taxonID	type	description	language	source
287587FD4812FFCA6CE9FB238540FA56.taxon	type_taxon	Type species Chorocaris vandoverae Martin and Hessler, 1990. Composition In addition to the type species, the following five species are here assigned to Chorocaris: Chorocaris chacei (Williams and Rona 1986), C. parva sp. nov., Chorocaris paulexa (Martin and Shank 2005), Chorocaris susannae (Komai et al. 2007) comb. nov. and C. variabilis sp. nov. Emended diagnosis Rostrum reaching or falling short of midlength of first segment of antennular peduncle, dorsoventrally flattened, triangular to rounded in dorsal view; dorsal surface usually non-carinate, always unarmed; ventral surface nearly flat or slightly convex, unarmed. Carapace without postrostral carina; shallow longitudinal depression on either side of midline in spawning females; antennal tooth distinct, varying from acute to blunt; pterygostomial angle produced anteriorly or non-produced; anterior part of branchial region not strongly inflated; pair of dorsal organs evident in postorbital region in living specimens. Pleon with third pleuron unarmed; fourth pleuron unarmed or with one or more denticles posteroventrally; fifth pleuron with posteroventral tooth and occasionally with additional teeth or denticles on posterolateral margin. Telson with dorsolateral spines arranged in sinuous row with second and / or third spines located distinctly mesial to other spines; posterior margin convex, with row of plumose setae flanked by two pairs of lateral spines. Eyes broadly fused, with faint median notch; anterior surface of each eye flat anteriorly, unarmed. Antennular stylocerite clearly separated from first peduncular segment. Antennae usually not forming operculate structure (see Martin and Hessler 1990); antennal scale with sharp to blunt distolateral tooth, clearly separated from lamella or closely approximated to it; transverse suture present, extending mesially from base of distolateral tooth. First maxilliped with rudimentary bud of flagellum on exopod. First pereopod with welldeveloped grooming apparatus on carpus. Second pereopod without spine on ischium. Third to fifth pereopods increasing in length posteriorly; dactyli each with two or more rows of accessory spinules on flexor surfaces; meri of third and fourth pereopods unarmed; ischia of third and fourth pereopods unarmed (except for males of C. variabilis sp. nov.). No strap-like epipods on third maxilliped or first to fourth pereopods. Appendix interna on fourth pleopod without terminal cluster of coupling hooks. Uropodal exopod with two posterolateral spines mesial to posterolateral tooth; protopod sharply to bluntly pointed posterolaterally.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4812FFCA6CE9FB238540FA56.taxon	distribution	Distribution Hydrothermal vents in the western and eastern Pacific and on the Mid-Atlantic Ridge; 1305 – 3650 m.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4812FFCA6CE9FB238540FA56.taxon	discussion	Remarks The genus Chorocaris was established by Martin and Hessler (1990) to accommodate the type species C. vandoverae from hydrothermal vents in the Mariana Back Arc Basin, and Rimicaris chacei Williams and Rona, 1986 from hydrothermal vents along the Mid-Atlantic Ridge. Chorocaris was differentiated from Rimicaris by the more-developed rostrum, the non-inflated branchial regions of the carapace, the cylindrical fused eyestalks and the non-operculate antennae (Martin and Hessler 1990). A new species Chorocaris fortunata Martin and Christiansen, 1995 was subsequently described from the Lucky Strike vent field on the Mid-Atlantic Ridge, but this species was later transferred to Mirocaris by Vereshchaka (1997). Based on analyses of the COI gene (600 bp), Shank et al. (1999) proposed that Chorocaris is a paraphyletic assemblage with C. chacei being more closely related to Rimicaris exoculata than to C. vandoverae. Martin and Shank (2005) described a new species, C. paulexa, from the Rapa Nui Homer Vent Site on the southern East Pacific Rise. Komai et al. (2007) then described a new species, Opaepele susannae Komai et al. 2007, from the southern Mid-Atlantic Ridge, and suggested that their new species appears to be intermediate between Chorocaris and Opaepele. Komai and Segonzac (2008) reviewed Chorocaris and Rimicaris, and took a conservative approach by recognizing three species in Chorocaris, namely, C. chacei, C. paulexa and C. vandoverae; these authors maintained the genus despite the possibility of it being paraphyletic. Recently, a new species, Rimicaris hybisae Nye, Copley and Plouviez, 2012, was described from the Mid-Cayman Spreading Centre, in the Caribbean; this species was provisionally referred to Rimicaris, but exhibits some similarities to C. chacei (see Nye et al. 2012). The discovery of the two new species, herein referred to Chorocaris, led us to reassess the characters that differentiate the genera Chorocaris and Opaepele. Comparison of C. vandoverae and Opaepele loihi, the type species of the respective genera, has confirmed the following morphological differences: (1) the rostrum is devoid of a dorsal carina or dorsal teeth or denticles in C. vandoverae, whereas in O. loihi, the rostrum has a distinct dorsal carina, extending to the postrostral part of the carapace, and occasionally bears minute denticles; (2) the uropodal exopod always bears two movable spines at the posterolateral angle in C. vandoverae, whereas there is usually one, rarely two, movable spines just mesial to the fixed posterolateral tooth in O. loihi. The two previously known species of Chorocaris (C. chacei and C. paulexa), O. susannae and the two new species of Chorocaris described herein are morphologically akin to C. vandoverae in these regards. The lack of a dorsal carina on the rostrum and the possession of two posterolateral spines on the uropodal endopod are presumed to be apomorphic within the Alvinocarididae (cf. Komai and Segonzac 2003, 2004, 2008). Consequently, Opaepele loihi is set apart from a group, which includes Opaepele susannae, Chorocaris species including the two new species described herein, and Rimicaris species. Despite the suggested paraphyly of Chorocaris, we recognize Chorocaris as a valid genus for the time being, including C. vandoverae, C. chacei, C. paulexa, C. parva sp. nov., C. variabilis sp. nov. and C. susannae comb. nov. until thorough phylogenetic analysis is performed. In addition, Opaepele vavilovi has a number of presumably plesiomorphic characters, such as the dorsolateral spines on the telson being arranged in a linear row, the presence of a spiniform tubercle on the rounded anterior surface of each eye, the possession of meral and / or ischial spines on the second to fourth pereopods and the presence of a single row of accessory spinules on the dactyli of the third to fifth pereopods. In these regards, O. vavilovi is similar to species of Alvinocaris, and could be excluded from a group of genera containing Alvinocaridinides, Chorocaris, Opaepele, Rimicaris and Shinkaicaris. Future study has the potential to warrant the establishment of a separate genus for O. vavilovi.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	description	(Figures 1 – 5)	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	materials_examined	Material examined Holotype. Wave Mercury 2007 (Luk Luk) Campaign, dive 28, South Su site, Manus Basin, Bismarck Sea, 03 ° 08.09 ʹ S, 152 ° 10.5 ʹ E, 1310 m, 10 April 2007, ovigerous female (cl 8.0 mm), CBM-ZC 11,939. Paratype Manus Basin. Same data as holotype, 1 male (cl 6.9 mm), CBM-ZC 11940; same data as holotype, 33 males (cl 4.3 – 6.8 mm), CBM-ZC 11941; same data as holotype, 18 females (cl 4.5 – 7.8 mm), 5 ovigerous females (cl 5.7 – 6.7 mm), CBM-ZC 11942; dive 30, South Su, 3 ° 08.09 ʹ S, 152 ° 10.5 ʹ E, 1305 m, 11 April 2007, 2 males (cl 5.2, 5.9 mm), 1 female (cl 7.1 mm), CBM-ZC 11944; dive 34, same site, 1310 m, 14 April 2007, 14 males (cl 4.3 – 6.8 mm), 11 females (cl 4.0 – 7.5 mm), 3 ovigerous females (cl 5.5 – 6.5 mm), OUMNH. ZC. 2014 – 01 - 014. RV Yokosuka, YK 06 - 13 cruise, DS Shinkai 6500, dive # 982, PACMANUS site, 03 ° 43.608 ʹ S, 151 ° 40.328 ʹ E, 1684 m, 20 September 2006, 2 specimens (not measured; DNA extracted, preserved in frozen condition), JAMSTEC 070101 – 070102.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	description	Description Body integument with scattered minute setae. Rostrum (Figures 2 A, B; 5 A, B) reaching (males) or falling short of (females) midlength of first segment of antennular peduncle, tip blunt in dorsal view; ventral surface slightly convex; lateral margin merging into orbital margin. Carapace (Figures 1, 2 A – C; 5 A, B) with dorsal surface slightly sloping down anteriorly to rostrum, almost glabrous or with few minute setae anteriorly; orbital margin evenly concave; antennal tooth acute or subacute; pterygostomial angle not markedly produced, terminating in subacute or acute point. Third pleonal pleuron (Figures 1, 2 D) broadly rounded; fourth pleuron with blunt or subacute posteroventral angle, no additional denticles; fifth pleuron with posterolateral angle produced into sharp or blunt tooth (sometimes different between right and left), posterior margin above angle slightly sinuous or slightly convex, unarmed. Sixth pleomere 1.4 – 1.5 times longer than fifth pleomere and 1.4 – 1.5 times longer than high, with acute posteroventral tooth, posterolateral process terminating in sharp tooth. Telson (Figure 2 E) falling well short of posterior margins of uropods, slightly narrowed posteriorly, about 2.5 times longer than anterior width, armed with six to eight dorsolateral spines; posterior margin convex, with two pairs of spines at lateral angles (mesial pair longer than lateral pair), minute median tooth, and 20 – 24 long plumose setae (Figure 2 F). Eyes (Figure 2 A, B) broadly fused with faint median notch, lacking setae on anterior surface. Antennular peduncle (Figure 2 A, B) stout, falling slightly short of or reaching distal margin of antennal scale. First segment with moderately large distolateral tooth and small distomesial tooth and blunt proximolateral tubercle; stylocerite slender, slightly curved mesially, nearly reaching distal margin of second segment. Second segment with distomesial tooth larger than corresponding tooth on first segment. Antennal peduncle (Figure 2 A, B, G) stout. Basicerite with ventrodistal tooth extending as far as dorsodistal projection and often with blunt tooth arising from ventral surface. Fifth segment (= carpocerite) slightly overreaching midlength of antennal scale. Antennal scale suboval, 0.3 – 0.4 times as long as carapace, about 2.0 times longer than wide; distolateral tooth acute or subacute, closely approximated to lamella (Figure 2 H). Mouthparts typical of family (for detailed description, see Komai and Segonzac 2003, 2005; Komai et al. 2007), as figured (Figure 3 A – F). Endopod of maxillule with one apical plumose seta at inner distal angle and one subterminal seta arising from base of outer lobule (Figure 3 B). Maxilla (Figure 3 C) with moderately broad scaphognathite, devoid of bacteriophore setae on ventral surface; posterior lobe elongate, triangular. Endopod of first maxilliped somewhat compressed, twoarticulated (Figure 3 E). Second maxilliped (Figure 3 F) with moderately stout endopod; epipod roundly triangular, with simple rudimentary podobranch. Third maxilliped (Figure 4 A) not reaching distal margin of antennal scale, moderately slender; ultimate segment tapering distally in subtruncate tip bearing two unequal spines (Figure 4 B), with row of spiniform setae on lateral ridge; epipod unequally bilobed (Figure 4 C). First pereopod (Figure 4 D) moderately slender, not polymorphic, reaching beyond antennal carpocerite by length of fingers, otherwise typical of family; chela (Figure 3 G, H) subequal in length to carpus. Second pereopod (Figure 4 E) extending to near distal end of antennal scale; chela and carpus about equal in length; fingers each terminating in distally curved, crossing tip, cutting edge pectinated with row of minute spinules; dactylus about 1.1 times as long as palm (Figure 3 J). Third pereopod (Figure 4 F) overreaching antennal scale by full length of propodus; dactylus somewhat compressed laterally, 0.15 – 0.20 times as long as propodus, terminating in strong, curved unguis, flexor surface with six to ten spinules arranged in two rows (Figure 3 K, L); propodus with two rows of spinules on flexor surface, mesial row with fewer spinules (Figure 3 M); carpus 0.70 – 0.75 times as long as propodus; ischium usually unarmed, but rarely with one minute spine ventrolaterally. Fourth pereopod (Figure 4 G) similar to third pereopod in structure; ischium always unarmed. Fifth pereopod (Figure 4 H) generally similar to third and fourth; dactylus similar to those of third and fourth pereopods (Figure 3 N, O); propodus with lateral row of spinules consisting of six sets of two or three spinules followed by a single row of spinules, mesial row consisting of more widely spaced spinules (Figure 3 P); propodus and carpus combined distinctly longer than merus and ischium combined; ischium always unarmed. Endopod of male first pleopod (Figure 5 C) bilobed distally, mesial lobe prominent, with three or four long spiniform setae directed mesially, lateral lobe obsolete; mesial margin with row of spiniform setae, proximal few plumose, lateral margin with four spiniform setae in distal 0.3 and with some plumose setae in proximal 0.6. Appendix masculina of second pleopod (Figure 5 D) stout, subequal in length to appendix interna, armed distally with six to eight spiniform setae. Uropod (Figure 2 E) with protopod bearing terminally blunt posterolateral process; exopod with two subequal spines at posterolateral angle. Size Males cl 4.3 – 6.8 mm; females cl 3.2 – 7.8 mm, ovigerous females cl 5.7 – 6.7 mm. Coloration Not known.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	distribution	Distribution Known only from two hydrothermal vent sites in Manus Basin, southwestern Pacific: South Su site, 1305 – 1310 m; PACMANUS site, 1684 m depth.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	discussion	Remarks Chorocaris parva sp. nov. is morphologically most similar to C. susannae comb. nov. known from the southern Mid-Atlantic Ridge in having the pterygostomial angle of the carapace only slightly produced, having less numerous accessory spinules on the flexor faces of the third to fifth pereopods (six to eight arranged in two rows versus 10 – 16 arranged in three or four rows) and in its relatively small body size (maximum cl <8.0 mm). In the other four species of Chorocaris, the pterygostomial angle of the carapace is produced into a prominent tooth (C. paulexa, C. vandoverae and C. variabilis sp. nov.) or a broadly rounded lobe (C. chacei); and the body size is larger (attaining more than 8.0 mm cl). This new species is morphologically distinguished from C. susannae by the following characters: (1) the fourth pleonal pleuron is unarmed in C. parva, rather than armed with a posteroventral tooth and additional marginal denticles as in C. susannae; (2) the fifth pleonal pleuron bears only a posteroventral tooth in C. parva, whereas it is armed with up to three denticles on the posterolateral margin in addition to having a posteroventral tooth in C. susannae, is frequently only bluntly pointed in C. parva, rather than terminating in an acute tooth in C. susannae.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4814FFC56F73F9B08023FAB3.taxon	etymology	Etymology The Latin parvus (= small), in reference to the small body size of this new species.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD481BFFDB6C9BFAD586A5FD4F.taxon	description	(Figures 6 – 10)	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD481BFFDB6C9BFAD586A5FD4F.taxon	materials_examined	Material examined Holotype. Wave Mercury 2007 (Luk Luk) Campaign, dive 28, South Su, Manus Basin, Bismarck Sea, 03 ° 08.09 ʹ S, 152 ° 10.5 ʹ E, 1310 m, 10 April 2007, female (cl 13.6 mm), CBM-ZC 11,945. Paratypes Manus Basin. Wave Mercury 2007 (Luk Luk) Campaign, same data as holotype, 10 males (cl 5.2 – 9.1 mm), CBM-ZC 11946; same data as holotype, 14 females (cl 6.5 – 12.9 mm), 6 ovigerous females (cl 10.7 – 13.5 mm), CBM-ZC 11947; dive 30, South Su, 3 ° 08.09 ʹ S, 152 ° 10.5 ʹ E, 1305 m, 11 April 2007, 9 males (cl 10.6 – 11.9 mm), CBM-ZC 11948; same data, 6 females (cl 13.3 – 15.0 mm), 1 ovigerous female (cl 12.8 mm), CBM-ZC 11949; dive 34, same site, 1310 m, 14 April 2007, 13 males (cl 6.6 – 9.0 mm), 9 females (cl 5.0 – 12.0 mm), 1 ovigerous female (cl 9.6 mm), CBM-ZC 11950; dive 53, Solwara 1, 03 ° 07.91 ʹ N, 152 ° 09.1 ʹ E, 1570 m, 25 April 2007, 27 males (cl 5.1 – 7.5 mm), CBM-ZC 11951; same data, 26 females (cl 4.4 – 10.4 mm), 14 ovigerous females (cl 6.7 – 9.4 mm), CBM-ZC 11952; same data, 22 males (cl 4.8 – 7.2 mm), 14 females (cl 5.2 – 12.0 mm), 3 ovigerous females (cl 9.6 – 14.0 mm), OUMNH. ZC. 2014 – 01 - 015. RV Yokosuka, YK 06 - 13 cruise, DS Shinkai 6500, dive # 978, PACMANUS site, 03 ° 43.60 ʹ S, 151 ° 40.32 ʹ E, 1683 m, 16 September 2006, 1 male (cl 8.2 mm), 1 female (cl 7.6 mm), 1 ovigerous female (cl 10.8 mm), JAMSTEC 066720 – 066722; DS Shinkai 6500, dive # 981, Vienna Woods, 03 ° 09.813 ʹ S, 151 ° 16.737 ʹ E, 2480 m, 14 September 2006, 1 ovigerous female (cl 10.3 mm), JAMSTEC 068873; DS Shinkai 6500 dive # 982, PACMANUS site, 03 ° 43.608 ʹ S, 151 ° 40.328 ʹ E, 1684 m, 20 September 2006, 3 specimens (not measured; DNA extracted, preserved in frozen condition), JAMSTEC 070103 – 070105. North Fiji Basin. RV Yokosuka, YK 06 - 13 cruise, DS Shinkai 6500, dive # 985, Mussel Hill site, 16 ° 54.444 ʹ S, 173 ° 54.895 ʹ E, 1988 m, 2 October 2006, 8 males (cl 4.9 – 7.1 mm), 2 females (cl 5.4, 7.0 mm), JAMSTEC 070543 – 070552; same data, 1 specimen (not measured; DNA extracted, preserved in 99 % ethanol), JAMSTEC 070543. Vanuatu. RV Sonne, SO 229 - 060 - N 201, Nifonea vent field, 18 ° 07.735 ʹ S, 169 ° 31.112 ʹ E, 1873 m, 14 July 2013, 9 males (cl 6.6 – 9.3 mm), 3 females (cl 6.7 – 7.7 mm), 1 ovigerous female (cl 7.6 mm), CBM- ZC 12, 481. Non-type. Vanuatu: same data as CBM-ZC 12481, 2 juveniles (cl 3.8, 3.9 mm), CBM- ZC 12, 482.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD481BFFDB6C9BFAD586A5FD4F.taxon	description	Description Females. Body integument smooth, shiny, fairly thin, with scattered short setae, more numerous on dorsal side. Rostrum (Figure 7 A – C) falling slightly short of midlength of first segment of antennular peduncle, triangular in dorsal view; tip varying from blunt (ovigerous females) to acute or subacute (non-ovigerous females); dorsal surface smooth. Carapace (Figures 6, 7 A – C, 10 G – J) compressed laterally; dorsal surface sloping down anteriorly to rostrum; antennal tooth triangular, acute (non-spawning females) or acute to blunt (spawning females); pterygostomial angle strongly produced anteriorly in acute or subacute tooth extending as far as dorsolateral process of antennal basicerite. Third pleonal pleuron (Figure 6) broadly rounded, always unarmed; fourth pleuron rounded or bluntly angular posteroventrally, without sharp tooth (Figures 7 D, 10 K); fifth pleuron usually with small posteroventral tooth and with zero to four tiny denticles on sinuous to convex posterolateral margin (Figures 7 D, 10 K). Sixth pleomere (Figure 7 D) about 1.2 times longer than fifth pleomere and about 1.1 times longer than high, having acute or subacute posteroventral tooth, posterolateral process terminating in sharp tooth. Telson (Figure 7 E) about 2.2 times longer than anterior width, falling short of posterior margins of uropods, very slightly narrowed posteriorly, normally armed with six to eight dorsolateral spines arranged in sinuous row; posterior margin convex, occasionally with minute median denticle or tooth and with two pairs of spines at lateral angles and 20 – 24 long plumose setae (Figure 7 F). Eyes (Figure 7 A, B) lacking setae on anterior surface. Antennular peduncle (Figure 7 A, B) stout, reaching distal margin of antennal scale; first segment with moderately large distolateral and small distomesial teeth and prominent, blunt proximolateral tubercle; stylocerite slender, nearly straight, falling slightly short of distal margin of second segment; second segment 1.0 – 1.1 times as long as wide, with distomesial tooth subequal in size to corresponding tooth on first segment; flagella moderately slender. Antennal peduncle (Figure 7 A, B, G) stout; basicerite with ventrodistal tooth overreaching dorsodistal projection; fifth segment (= carpocerite) slightly overreaching midlength of antennal scale; antennal scale suboval, about 0.4 times as long as carapace, 1.6 times longer than wide, lateral margin almost straight, but convex near distolateral tooth, distolateral tooth acute or subacute, clearly separated or approximated to lamella. Mouthparts generally similar to those of C. parva sp. nov., as figured (Figures 8 A – E, 9 A). Second maxilliped (Figure 8 E) relatively stout. Epipod of third maxilliped nearly trapezoidal, slightly unequally bilobed (Figure 9 B). First pereopod (Figure 9 C – E) reaching or slightly overreaching midlength of antennal scale, moderately slender to robust, polymorphic as in C. vandoverae and C. paulexa. Second to fifth pereopods relatively stout. Second pereopod (Figure 9 G) reaching as far as first pereopod; chela 0.6 – 0.8 times as long as carpus; dactylus 1.1 – 1.2 times longer than palm (Figure 9 H). Third pereopod (Figure 9 I) overreaching antennal scale by half to full length of propodus; dactylus somewhat compressed laterally, 0.15 – 0.20 times as long as propodus, terminating in strong, curved unguis, flexor surface with 10 – 16 accessory spinules arranged in three or four irregular rows (Figure 9 J); propodus with spinules arranged in two separate rows or double row on flexor surface (Figure 9 J); carpus 075 – 0.90 times as long as propodus; merus unarmed; ischium usually unarmed, but rarely with one tiny spine. Fourth pereopod (Figure 9 K) similar to third pereopod in structure; ischium always unarmed. Fifth pereopod (Figure 9 L) generally similar to third and fourth; propodus with both lateral and mesial rows of spinules, each arranged into double row (spinules more numerous in lateral row than mesial row) (Figure 9 M); propodus and carpus combined distinctly longer than merus and ischium combined; carpus 0.6 – 0.7 times as long as propodus; ischium always unarmed. Appendices internae on second to fourth pereopods simple, on fifth pereopod normally developed, bearing terminal cluster of coupling hooks. Uropod (Figure 7 E) with protopod (Figure 7 H) bearing subacute to acute posterolateral process; rami both overreaching posterior margin of telson; exopod slightly longer than endopod, with subequal posterolateral spines. Males. Body less robust than in females. Rostrum (Figure 10 A, B) acutely pointed, occasionally faintly carinate on dorsal midline. Carapace with sharp antennal tooth (Figure 10 B); pterygostomial process narrower than in females, sharply pointed (Figure 10 B). Pleon with fourth pleuron armed with small acute posteroventral tooth; fifth pleuron also with sharp posteroventral tooth and additional one to three small teeth or denticles on posterolateral margin. Antennal scale 1.8 – 1.9 times longer than wide; distolateral tooth more slender than in females, always clearly separated from lamella, acute (Figure 10 A). Pereopods more slender than in females; ischium of third pereopod unarmed or armed with one spine, of fourth pereopod usually unarmed, but rarely armed with one spine (Figure 10 C, D), and of fifth pereopod always unarmed. Endopod of first pleopod (Figure 10 E) bilobed distally, mesial lobe prominent, with three or four long spiniform setae mesially, lateral lobe rather obsolete, also with row of spiniform setae extending onto lateral margin, proximal four or five of these setae bearing setules; mesial margin with row of spiniform setae. Appendix masculina of second pleopod (Figure 10 F) stout, slightly longer than appendix interna, armed with about 10 spiniform setae distally. Posterolateral process of uropodal protopod acuminate. Juveniles. Generally similar to adults, but body more compressed laterally. Rostrum rounded distally. Eyes each with minute tubercle on anterior surface dorsomesially. Size Males cl 4.8 – 11.9 mm; females cl 4.4 – 15.0 mm, ovigerous females cl 6.7 – 13.5 mm. Coloration in life Not known.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD481BFFDB6C9BFAD586A5FD4F.taxon	distribution	Distribution Hydrothermal vents in southwestern Pacific. Manus Basin: South Su, 1305 – 1310 m; Solwara 1, 1570 m; PACMANUS, 1683 – 1684 m; Vienna Woods, 2480 m. North Fiji Basin: Mussel Hill, 1988 m. Vanuatu: Nifonea vent field, 1873 m.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD481BFFDB6C9BFAD586A5FD4F.taxon	discussion	Remarks The material of this new species came from three hydrothermal vent sites in the southwestern Pacific, i. e. Manus Basin, North Fiji Basin and Vanuatu. The specimens from the three locations are morphologically very similar. Of the four specimens used in the molecular phylogenetic analysis (see below), three specimens came from the Manus Basin, and one specimen was from the North Fiji Basin. The maximum genetic divergence among the four specimens is 1.8 % (Table 1). Consequently it is reasonable to consider that these specimens represent a single species. Chorocaris variabilis sp. nov. exhibits a substantial degree of variation in the shape of the rostrum and of the carapace teeth (see above). Males and non-spawning females differ from spawning females in having an acuminate rostrum with an occasionally faintly carinate dorsal surface (males), a sharply pointed antennal tooth and branchiostegal tooth on the carapace, and a clearly separated distolateral tooth on the antennal scale. Spawning females are characterized by the bluntly pointed rostrum, and antennal and branchiostegal teeth on the carapace. Chorocaris variabilis sp. nov. is morphologically very similar to C. paulexa and C. vandoverae particularly in the prominent pterygostomial tooth on the carapace and the possession of 10 – 16 accessory spinules arranged in three or four rows on the flexor faces of the dactyli of the third to fifth pereopods. Nevertheless, C. variabilis differs from these two species in the possession of a conspicuous posteroventral tooth and additional denticles on the fifth pleonal pleuron and in the absence of setae on the anterior face of each eye. In C. paulexa and C. vandoverae, the posteroventral angle of the fifth pleonal pleuron is rounded or at most angular and the eye has several stiff setae on the anterior face. Furthermore, although somewhat variable in C. variabilis, the ventral surface of the rostrum is usually less convex than in C. paulexa and C. vandoverae. Chorocaris vandoverae does not exhibit strong variation between males and nonspawning females on the one hand, and spawning females (Komai and Segonzac 2008). Hence, males and non-spawning females of this new species are readily distinguished from those of C. vandoverae by the acuminate rostrum and sharply pointed antennal and pterygostomial teeth on the carapace. In C. vandoverae, the rostrum is rounded distally, the pterygostomial tooth is more bluntly pointed, and the posterolateral angle of the fifth pleonal pleuron is at most subacute and devoid of additional denticles on the posterolateral margin. Furthermore, the armature of the appendix masculina of the second pleopod may be different between C. variabilis and C. vandoverae. In the new species, spiniform setae are restricted to the distal half of the appendix masculina, while similar spiniform setae form a row extending proximally beyond the midlength of the appendix masculina in C. vandoverae. With regard to spawning females, C. variabilis is distinguished from C. vandoverae in possessing a sharp posteroventral tooth on the fifth pleonal pleuron and a more sharply pointed protopod of the uropod. No information on the male is available for C. paulexa (cf. Martin and Shank 2005). Therefore variability between males and females in this species remains unknown. Nevertheless, the rostrum is proportionally narrower in C. variabilis than in C. paulexa (see Martin and Shank 2005; Komai and Segonzac 2008). In addition, the third to fifth pereopods seem to be more slender in this new species than in C. paulexa, but the significance of this character may be questionable because of intraspecific variation (as seen in other confamilial or congeneric species; see Komai and Segonzac 2003, 2004, 2008). Records of C. vandoverae from hydrothermal vents on the North Fiji Basin (Desbruyères et al. 1994) and the Lau Basin (Desbruyères et al. 1994; Zelnio and Hourdez 2009) are referred to C. variabilis on the basis of the close morphological similarity between C. vandoverae and this new species, and their geographical distribution. Chorocaris sp. 2 reported from the Manus Basin by Zelnio et al. (2010) corresponds to C. variabilis. Consequently the occurrence of C. vandoverae outside the Mariana Back Arc Basin is unconfirmed. Etymology. From the Latin variabilis (= variable) in reference to the substantial morphological variation seen in this new species.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4805FFD86CA7FC99860EFC65.taxon	type_taxon	Type species Manuscaris acuminatus sp. nov. Composition Monotypic	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4805FFD86CA7FC99860EFC65.taxon	diagnosis	Diagnosis Rostrum narrowly triangular in dorsal view, slightly overreaching distal margin of first segment of antennular peduncle; dorsal margin sharply carinate, armed with row of conspicuous teeth, posteriormost tooth located just posterior to rostral base; ventral margin nearly flat, with minute denticle subterminally. Carapace with low, blunt postrostral carina not extending to midlength; antennal tooth acuminate, with small lobe ventromesial to its base; pterygostomial tooth strong, acuminate; anterior part of branchial region not inflated. Third to fifth pleonal pleura at least with posteroventral tooth. Telson with dorsolateral spines in linear row; posterior margin convex, with row of plumose setae flanked by two pairs of lateral spines. Eyes fused, though shallow median notch evident; anterior surface of each eye flat, unarmed. Antennular stylocerite well separated from first peduncular segment. Antenna not forming operculate structure (see Martin and Hessler 1990); antennal scale with sharp distolateral tooth clearly separated from lamella; no transverse suture extending mesially from base of distolateral tooth. First maxilliped with rudimentary bud of exopodal flagellum. First pereopod with well-developed grooming apparatus on carpus consisting of patch of setae and one small spine. Second pereopod with spine on ischium. Third pereopod shorter than fifth pereopod; dactyli with accessory spinules on flexor margins arranged in two rows; meri of third and fifth pereopods unarmed; ischia of third pereopods with two spines. No strap-like epipods on third maxilliped to fourth pereopods. Appendix interna of fourth pleopod without terminal cluster of coupling hooks. Uropodal exopod with one spine just mesial to sharp posterolateral tooth; protopod terminating posterolaterally in sharp tooth.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4805FFD86CA7FC99860EFC65.taxon	discussion	Remarks Manuscaris gen. nov. appears to be close to a group of genera that includes Alvinocaridinides, Shinkaicaris, Opaepele, Chorocaris and Rimicaris based on sharing the following apparently apomorphic characters: rostrum more or less reduced in length with reduced ventral limb; eyes broadly fused with shallow median notch, each anterior surface rather flat and unarmed; dactyli of third to fifth pereopods each with accessory spinules arranged in two or more rows; and meri of third to fifth pereopods devoid of spines. Nevertheless, the new genus is excluded from this group by the dorsolateral spines on the telson arranged in a linear row and the presence of spines on the ischia on the third and fourth pereopods, which are presumably plesiomorphic characters (cf. Komai and Segonzac, 2005).	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4805FFD86CA7FC99860EFC65.taxon	etymology	Etymology A combination of the name of the type locality (Manus Basin) and the Greek caris (= shrimp). Gender: masculine.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4806FFD26F50FB838012FE07.taxon	description	(Figures 11 – 14)	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4806FFD26F50FB838012FE07.taxon	materials_examined	Type material Holotype. Wave Mercury 2007 Campaign, dive 35, South Su, Manus Basin, 3 ° 08.09 ʹ N, 152 ° 10.5 ʹ E, 1310 m, 15 April 2007, male (cl 8.4 mm), CBM-ZC 11,955.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4806FFD26F50FB838012FE07.taxon	description	Description of holotype Body integument fairly thin, almost glabrous on surface. Rostrum (Figure 12 A, B) narrowly triangular in dorsal view, slightly overreaching distal margin of first segment of antennular peduncle, about 0.4 times as long as carapace; dorsal margin carinate, with 11 unequal teeth, posteriormost and distal two teeth distinctly smaller than other teeth, posteriormost tooth located slightly posterior to orbital margin; sparse short setae on proximal five teeth; ventral surface nearly flat (non-carinate), with minute denticle subterminally; ventrolateral carina sharply defined, merging into orbital margin. Carapace (Figures 11, 12 C) with low, blunt postrostral carina not extending to midlength, so dorsal margin in lateral view nearly straight; antennal tooth slender, acuminate, with small blunt lobe ventromesial to its base; pterygostomial tooth strong, reaching slightly beyond tip of antennal tooth; anterior part of branchial region not inflated. Pleon as figured (Figure 11). Third pleuron with one small posteroventral tooth; fourth pleuron with one rather strong posteroventral tooth and one much smaller additional tooth anterior to it on ventral margin; fifth pleuron with strong posteroventral tooth and one additional conspicuous tooth on posterolateral margin. Sixth pleomere 1.6 times as long as fifth pleomere and 1.2 times longer than high, with strong, acute posteroventral tooth; posterolateral process terminating in sharp tooth. Telson (Figure 12 E) 3.1 times longer than anterior width, armed with seven dorsolateral spines arranged in linear row on either side and two pairs of posterolateral spines; posterior margin with 14 long plumose setae (Figure 12 F). Eyes (Figure 12 B) broadly fused, but with shallow median groove, closely approximated to ventral face of rostrum; each anterior surface nearly flat, unarmed. Antennular peduncle (Figure 12 A, B) reaching distal margin of antennal scale. First segment with forwardly directed, spiniform proximolateral tubercle; distolateral tooth long, slender, reaching beyond midlength of second segment, distomesial margin with small tooth; stylocerite slender, slightly diverging, reaching nearly to distal margin of second segment. Second segment 1.6 times as long as wide, with small distomesial tooth. Antenna (Figure 12 A, B) with basicerite bearing a slender ventrolateral tooth and a sharp ventral tooth. Carpocerite moderately stout, slightly overreaching midlength of antennal scale. Antennal scale about 0.5 times as long as carapace and 2.2 times longer than wide; lateral margin nearly straight; distolateral tooth slender, clearly separated from distal lamella by rather narrow, deep notch, tooth reaching distal margin of lamella; no suture mesial to base of distolateral tooth; dorsal carina distinct, slightly diverging from lateral margin; distal lamella rounded. Mandible (Figure 13 A) with terminally blunt molar process; incisor process with six triangular teeth mesially. Maxillule (Figure 13 B) endopod slightly bilobed, distomesial lobe with one apical plumose seta, distolateral lobe with two minute submarginal setae. Maxilla (Figure 13 C) with scaphognathite moderately broad, with some short facial setae restricted to mesial part. First maxilliped (Figure 13 D) with rudimentary bud of flagellum on mesial margin of broad exopod; endopod (Figure 13 D, inset) short, bi-articulated. Second maxilliped (Figure 13 E) with relatively stout endopod; epipod subsemicircular, bearing slender, rod-like, non-lamellate podobranch. Third maxilliped (Figure 14 A) typical of alvinocaridid, slightly overreaching distal margin of antennal scale. Distal two segments combined gently arcuate, ultimate segment tapering distally, trigonal in cross-section, about 1.2 times as long as penultimate segment (= carpus). Antepenultimate segment with slender ventrolateral distal spine and prominent tuft of setae on dorsomesial proximal part. Epipod widened distally, slightly bilobed, lacking strap-like process (Figure 14 B). First pereopod (Figure 14 C) slightly falling short of distal margin of antennal scale; dactylus 5.5 times longer than palm; chela (Figure 14 D) slender, 2.8 times longer than wide; carpus (Figure 14 E) relatively slender, with blunt ventrodistal tooth; mesial surface ventrally with grooming apparatus consisting of patch of short stiff setae and one small spine proximal to patch of setae (Figure 14 E). Second pereopod (Figure 14 F) not reaching distal margin of antennal scale; chela 0.8 times as long as carpus; dactylus subequal in length to palm (Figure 14 G); ischium with one spine laterally. Third pereopod (Figure 14 H) overreaching antennal scale by full length of dactylus and propodus combined; dactylus (Figure 14 I, J) 0.2 times as long as propodus, terminating in strong, clearly demarcated unguis, bearing four pairs of accessory spinules on flexor surface; propodus (Figure 14 K) with two rows of slender spinules on flexor surface in distal half; carpus 0.9 times as long as propodus; merus 6.6 times longer than wide; ischium with two spines ventrolaterally. Fourth pereopod missing. Fifth pereopod (Figure 14 L) longer than third pereopod, overreaching antennal scale by about 0.8 length of propodus; dactylus (Figure 14 M, N) with 12 accessory spinules arranged in two or three rows on flexor surface (Figure 14 N); propodus with three or four irregular rows of slender spines or spiniform setae on flexor surface (Figure 14 N); carpus 1.6 times as long as propodus; merus about 7.3 times longer than wide; ischium unarmed. Endopod of male first pleopod (Figure 12 H) with inner lobe produced, far exceeding outer lobe, bearing cluster of five spiniform setae distally; outer lobe broadly rounded, with five spiniform setae; lateral margin slightly convex, with five stout plumose setae; mesial margin faintly sinuous, with 10 stout plumose setae. Appendices internae of second to fifth pleopods normally developed, with terminal cluster of coupling hooks, while that on fifth pleopod lacking coupling hooks. Appendix masculina on second pleopod (Figure 12 I) tapering distally, slightly longer than appendix interna, armed with about seven spiniform setae distally. Uropodal rami (Figure 12 E) both overreaching posterior margin of telson; exopod with one slender spine just mesial to sharp posterolateral tooth (Figure 12 K). Coloration in life Not known.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4806FFD26F50FB838012FE07.taxon	distribution	Distribution Known only from the type locality, South Su hydrothermal vent field, Manus Basin, 1310 m depth.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD4806FFD26F50FB838012FE07.taxon	etymology	Etymology From the Latin, acuminatus (= sharp), in reference to the sharp stylocerite and proximolateral tubercle on the first segment of the antennular peduncle.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD480CFFEE6CE1FD818530FB71.taxon	materials_examined	Material examined Non-type. Lau Basin. BIOLAU, BL 08, site Vailili, 23 ° 13 ʹ S, 176 ° 38 ʹ W, 1740 m, 18 May 1989, slurp gun, 1 male (cl 12.2 mm), MNHN; BL 10, same site, 22 May 1989, 1 female (cl 15.2 mm), CBM-ZC 11,956. North Fiji Basin. STARMER II, RV Kaiyo, dive 19, site White Lady, 18 ° 50 ʹ S, 173 ° 29 ʹ E, 2750 m, July 1989, 1 female (cl 14.6 mm), MNHN. Vanuatu. RV Sonne, SO 229 - 061 - N 202, Nifonea vent field, 18 ° 07.735 ʹ S, 169 ° 31.018 ʹ E, 1871 m, 19 July 2013, 1 female (cl 19.5 mm), CBM-ZC 12,483. Supplemental description Rostrum (Figure 15 A – C) slender, terminating acutely, reaching or overreaching distal margin of first segment of antennular peduncle; dorsal margin sharply carinate, armed with row of teeth becoming larger posteriorly and extending beyond midlength of carapace (five postrostral teeth present); ventral ridge well developed, armed with one or more teeth; lateral carina conspicuous. Carapace (Figure 15 A, B) with distinct postrostral carina extending beyond midlength; dorsal margin of carapace in lateral view gently arcuate, with peak at posteriormost tooth of dorsal rostral series; no longitudinal depression on either side of midline even in spawning females; antennal tooth acuminate; pterygostomial tooth strong, acuminate; anterior part of branchial region not strongly inflated; dorsal organ absent. Third pleomere (Figure 15 D) armed with one or more denticles posteroventrally on pleuron; fourth pleuron armed with sharp posteroventral tooth and additional denticles or teeth on posterolateral and / or ventral margins; fifth pleuron with posteroventral tooth and additional teeth on posterolateral margin. Telson (Figure 15 E) with dorsolateral spines in linear row; posterior margin distinctly bilobed, with row of spines (Figure 15 F). Eyes fused, though distinct median notch present; anterior surface rounded, unarmed (Figure 15 C). Antennular stylocerite slender, narrowly separated from first peduncular segment (Figure 15 C). Antenna not forming operculate structure; antennal scale with sharp distolateral tooth clearly separated from lamella; no transverse suture extending mesially from base of distolateral tooth (Figure 15 C). First maxilliped without rudimentary bud of exopod. Third maxilliped with two or more slender spines at ventrodistal margin of antepenultimate segment (Figure 15 G). First pereopod with short grooming setae on flexor surface of palm; carpus with well-developed grooming apparatus consisting of patch of short setae and one or two spinules proximal to setal patch. Second pereopod (Figure 15 H) with one spine on ischium. Third to fifth pereopods increasing in length posteriorly; dactyli each with seven or eight accessory spinules arranged in two longitudinal rows on flexor surface (Figure 15 I); meri of third and fourth pereopods each with one to three spines on lateral faces, that of fifth pereopod unarmed; ischia of third and fourth pereopods each with one or two spines, that of fifth pereopod unarmed. No strap-like epipods on third maxilliped or first to fourth pereopods. Endopod of male first pleopod not bilobed distally, with three stiff setae distomesially; lateral margin with six or seven stiff setae in distal 0.3. Appendix interna of fourth pleopods without terminal cluster of coupling hooks. Uropodal exopod with one spine just mesial to base of posterolateral tooth; protopod sharply pointed posterolaterally.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD480CFFEE6CE1FD818530FB71.taxon	distribution	Distribution Lau Basin (Zelnio and Hourdez 2009; this study), 1740 – 2700 m depths; North Fiji Basin, 2750 m depth (new record); and Vanuatu, Nifonea vent field, 1871 m depth (new record).	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
287587FD480CFFEE6CE1FD818530FB71.taxon	discussion	Remarks The present specimens are consistent with the original description of Alvinocaris komaii in every diagnostic aspect. Molecular phylogenetic analysis based on 600 bp of the mitochondrial COI nucleotide by Zelnio and Hourdez (2009) suggested that A. komaii was clustered with the Opaepele / Chorocaris / Rimicaris clade, although the bootstrap support was very low (39.7 %). As described previously by Zelnio and Hourdez (2009), A. komaii differs from other species of Alvinocaris in the accessory spinules on the dactyli of the third to fifth pereopods arranged in two or more rows and the unarmed anterior face of each eye. These characters, and the molecular analysis presented herein support the closer relationship of the species to a group including Alvinocaridinides, Chorocaris, Opaepele, Shinkaicaris and Rimicaris. Furthermore, A. komaii has two unique characters within the family, namely, the distinctly bilobed posterior margin of the telson and the multiple spines on the ventrodistal margin of the antepenultimate segment of the third maxilliped. Future study may potentially warrant the establishment of a separate genus for A. komaii. Genetic divergence of the two new species of Chorocaris The ML tree inferred from partial COI sequences (460 bp) for 18 identified species (including the two new species referred to Chorocaris) and two unidentified species of the Alvinocarididae is shown in Figure 16. At present, COI sequences are not available for the following 13 formally described species: Alvinocaridinides formosa Komai and Chan, 2010, Alvinocaris alexander Ahyong, 2009, Alvinocaris brevitelsonis Kikuchi and Hashimoto, 2000, Alvinocaris methanophila Komai, Shank and Van Dover, 2005, Alvinocaris niwa Webber, 2004, Alvinocaris williamsi Shank and Martin, 2003, Chorocaris paulexa, Chorocaris susannae, Manuscaris acuminatus gen. et sp. nov., Mirocaris indica Komai et al. (2006), Nautilocaris saintlaurentae Komai and Segonzac, 2004, Rimicaris kairei Watabe and Hashimoto, 2002, and Shinkaicaris luerokolos (Kikuchi and Hashimoto, 2000). The two new species of Chorocaris are clustered in a clade consisting of C. chacei, C. vandoverae, Opepele loihi, Rimicaris exoculata and Rimicaris hybisae with relatively high bootstrap support (88 %, 93 % and 100 % in ML, MP and NJ, respectively) (Figure 16). The relationship among these species could not be fully resolved, because some inner branches have weak bootstrap support (less than 70 %; e. g. the position of C. parva sp. nov., C. vandoverae and C. variabilis sp. nov.). The monophyly of Chorocaris is not supported, with the two Rimicaris species and O. loihi subordinated within Chorocaris. Interspecific divergence among these seven species is summarized in Table 1. The minimum divergence is seen between C. variabilis sp. nov. and C. parva sp. nov. (5.5 – 6.7 %), whereas the maximum divergence is seen between C. variabilis sp. nov. and O. loihi (11.0 – 11.5 %). Previous studies on decapod crustaceans [e. g. Jones and Macpherson 2007 (Anomura: Munidopsidae: Munidopsis); Cabezas et al. 2009 (Anomura: Munididae: Munida and allied genera); Tsoi et al. 2011 (Achelata: Palinuridae: Linuparus); Chang et al. 2014 (Astacidea: Nephropidae: Thaumastocheles)] have shown that COI divergence of more than 10 % is indicative of species level differentiation, although lower divergence (> 4.0 %) could also be of specific significance [(e. g. Davie et al. 2010 (Brachyura: Micytlidae: Mictylis); Yang et al. 2010 (Caridea: Pandalidae: Heterocarpus)]. Together with the morphological evidence, we consider that full species status is warranted for the two new taxa described in this study. Four specimens of C. variabilis sp. nov. (three from the Manus Basin and one from the North Fiji Basin) are clustered with well-supported bootstrap value (93 %, 96 % and 100 % in ML, MP and NJ, respectively). The intraspecific divergence in the four specimens is 0.3 – 1.8 %, and there is little doubt that they belong to the same species.	en	Komai, Tomoyuki, Tsuchida, Shinji (2015): New records of Alvinocarididae (Crustacea: Decapoda: Caridea) from the southwestern Pacific hydrothermal vents, with descriptions of one new genus and three new species. Journal of Natural History 49 (29): 1789-1824, DOI: 10.1080/00222933.2015.1006702
