derived from SEM image B chaetotaxy of tergites with types of S-chaetae S1 to S4 C trichobothrial complexes of Abd.II D trichobothrial complexes of Abd.III E anterior trichobothrial complexes of Abd.IV F tandem of chaetae on Abd.IV; the smallest is a short type-5 mes and the largest a S4 sens.  Figure 6. Cyphoderus songkhlaensis sp. n. continued, Szeptycki’s notation of tergal chaetae on Abd.IV (Szeptycki 1979[12]).  Figure 7. Cyphoderus songkhlaensis sp. n. continued A chaetae of furca B scales of furca C trochanteral organ D claw and distal part of tibiotarsus III E tenaculum F anterior face of the ventral tube G posterior face of the ventral tube; the peg-like setulae are indicated by arrows H furca; encircled by dotted lines are the 2+2 latero-basal mesochaetae of manubrium (a) the 3 outer basal mesochaetae of dens (b) and the 2+2 inner basal mesochaetae of dens (c) (I) mucro in lateral view (right) and in dorsal view (left) showing a third minute external tooth J female genital plate K male genital plate.  Figure 8. Cyphoderus khaochakanus sp. n. A trochanteral organ B claw and distal part of tibiotarsus III C posterior face of the ventral tube D furca; feathered chaetae in lateral view, only one of the two vanes attached to the rachis is visible E mucro.

Other References

1. ↑ Chen J, Christiansen K (1993) The genus Sinella with special reference to Sinella s. s. (Collembola: Entomobryidae) of China. Oriental Insects 27: 1-54. doi: 10.1080/00305316.1993.10432236
2. ↑ ^{2.0 2.1 2.2} Zhang F, Chatterjee T, Chen J (2009) A new species of the genus Lepidocyrtus Bourlet and a new record of Seira delamarei Jacquemart (Collembola: Entomobryidae) from the east coast of India. Zootaxa 2310: 43-50.
3. ↑ Jordana R (2012) Synopses on Palaearctic Collembola: Capbryinae and Entomobryini. Senckenberg Museum of Natural History, Görlitz, 7(1): 390 pp.
4. ↑ Deharveng L (1988) A new troglomorphic Collembola from Thailand: Troglopedetes fredstonei new species (Collembola: Paronellidae). Occasional Papers of the Bernice Pauahi Bishop Museum 28: 95-98.
5. ↑ Soto-Adames F, Taylor S (2013) The dorsal chaetotaxy of Trogolaphysa (Collembola, Paronellidae), with descriptions of two new species from caves in Belize. ZooKeys 323: 35-74. doi: 10.3897/zookeys.323.4950
6. ↑ Deharveng L (1979) Note sur un type d’organites tégumentaires originaux rencontré chez les Isotomidae (collembola). In: Dallai R (Ed) first International Seminar on Apterygota, Siena 1979: 59-62.
7. ↑ Deharveng L (1983) Morphologie évolutive des Collemboles Neanurinae, en particulier de la lignée Néanurienne. Travaux du Laboratoire d’Ecobiolologie des Arthropodes Edaphiques, Toulouse 4: 1-63.
8. ↑ Martínez M, Baquero E, Barranco P, Ariño A, Jordana R (2004) A new genus and species of Collembola from caves of south Iberian Peninsula (Collembola, Poduromorpha, Onychiuridae). Zootaxa 734: 1-15.
9. ↑ Yoshii R (1980) Cyphoderid Collembola of Sabah. Contributions of the Biological Laboratory of Kyoto University 26: 1-16.
10. ↑ Yoshii R (1987) Notes on some Cyphoderid Collembola of the tropical Asia. Contributions of the Biological Laboratory of Kyoto University 27: 121-136.
11. ↑ Yoshii R (1992) Interim report of the taxonomic researches toward the Collembolan family Cyphoderidae. Contributions of the Biological Laboratory of Kyoto University 28: 99-118.
12. ↑ ^{12.0 12.1 12.2} Szeptycki A (1979) Chaetotaxy of the Entomobryidae and its phylogenetical significance: Morphosystematic studies of Collembola. IV. Polska Akademia Nauk, Zakład Zoologii Systematycznej i Doświadczalnej Państwowe Wydawnictwo Naukowe, Warszawa, Kraków, 219 pp.