Bayerotrochus delicatus, a new species of pleurotomariid from Yap Seamount, near Palau, Western Pacific (Gastropoda: Pleurotomariidae) Author Zhang, Suping Author Zhang, Shuqian Author Wei, Peng text Zootaxa 2016 4161 2 252 260 journal article 10.11646/zootaxa.4161.2.7 4a9d195d-8bf0-46b4-ad0d-fae469a6bf0a 1175-5326 265670 826751C7-1E6B-4E5E-A158-7E282217CCA7 Bayerotrochus delicatus sp. nov. ( Figs 1 , 2A–C , 3 , 4 ) Type Material. Holotype: RN: MBM283051, CN: Y30109 ; height: 47.8 mm , maximum width: 62.1 mm , maximum basal diameter: 62.1mm , depth of slit along upper margin: 30.1 mm , depth of slit along lower margin: 24.2 mm ; 8°51′N, 137°47′E, 255.3 m deep, hard bottom, December 22, 2014 . Paratype: RN: MBM283052, CN: 30001; height: 45.4 mm , maximum width: 59.6 mm , depth of slit along upper margin: 29.1mm , depth of slit along lower margin: 23.0 mm; 8°51′N, 137°47′E, 289 m deep, hard bottom, December 12, 2014 . Distribution and habitat. Yap Seamount, near Palau , Western Pacific, where the specimens were collected at depth of 255.3–289 m on hard bottom. Etymology. The name of new species refers to its delicate sculpture. Description Shell ( Figs. 1 ; 2A–C). Shell small sized for genus (height up to 47.8 mm , width up to 62.1 mm ), depressed trochoid in shape, thin and fragile; consisting of 8.25 whorls. Apical angle of first four whorls 83°; mean spire angle 95°. Protoconch slightly eroded, of about one glassy, non-sculptured whorl, protoconch/teleoconch discontinuity distinct. Teleoconch of 7 flattened to slightly convex whorls, sculptured with spiral cords crossed by axial ribs that well developed on the first four teleoconch whorls, forming squarish, rectangular interspaces with pronounced beads where they intersect; of the spiral cords, the suprasutural one on second and third whorl is more developed than others. From fifth whorl on, spiral cords become obsolete above selenizone; below selenizone, sculpture consists of axial ribs crossed by 8–10 spiral cords; of these, the three cords near the suture are separated by narrower spaces than that between others. Selenizone bordered by two raised lines, sculptured with close-set, backward-curving incremental lines, and spiral traces. Shell profile straight. Shell surface lustrous orange mottled with iridescence, axial orange flammules exclusively present on shell surface near the aperture. Aperture ovate in shape, inner surface iridescent. Slit short, 30.1 mm along upper margin; 24.2 mm along lower margin. Umbilicus closed. Basal disk slightly convex, with numerous faint growth lines and spiral threads. Operculum brown, sub-circular in shape, with central nucleus. Radula ( Fig. 3 ): Radular formula: R + 3 + 23 + ( ca . 30) +( ca . 65) + 9, composing 5 distinct groups of teeth on either side of the single rachidian, referred to as inner laterals, outer laterals, sickle teeth, filament-tipped teeth and paddle-shaped teeth. Right side of each row skewed anteriorly. Rachidian with broad shaft and acute tip. Inner laterals subequal in size, with truncate tip. Outer laterals at first decreasing and then increasing in size, very short. Sickle teeth very long and slender, firstly increasing and then decreasing in size; inner sickle teeth simple, outer ones with two hooks near the distal end. Filament-tipped teeth and paddle-shaped teeth equal in size, respectively. Head-foot ( Fig. 4 ). The head off-white in colour mottled with beige patches. Snout cylindrical, the ventral surface of the snout flattened and equipped by numerous papillae. Mouth trilobate. Tentacles long, tapering; left tentacle with a papilla-like structure on one-third from distal end. Eyes black, situated on eye lobe that is separated from tentacle. Foot short and narrow, trapezoidal in shape, with beaded lateral surfaces. The lower part of the head and the lateral surface of foot mottled with pale to dark tan. FIGURE 1. Bayerotrochus delicatus sp. nov. MBM283051, holotype. A–D. Shell; E. Protoconch, arrow indicates the transition to teleoconch; F. Apical view of earlier whorls; G. Earlier whorls. Remarks. Bayerotrochus delicatus sp. nov. is characterised by its small sized, depressed shell with delicate sculpture, its straight shell profile, a mean spire angle of 95°, the teleoconch whorls being lustrous orange mottled with iridescence, its wide slit, and the ratio of the slit length to circumference of the body whorl being around 1/6.6. These characters distinguish Bayerotrochus delicatus sp. nov. from other congeners. Bayerotrochus tangaroana ( Bouchet & Metivier, 1982 ) (see fig. 2F) resembles Bayerotrochus delicatus sp. nov. in general sculpture pattern. From the new species, however, Bayerotrochus tangaroana differs in having convex whorls with impressed suture, in having a rounded rather than an angular periphery of the body whorl, in having a much coarser sculpture, a more circular aperture with expanded and reflected basal lip, and a different colour pattern. Bayerotrochus delicatus sp. nov. is smiliar to juvenile specimens of Bayerotrochus westralis ( Whitehead, 1987 ) in general shell shape (ratio of diameter to number of whorls is around 8), but can be distinguished from Bayerotrochus westralis (see figs. 2D, E) in having a different colour pattern and sculpture pattern. The shell of the new species is coloured with lustrous orange that is mottled with iridescence, axial orange flammules exclusively occur near the aperture, and the shell surface is sculptured with spiral cords crossed by axial ribs forming squarish, rectangular interspaces with pronounced beads on first four teleoconch whorls, and spiral cords lacking above selenizone from the fourth whorl on. These characters not present in Bayerotrochus westralis ( Whitehead, 1987 ) . Bayerotrochus delicatus sp. nov. resembles Bayerotrochus philpoppei Anseeuw, Poppe & Goto, 2006 in shell size, but can be differentiated from it in having a different apical profile, flattened rather than much more convex teleoconch whorls, a much broader slit ( 3.90 mm vs . 2.35 mm ) and a different ratio of slit length to circumference of the body whorl (1/ 6.6 in the new species vs . 1/ 6.3 in Bayerotrochus philpoppei ). FIGURE 2. A–C. Paratype of Bayerotrochus delicatus sp. nov. MBM283052; D–E. Lectotype of Bayerotrochus westralis (Whitehead, 1987) , after Anseeuw & Goto, 1996: 170; F. Holotype of Bayerotrochus tangaroana (Bouchet & Metivier, 1982) , in NIWA, New Zealand; G. Bayerotrochus sp., from Palau, photo by Harasewych. FIGURE 3. Radula of paratype of Bayerotrochus delicatus sp. nov. A. Intact radula; B. Rachidian and lateral teeth; C. Sickle teeth; D. Outer sickle teeth; E. Outer sickle teeth and filament-tipped teeth; F. Filament-tipped teeth. FIGURE 4. Head-foot of Bayerotrochus delicatus sp. nov. A. Lateral view of head-foot; B. Beaded lateral surface of foot; C. Lateral view of head; D. Ventral view of mouth. Bayerotrochus delicatus sp. nov. is also similar to Bayerotrochus boucheti ( Anseeuw & Poppe, 2001 ) in general shape. However, Bayerotrochus boucheti differs from the new species in having much larger shell, a different mean spire angle, a gradate rather than a straight shell profile, and a different ratio of slit length to circumference of the body whorl (1/ 5.7 in Bayerotrochus boucheti vs . 1/ 6.6 in the new species). Some sculpture pattern on parts of teleoconch indicate the new species maybe related to Bayerotrochus teramachii ( Kuroda, 1955 ) , but the new species clearly differs it in having much weaker spiral threads on basal disc surface, different color pattern and different radula formula (R+3+23+ca.30+ca.65+ 9 in new species vs . R+3+18+12+33 + 8 in Bayerotrochus teramachii ) (see Anseeuw & Goto 1996 : 157; Kuramochi et al . 1996 : 113, photos 8–10). In addition, Bayerotrochus delicatus sp. nov. can be separated from Bayerotrochus teramachii by molecular features (see blow) It is worth mentioning that two pleurotomariid specimens collected from Palau Island were identified as Bayerotrochus africanus teramachii by Okutani & Kurata (1998) . Recently, Harasewych (personal communication) also collected a Bayerotrochus teramachii -like specimen from Palau that appears to belong to the same species as Okutani & Kurata’s specimens according to shell size, shape and general sculpture (see Fig. 2 G). Molecular data show that the COI sequence of Harasewych’s specimen from Palau is different from that of Bayerotrochus teramachii ( Kuroda, 1955 ) (see below). Thus, the Harasewych’s specimen together with Okutani & Kurata’s specimens perhaps represent an undescribed species. These specimens seem to be the geographically closest species to Bayerotrochus delicatus sp. nov. However, the mean K2P genetic distance between Harasewych’s specimen and Bayerotrochus delicatus sp. nov. shows that they belong to distinct species (see below). Morphologically, Bayerotrochus delicatus sp. nov. differs from these specimens in having smaller shell with straight profile and a much more delicate shell sculpture. FIGURE 5. Neighbour-joining tree for Pleurotomariidae based on available COI sequences from this study and GenBank. Numbers above branches indicate the bootstrap values. Molecular analyses. One sequence type was obtained for the COI region in Bayerotrochus delicatus sp. nov. The length of the COI sequence of Bayerotrochus delicatus sp. nov. is 636 bp. The Neighbor-joining (NJ) tree ( Fig. 5 ) was reconstructed using available COI sequences from this study and GenBank. The alignment of COI had a total 480 bp. The NJ tree shows that the new species falls into the genus Bayerotrochus in which Bayerotrochus delicatus sp. nov. together with Bayerotrochus sp. form a sister group of Bayerotrochus teramachii . The mean K2P genetic distance between Bayerotrochus delicatus sp. nov. and Bayerotrochus teramachii is 3.0%; between Bayerotrochus delicatus sp. nov. and Bayerotrochus sp. is 2.3 %; and that between Bayerotrochus teramachii and Bayerotrochus sp. is 3.2%. Although the K2P genetic distance among Bayerotrochus delicatus sp. nov. , Bayerotrochus teramachii and Bayerotrochus sp. is much less than those distances between Bayerotrochus delicatus sp. nov. and other pleurotomariids (9.1%–23.6%). However, considering the intraspecific conservation of COI sequence in pleurotomariid species (intraspecific distance <1%), the distance is sufficient to warrant a separation of Bayerotrochus delicatus sp. nov. from Bayerotrochus teramachii and Bayerotrochus sp. Anseeuw et al . (2015) pointed out that the four Perotrochus species from New Caledonia are not convergent with those Perotrochus species from Atlantic, which is confirmed by the present study.