identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
18365A1A8B41F478FF06FE8A3A7D2AE0.text	18365A1A8B41F478FF06FE8A3A7D2AE0.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Parastylodactylus sulcatus	<div><p>Parastylodactylus sulcatus sp. n.</p><p>(Figs 1–4)</p><p>Material examined. Holotype: male (cl 9.3 mm), Southern Arabian Sea, offshore between Kollam and Cochin, south west coast of India, 09°04.5’N, 75°52.4’E, 350 m, 21 February 2010, coll. Rajool Shanis, CBM-ZC 10536. Paratypes: 1 male (cl 7.7 mm), same data as holotype, CBM-ZC 10537; 1 male (cl 7.9 mm), same data as holotype, CMFRI-E.D.1.7.1.1.</p><p>Description. Body (Figs 1, 2 A, B) moderately slender for genus; integument moderately firm, glabrous on surfaces.</p><p>Rostrum (Figs 2 A, 3A) elongate, slender, 2.2 times longer than carapace, slightly to somewhat curving dorsally in distal half; dorsal margin armed with 18–20 rather widely spaced, moderately small spines, including 6–7 on carapace, all but distalmost spine basally articulated, posteriormost spine arising at about 0.4 of carapace length; ventral margin with 6–8 moderately small spines, all basally articulated; lateral face without conspicuous carina. Carapace (Figs 2 A, C, D, 3A) with low, but distinct postrostral ridge extending to midlength; dorsal margin in lateral view slightly sinuous; posterodorsal margin not particularly deeply notched; supraorbital tooth absent; infraorbital lobe prominent, far exceeding beyond antennal tooth, rounded distally, constricted at base, sharply buttressed on lateral face; antennal tooth moderately strong, directed forward; anterolateral margin between antennal and branchiostegal teeth strongly sinuous with deep concavity just inferior to antennal tooth; branchiostegal tooth relatively strong, overreaching antennal tooth; hepatic groove very deep, hepatic region inferior to hepatic groove noticeably inflated.</p><p>Abdomen (Fig. 2 B) dorsally rounded on every somite; posterodorsal margin of third somite somewhat produced posteriorly. First to fourth pleura rounded, fifth pleuron with small posteroventral tooth. Sixth somite 1.6 times longer than high and 1.9 times longer than fifth somite, posteroventral angle bluntly pointed, posterolateral process moderately strong, terminating in acute tooth. Telson (Fig. 3 B, C) tapering posteriorly to acute tip, bearing 5 pairs of dorsolateral spines (distance between spines becoming wide posteriorly) and 3 pairs of terminal spines (second pair elongate, about 5 times as long as first pair and about twice length of third pair).</p><p>Eye (Fig. 2 C) subpyliform; cornea relatively small, distinctly shorter than and slightly wider than eyestalk; ocellus absent; eyestalk bearing prominent setal tuft on dorsodistal extension.</p><p>Antennular peduncle (Fig. 2 A, D) moderately stout, not reaching midlength of antennal scale. First segment longer than distal two segments combined; stylocerite strongly compressed laterally, reaching distal one-fourth of first segment, abruptly tapering to slender spiniform tooth; small, forwardly directed process proximal to base of stylocerite. Second and third segments unarmed. Outer flagellum with thickened aesthetasc-bearing portion reaching distal lamella of antennal scale; inner flagellum falling short of tip of rostrum.</p><p>Antennal peduncle (Fig. 2 A, C, D) moderately stout. Basicerite with moderately strong distolateral tooth. Carpocerite short, slightly falling short of first segment of antennular peduncle. Antennal scale (Fig. 2 E) 1.1 times longer than carapace, very narrow (8.7 times longer than wide), curving laterally in proximal half; lateral margin concave, unarmed; distolateral tooth strong, wider than distal lamella at base, far overreaching distal lamella; distal lamella clearly defined, narrowly rounded.</p><p>Mandible (Fig. 4 A, B) without palp; incisor and molar processes not clearly separated, incisor process bearing 8 acute, unequal teeth on mesial margin; molar process with uneven mesial face; cluster of numerous minute spinules on mesial margin between incisor and molar processes. Maxillule (Fig. 4 C) with subovate coxal endite; basial endite subovate, somewhat narrowing basally, mesial margin with double row of slender spines and stiff setae; endopod with subtruncate terminal margin bearing 1 long spiniform seta at mesial angle and 1 short, curved submarginal seta. Maxilla (Fig. 4 D) with coxal endite consisting of single lobe; basial endite divided in 2 lobes, proximal lobe subrectangular, distal lobe subtriangular; endopod slightly curved mesially, reaching nearly to distal margin of basial endite, bearing 1 seta on mesial margin and 3 apical setae; scaphognathite moderately broad, posterior lobe subtriangular, bearing long, flexed setae terminally. First maxilliped (Fig. 4 E) with thickened coxal endite; basial endite narrowly subovate; endopod falling short of distal margin of basial endite; exopod moderately narrow, flagellum arising at midlength of mesial margin of caridean lobe; epipods large, distinctly bilobed. Second maxilliped (Fig. 4 F) with 2 terminal segments articulated at distal margin of propodus, ventral segment (= dactylus) longer than dorsal segment; propodus elongate, slightly widened distally; carpus very short, cup-shaped; merus and ischium fused, subequal in length to propodus, bearing row of stiff setulose setae on ventral margin; basis short, obliquely articulated to ischium-merus; exopod flagellum-like, slightly overreaching distal margin of merus; coxa with rounded, membranous epipod and large podobranch consisting of lamellae of various size (Fig. 4 G, H).</p><p>Third maxilliped (Fig. 3 D) slender, overreaching distal end of antennal scale by about 0.7 length of ultimate segment; ultimate segment gradually tapering distally, subequal in length to penultimate segment, bearing 2 rows of long setulose setae on ventral (flexor) margin; ultimate segment with 1 minute spine distolaterally and with 2 row of long setulose setae on ventral (flexor) margin; antepenultimate segment subequal in length to ultimate segment; articulation between ischium and basis clearly delimited; coxa (Fig. 3 E) with flattened, subcircular epipod on lateral face, without strap-like process; exopod absent.</p><p>Pereopods moderately long and slender (Fig. 1), only left third pereopod of holotype preserved. Third pereopod (Fig. 3 F–H) slightly falling short of tip of antennal scale; dactylus 0.27 times as long as propodus, terminating in strong, clearly demarcated unguis, armed with 7 accessory spinules noticeably increasing in length, distalmost spinule arising somewhat proximal to base of unguis, only slightly shorter than unguis; propodus about 12.0 times longer than wide, with 2 rows of slender spinules and tufts of short stiff setae on flexor margin; carpus 0.4 times as long as propodus, bearing 3 slender spines on lateral face ventrally; merus and ischium completely fused, bearing 5 spines in distal half, these spines increasing in size distally.</p><p>Gill formula summarized in Table 1.</p><p>First pleopod with exopod distinctly longer than endopod; endopod (Fig. 4 I) strongly modified, tapering distally, mesial part folded ventrally, bearing thick covering of stiff setae and prominent slender spur arising at midlength of dorsomesial margin, lateral margin sinuous with sparse long stiff setae, appendix interna very short, located subterminally, bearing cluster of adhesive hooks. Second pleopod with appendix masculina subequal in length to appendix interna (Fig. 4 J, K), bearing row of stiff setae on almost over entire length of mesial margin and 1 subterminal seta on lateral margin, both appendices arising at proximal 0.2 of endopod and reaching to midlength of endopod. Uropod (Fig. 3 I) with moderately stout protopod terminating posterolaterally in acute tooth; endopod slightly shorter than exopod, gradually tapering distally; exopod with slightly sinuous lateral margin, bearing 1 stout spine just mesial to minute posterolateral tooth.</p><p>1 2 3 4 5 6 7 8</p><p>Maxillipeds Pereopods</p><p>1 2 3 1 2 3 4 5 Pleurobranchs 0 0 0 1 1 1 1 1 Arthrobranchs 0 0 1 1 1 1 1 0 Podobranchs 0 1 0 0 0 0 0 0 Epipods 1 1 1 0 0 0 0 0 Exopods 1 1 0 0 0 0 0 0</p><p>Coloration. Body and appendages generally orange-red; pleopods paler; cornea darkly pigmented.</p><p>Distribution. Known only from the type locality in the southern Arabian Sea, off Kollam, southwestern India, 350 m.</p><p>Remarks. Some comments about the generic assignment of this new species seem warranted. In Stylodactylidae, Parastylodactylus and Neostylodactylus Hayashi &amp; Miyake, 1968 are characterized by the absence of a mandibular palp, and the former genus is primarily distinguished from the latter by the presence of arthrobranchs above the bases of the first to fourth pereopods in both sexes. In Neostylodactylus, there are no arthrobranchs above the bases of the first to fourth pereopods in females (Chace 1983). With regard to the present new species, only three male specimens are available for study, and consequently it cannot be assessed if the gill formula is sexually dimorphic. Nevertheless, the present new species differs from most known species of Neostylodactylus, except N. investigatoris (Kemp, 1925), in the unarmed lateral margin of the antennal scale. As Cleva (1990) mentioned, species of Parastylodactylus are generally much larger in body size than species of Neostylodactylus (cl greater than 4.0 mm in Parastylodactylus versus less than 3.5 mm in Neostylodactylus). The larger specimen (holotype) of the present new species is 9.3 mm in cl. Consequently the present new species is confidently assigned to Parastylodactylus .</p><p>Parastylodactylus sulcatus n. sp. appears closest to P. bimaxillaris, sharing the following diagnostic characters: carapace with eight or fewer postrostral spines; fifth abdominal pleuron at least occasionally with posteroventral tooth; sixth abdominal somite 1.6–2.0 times longer than high; telson with five pairs of dorsolateral spines; dactylus of third pereopod with strong distal accessory spinule, making dactylus clearly biunguiculate; and merusischium of third pereopod lacking proximoventral spine. However, the new species can be readily distinguished from P. bimaxillaris by the longer rostrum exceeding twice the carapace length (versus usually less than 1.8 times as long), the absence of a supraorbital tooth, and the very deep hepatic groove and the markedly inflated hepatic region inferior to the hepatic grove on the carapace (cf. Figs 2 A, 3A). In P. bimaxillaris, the supraorbital tooth is present near the rostral base, although it is minute; the hepatic groove is shallow and the hepatic region is not particularly inflated (Fig. 5 A). Furthermore, in P. sulcatus, the branchiostegal tooth overreaches the antennal tooth, while in P. bimaxillaris, it extends as far as the antennal tooth. The third pereopod is relatively longer and more slender in P. sulcatus than in P. bimaxillaris (the propodus is about 12.0 times longer than wide versus about 7.0– 9.0 times) (cf. Fig. 3 H and Fig 5 B).</p><p>As discussed by Cleva (1990), the size and shape of the ocellus on the eyestalk differs between species of Parastylodactylus . As far as we could determine, there is no trace of an ocellus on the eyestalk in the present new species. Nevertheless, our observation may not be definitive, as the condition of the three type specimens is less than satisfactory. In order to confirm the presence or absence of the ocellus, examination of better-preserved material is required.</p><p>As far as we aware, there are no previous records of species of Parastylodactylus from waters around India, with the present record thus constituting the first of the genus for Indian waters.</p><p>Etymology. From the Latin sulcatus (grooved), in reference to the characteristic very deep hepatic groove seen in this new species.</p></div>	https://treatment.plazi.org/id/18365A1A8B41F478FF06FE8A3A7D2AE0	Public Domain	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.		MagnoliaPress via Plazi	Komai, Tomoyuki;Shanis, Rajool	Komai, Tomoyuki, Shanis, Rajool (2011): A new species of the genus Parastylodactylus Figueira, 1971 (Crustacea: Decapoda: Caridea: Stylodactylidae) from off Kollam, southwest coast of India. Zootaxa 3140: 60-68, DOI: 10.5281/zenodo.204482
18365A1A8B47F478FF06FB653E902DEB.text	18365A1A8B47F478FF06FB653E902DEB.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Parastylodactylus	<div><p>Key to species of Parastylodactylus</p><p>1. Fifth abdominal pleuron armed with posteroventral or posterolateral tooth......................................... 2</p><p>- Fifth abdominal pleuron unarmed......................................................................... 6</p><p>2. Carapace with 5–8 postrostral spines; sixth abdominal somite less than 2.0 times as long as fifth somite; telson armed with 4 or 5 pairs of dorsolateral spines............................................................................. 3</p><p>- Carapace with 11–16 postrostral spines; sixth abdominal somite 2.2–3.0 times as long as fifth somite; telson armed with 3 pairs of dorsolateral spines (merus-ischium of third pereopod with proximoventral spine).............. P. tranterae Cleva, 1990</p><p>3. Fifth abdominal pleuron with posterolateral tooth; merus-ischium of third pereopod with proximoventral spine (carapace with supraorbital tooth)..................................................................................... 4</p><p>- Fifth abdominal pleuron with posteroventral tooth; merus-ischium of third pereopod without proximoventral spine........ 5</p><p>4. Ventral rostral spines moderately long, subequal or only slightly longer than dorsal spines; telson with 5 pairs of dorsolateral spines; meri of third to fifth pereopods without dorsodistal spinule........................... P. hayashii (Komai, 1997)</p><p>- entral rostral spines elongate, distinctly longer than dorsal spines; telson with 4 pairs of dorsolateral spines; meri of third to fifth pereopods each with dorsodistal spinule........................................... P. moluccensis Cleva, 1997</p><p>5. Rostrum less than 2.0 times as long as carapace; minute supraorbital tooth present near rostral base; hepatic groove shallow; branchiostegal tooth extending as far as antennal tooth................................... P. bimaxillaris (Bate, 1888)</p><p>- Rostrum more than 2.0 times as long as carapace; carapace lacking supraorbital tooth; hepatic groove deep; branchiostegal tooth overreaching antennal tooth............................................................. P. s u l c a t u s sp. n.</p><p>6. Carapace with 12 postrostral spines (supraorbital tooth present).............................. P. semblatae Cleva, 1990</p><p>- Carapace with 5–8 postrostral spines..................................................................... 7</p><p>7. Rostrum with 5–9 ventral spines; minute supraorbital tooth present; dactyli of third and fourth pereopods appearing biunguiculate; merus-ischium of third pereopod without proximoventral spine....................... P. bimaxillaris (Bate, 1888)</p><p>- Rostrum with less than 5 ventral spines; supraorbital tooth absent; dactyli of third and fourth pereopods not biunguiculate; merus-ischium of third pereopod with strong proximoventral spine.............................................. 8</p><p>8. Dactyli of third and fourth pereopods elongate, over half length of propodi, unarmed on flexor margin................................................................................................. P. longidactylus Cleva, 1990</p><p>- Dactyli of third and fourth pereopods shorter than half length of propodi, armed with accessory spinules on flexor margins...................................................................................... P. richeri Cleva, 1990</p></div>	https://treatment.plazi.org/id/18365A1A8B47F478FF06FB653E902DEB	Public Domain	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.		MagnoliaPress via Plazi	Komai, Tomoyuki;Shanis, Rajool	Komai, Tomoyuki, Shanis, Rajool (2011): A new species of the genus Parastylodactylus Figueira, 1971 (Crustacea: Decapoda: Caridea: Stylodactylidae) from off Kollam, southwest coast of India. Zootaxa 3140: 60-68, DOI: 10.5281/zenodo.204482
