Aliculastrum debilis ( Pease, 1860 )

Too, Chin Chin, Carlson, Clay, Hoff, Patty Jo & Malaquias, Manuel António E., 2014, Diversity and systematics of Haminoeidae gastropods (Heterobranchia: Cephalaspidea) in the tropical West Pacific Ocean: new data on the genera Aliculastrum, Atys, Diniatys and Liloa, Zootaxa 3794 (3), pp. 355-392 : 362-365

publication ID

https://doi.org/ 10.11646/zootaxa.3794.3.3

publication LSID

lsid:zoobank.org:pub:A9A30A4F-D095-47EE-9120-B0B5A7BCCE88

DOI

https://doi.org/10.5281/zenodo.5082788

persistent identifier

https://treatment.plazi.org/id/039387C8-FF8D-A261-FF78-F8D2FC3B69FD

treatment provided by

Felipe

scientific name

Aliculastrum debilis ( Pease, 1860 )
status

 

Aliculastrum debilis ( Pease, 1860)

Atys debilis Pease, 1860: 20 View in CoL . Sowerby 1870: pl. 5, sp. 28. Watson 1886: 640. Pilsbry 1917: 217, fig. 7. Kay 1979: 424, fig. 137C. Gosliner et al. 2008: 23.

Atys (Alicula) debilis View in CoL — Pilsbry 1895: 266, pl. 33, figs 69, 70. Kobelt 1896: 22, pl. 6, fig. 15.

Atys (Aliculastrum) debilis View in CoL — Pilsbry 1896: 267.

Atys angustata — Smith 1872: 346.

Atys cortuna — Kay 1979: 424.

Type locality. Hawaii ( Sandwich Islands ) .

Material examined. Tahiti, 1 shell examined, ZMB unnumbered (paratype), H = 10.13 mm; Maui , Hawaii , ZMBN 81658 View Materials , H = 9 mm; the Philippines, 1 shell examined, MNHN, Paris ( OT834 ), H = 4.5 mm; the Philippines, 2 spcs dissected, MNHN, Paris (M9/ OT802 ), H = 5.3 mm, 5.9 mm; Tahiti , 1 spc. dissected, ZMBN 87083 View Materials , H= 5.2 mm; Tahiti, 2 spcs dissected, ZMBN 87084 View Materials , H = 8.2 mm, 8.4 mm; the Philippines, 2 spcs dissected, MNHN, Paris ( OT834 ), H = 4.6 mm, 5.6 mm .

Animal ( Fig. 1B View FIGURE 1 ): Body whitish-translucent, white dots scattered over the body, more dense on edges and mid part (between mouth and eyes) of cephalic shield, forming abundant blotches on the mantle and parapodial lobes; eyes visible, inserted in unpigmented periocular areas.

Shell ( Figs 2C View FIGURE 2 , 5A, B View FIGURE 5 ): Maximum height 15 mm; milky white; slightly robust, slightly thick, semi-opaque, cylindrically ovate, narrowed towards both ends, widest right below the mid-line, anterior end truncated; spire sunken, outer lip elevated above the apex, strongly sinuous at the posterior end, columella short and thick; step-like spiral grooves at both ends only (anterior = 10–18, posterior = 7–13), which become closer towards the ends, axial lines present.

Jaws ( Fig. 5C View FIGURE 5 ): Present, crescent shape, jaw rodlets with 5-6 denticles.

Radula ( Figs 5D–F View FIGURE 5 ): Radular formula at mid-point 20-30 x 12–8.1.1.0.8–12; median tooth with broad base, triangular central cusp with thinner membrane-like structure on both sides, pseudo lateral cusps present; inner lateral tooth presents only at right side, hook-shaped, broad base, with semi-circular projection outwardly, broader than outer lateral teeth, strong denticulation presents along outer margin; outer lateral teeth hook-shaped, slender, broad base, with semi-circular projection outwardly, groove along the outer margin, size decreases outwardly.

Gizzard plates ( Figs 5G, H View FIGURE 5 , 6A, B View FIGURE 6 ): Three gizzard plates; broader at anterior part, narrower posteriorly; 8–11 ridges, pseudo-rachis present; For specimens from Tahiti ( Fig. 6A View FIGURE 6 ), 8 ridges, rachis absent or faint; ridges covered by rods with pointed tips along top edge, smaller rods with pointed tips densely at both anterior and posterior sides of ridges, gaps between ridges smooth, high density of rods on ridges throughout plates.

Male reproductive system ( Fig. 5I View FIGURE 5 ): Total length 3.2 mm (H = 8.2 mm). Formed by three parts: prostate, seminal ducts and penial region; prostate elongated, bilobed, proximal lobe larger, opaque-yellowish, distal lobe translucent, striations on entire prostate; two seminal ducts connect prostate and penial region, seminal duct makes two coils right after prostate before branching into two, first seminal duct is narrower than second seminal duct, first seminal duct curls at the posterior end and stretches underneath of second seminal duct towards penial region, both seminal ducts yellowish but turn translucent at anterior end; penial region translucent with broad end, narrower towards genital opening.

Ecology. Sandy bottom or on Halimeda beds between depth of 6–18 m ( Gosliner et al. 2008; present study).

Geographical distribution. Tahiti, Fiji, Hawaii, the Philippines, Guam ( Kay 1979; Gosliner et al. 2008; present study).

Remarks. This species is often misidentified with Aliculastrum cylindricum due to their extreme similarity in shell morphology. Pease (1860) described Aliculastrum debilis as having a pellucid and fragile shell. The specimens examined during this study agree in part with this description; they have semi-translucent shells, which are, however, relatively robust. A paratype of this species (see examined material; Fig. 7 View FIGURE 7 ) from Tahiti has a solid opaque shell, which might indicate that Pease used shells from more than one species to describe Aliculastrum debilis . Confusion around the characters to distinguish this species is well patent in the literature. For example, Pilsbry (1917) mentioned that the illustration of Aliculastrum debilis in Sowerby (1870: pl. 5, sp. 28a, b) show a projecting point at the posterior end of the columella, although such feature is not referred by Pease (1860). Carpenter (1865) mentioned that Aliculastrum debilis is identical to Atys succisa , and simply a slender version of Atys alicula . Pilsbry (1895) mentioned that Atys angustata is a synonym of Aliculastrum cylindricum but, his description of the species: “a very narrow shell with both ends thinner and strongly sinuous at the posterior ends”; resembles Aliculastrum debilis rather than Aliculastrum cylindricum . Similarly, Kay (1979) expressed doubts about a species described by Pilsbry (1917), which he named Atys cortuna that only differs from Aliculastrum debilis by possessing a wider posterior end; Kay (1979) synonymized both species under the name Atys debilis .

Aliculastrum debilis has a more elongated semi-translucent shell with deep spiral grooves at both ends, when compared with Aliculastrum cylindricum , which has a more inflated opaque shell with shallower spiral grooves at both ends. Besides, the former usually has a narrower shell towards both ends, whereas the latter has a broader anterior end compared to its posterior end. Moreover, these two species can be distinguished easily based on their anatomical features as documented above.

This species has been placed under the genus Atys by most authors although it possesses features that are different from the type species Atys naucum ; for example, a cylindrical shell, gizzard plates with large ridges and complex male reproductive system with two seminal ducts. Aliculastrum debilis has an asymmetric radula; the inner lateral tooth with strong denticulation along the outer margin appears only at the right side. This character is found also in another Aliculastrum species studied in this work (e.g. A. parallelum ). Preliminary phylogenetic data ( Too 2011) suggest the inclusion of this species in the genus Aliculastrum .

ZMB

Museum für Naturkunde Berlin (Zoological Collections)

MNHN

Museum National d'Histoire Naturelle

Kingdom

Animalia

Phylum

Arthropoda

Class

Malacostraca

Order

Decapoda

Family

Atyidae

Genus

Aliculastrum

Loc

Aliculastrum debilis ( Pease, 1860 )

Too, Chin Chin, Carlson, Clay, Hoff, Patty Jo & Malaquias, Manuel António E. 2014
2014
Loc

Atys cortuna

Kay, E. A. 1979: 424
1979
Loc

Atys (Aliculastrum) debilis

Pilsbry, H. A. 1896: 267
1896
Loc

Atys (Alicula) debilis

Kobelt, W. 1896: 22
Pilsbry, H. A. 1895: 266
1895
Loc

Atys angustata

Smith, E. A. 1872: 346
1872
Loc

Atys debilis

Gosliner, T. M. & Behrens, D. W. & Valdes, A. 2008: 23
Kay, E. A. 1979: 424
Pilsbry, H. A. 1917: 217
Watson, R. B. 1886: 640
Pease, W. H. 1860: 20
1860
GBIF Dataset (for parent article) Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF