Cancrocaeca xenomorpha Ng, 1991
publication ID |
https://doi.org/ 10.5281/zenodo.181452 |
DOI |
https://doi.org/10.5281/zenodo.6233820 |
persistent identifier |
https://treatment.plazi.org/id/9C7287B0-9946-FFAF-C195-D6CCFC21FB29 |
treatment provided by |
Plazi |
scientific name |
Cancrocaeca xenomorpha Ng, 1991 |
status |
|
Cancrocaeca xenomorpha Ng, 1991 View in CoL
( Figs. 1 View FIGURE 1 , 2 View FIGURE 2 )
Cancrocaeca xenomorpha View in CoL — Ng, 1991: 59, figs. 1–7; Ng & Chuang, 1996: 17, fig. 5; Guinot & Richer de Forges, 1997: 456, fig. 9; Deharveng et al., 2002: 36.
Material examined. Holotype. Male, 4.1 × 4.7 mm, ZRC 1990.11971, Lubang Batu Neraka, Kappang, Maros, Sulawesi, Indonesia, coll. P. Leclerc, 4 Aug. 1990.
Paratypes. One ovigerous female, 5.6 × 6.2 mm, ZRC 1990.11972, data same as holotype; 1 male, 3.6 × 4.0 mm, ZRC 1990.0484, Gua Tanette, Kappang, Maros, Sulawesi, Indonesia, coll. P. Leclerc, 18 Jul. 1989.
Others. Two males, 3.9 × 5.3, 4.0 × 5.3 mm, 1 ovigerous female, 4.2 × 5.5 mm, MZB Cru 1652, Gua Samanggi, Samanggi, Sulawesi Selatan, Indonesia, coll. L. Deharveng, I. Andayani & A. Bedos, 31 Jul. 2001; 1 male, 3.7 × 5.0 mm, 1 ovigerous female, 4.1 × 5.2 mm, ZRC 2007.0118, data same as MZB Cru 1652.
Remarks. Ng (1991) established a monotypic genus Cancrocaeca for one new species, C. xenomorpha , from Sulawesi. He regarded this species as the most highly adapted troglobitic brachyuran, with complete loss of eyes and coloration. The examination of additional larger specimens (MZB Cru 1652) of C. xenomorpha , as well as the type specimens, reveals that all of these specimens actually have remnants of eyes ( Fig. 1 View FIGURE 1 a, b). These vestigial structures are very short, rounded, fused to the carapace and immobile, and there is no trace of a clear peduncle, cornea or pigmentation. In larger individuals, these vestigial eyes are relatively bigger when compared to small individuals, with the tips visible in dorsal view. Even so, C. xenomorpha still possesses one of the most reduced ocular structures known for any brachyuran crab. Only the deep sea hydrothermal vent crabs of the genus Austinograea Hessler & Martin, 1989 (Bythograeidae) have eyes reduced to almost the same extent (see Guinot 1990: 892–896, figs. 1, 4).
Cancrocaeca has other unusual characters. The female abdomen of C. xenomorpha is strongly convex externally, forming a prominent dome-shape ( Fig. 2 View FIGURE 2 b, c); the second to fifth segments bear biramous and long setose pleopods, which develop from distal outer angles of the inner surface of second to fifth abdominal segments ( Fig. 2 View FIGURE 2 c, e–h). The exopods of the third to fifth pleopods lie along lateral margins of the abdomen and cover the margin of the inner surface of the dome-shaped abdomen. There are only a few (ca. 40) relatively large eggs (0.59–0.64 mm diameter) (ZRC 2007.0118, 4.1 × 5.2 mm). However, these eggs do not appear to be attached to the pleopods or any other structures, and will freely roll out when the abdomen is opened. The median parts of thoracic sternum are fused and form a relatively flat, undivided structure ( Fig. 2 View FIGURE 2 a) composed of a relatively thick cuticle, and no eggs are placed inside the cephalothorax cavity. The vulva of C. xenomorpha is also unusual in being raised, with a large, conical basal mount, and it is placed on along an imaginary line joining bases of P3 on the medial fused plate of the thoracic sternum ( Fig. 2 View FIGURE 2 a).
Cancrocaeca View in CoL appears to be most similar to Limnopilos View in CoL and Hymenicoides View in CoL in the absence of a rostrum (although L. microrhynchus (Ng, 1995) View in CoL does possess a very short rostrum (see Ng 1991: 61, fig. 2A, B; Chuang & Ng 1991: fig. 1a). Cancrocaeca View in CoL is also similar to species of Amarinus View in CoL , especially A. laevis ( Targioni-Tozzetti, 1877) View in CoL , in having freely articulating male abdominal segments ( Ng 1991: 61, figs. 2E, F, 4A–C; Guinot & Richer de Forges 1997: fig. 4E) and a stout G1 with a complex distal structure ( Lucas 1980: fig. 10A, D; Ng 1991: figs. 3B, 6, 7). The G1 of A. laevis View in CoL , however, is not strongly bent medially, is not twisted basally, and does not have a lamellar expansion and long setae on the distal outer margin (present study; Lucas 1980: fig. 10), features prominent in species of Cancrocaeca View in CoL , Limnopilos View in CoL and Hymenicoides View in CoL (fig. 1d, e; see Ng 1995: fig. 14A, B; Ng & Chuang 1996: fig. 21H; Naruse & Ng 2007b: figs. 2, 5c, d, 8c). Amarinus laevis View in CoL also differs from the species of Cancrocaeca View in CoL , Limnopilos View in CoL and Hymenicoides View in CoL by its bell-shaped male abdomen-pleotelson ( Lucas, 1980: fig. 7A) (barrel-shaped in Cancrocaeca View in CoL , Limnopilos View in CoL and Hymenicoides View in CoL , Fig. 1 View FIGURE 1 c; Ng 1995: fig. 13G; Ng & Chuang 1996: fig. 21E; Naruse & Ng 2007b: figs. 5a, 8a), and the absence of the basal mount of the female vulva (present in Cancrocaeca View in CoL , Limnopilos View in CoL and Hymenicoides View in CoL , fig. 3a; Naruse & Ng 2007b: 18, 22, 26, 27). These characters indicate that Cancrocaeca View in CoL may be phylogenetically closer to Limnopilos View in CoL and Hymenicoides View in CoL rather than to Amarinus View in CoL .
The lateral lobes of the sixth abdominal segment in the Hymenosomatidae View in CoL , usually located at the base of the pleotelson, and sometimes appearing as intercalary platelets (which may be movable), correspond to the location of the deep sockets for the abdominal locking mechanism (see Guinot & Richer de Forges 1997: 466, figs. 2A, 4, 5, 6AE; Guinot & Bouchard 1998: 658, 683, fig. 27). The form of this structure is a good generic criterion. Ng & Chuang (1996) considered Limnopilos View in CoL as a junior subjective synonym of Hymenicoides View in CoL , but Naruse & Ng (2007b) resurrected Limnopilos View in CoL emphasising differences in the locking mechanism of the male abdomen and G1 ( Naruse & Ng 2007b: figs. 1, 2a, b, 5a, c, 8a, c). Cancrocaeca xenomorpha View in CoL is more similar to Limnopilos View in CoL species than to Hymenicoides View in CoL species in having a slender shaft of the G1 and less produced lateral lobes of the male pleotelson. Hymenicoides View in CoL species are distributed along the Indian Ocean coasts ( H. carteri Kemp, 1917 View in CoL , near Kolkata (= Calcutta), India and Ganges Basin, Bangladesh; H. robertsi Naruse & Ng, 2007 View in CoL , Myanmar), whereas Limnopilos View in CoL species are distributed on the South China Sea and Gulf of Thailand coasts [ L. naiyanetri Chuang & Ng, 1991 View in CoL , Gulf of Thailand; L. microrhynchus (Ng, 1995) View in CoL , Sabah, Borneo; L. sumatrana Naruse & Ng, 2007 , South China Sea, coast of Sumatra], which is geographically closer to the distributional range of C. xenomorpha (Sulawesi) View in CoL . The close geographical distribution as well as the morphological similarities suggest that Limnopilos View in CoL is closer to Cancrocaeca View in CoL .
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.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
|
Genus |
Cancrocaeca xenomorpha Ng, 1991
Naruse, Tohru, Ng, Peter K. L. & Guinot, Danièle 2008 |
Cancrocaeca xenomorpha
Deharveng 2002: 36 |
Forges 1997: 456 |
Ng 1996: 17 |
Ng 1991: 59 |