identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
6A4B87B6FF84AF50FEA6F9880D54E601.text	6A4B87B6FF84AF50FEA6F9880D54E601.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Tsuranarthrura Kakui & Tomioka 2018	<div><p>Genus Tsuranarthrura gen. nov.</p><p>Type species. Tsuranarthrura shinsei sp. nov., by original designation.</p><p>Diagnosis. Body wall not heavily calcified. Pereonite 6 and pleon fused. Antenna with five articles; articles 1 and 2 naked. Labrum conical, not laterally compressed. Maxillipedal endite not tapering distally, with ventrosubdistal seta. Maxilliped-palp article 2 with three inner setae; article 3 with three long and one short inner setae. Chelipedal merus with ventral seta. Cheliped propodus with ventral seta but without outer crenulation, folds or ridges. Pereopods 2 and 3 merus naked. Pereopods 4 and 5 basis cylindrical (not swollen).</p><p>Etymology. The genus name (feminine) combines the Japanese word tsuranaru (‘continue without cutting’) with anarthrura (a genus name in the Anarthruridae), referring to the fused segment consisting of pereonite 6 and the pleon.</p><p>Remarks. In Anarthruridae, several authors have described antennal article 1 as being fused to the cephalothorax (e.g., Błażewicz-Paszkowycz et al. 2013; Larsen 2013). In their species, the antenna seems to be five-articulate. This is also the case with our specimens: we observed only five antennal articles in individuals of Tsuranarthrura gen. nov., even by SEM. Although the most proximal article we observed seems to correspond to article 2 in other paratanaoids (e.g., Larsen 2003a, fig. 2D as Tanaellidae; Bird 2011, fig. 18F as Paratanaidae; Bird 2012, fig. 4D as Heterotanoididae; Kakui and Angsupanich 2012, fig. 5B as Nototanaidae; Kakui and Shimada 2017, fig. 7E as Tanaopsidae), we designate it herein as ‘article 1’. This is because we followed Larsen’s (2003a) terminology and there is the possibility that the most proximal article could be equivalent to fused articles 1 and 2 in 6-articulate paratanaoids.</p><p>Our specimens of Tsuranarthrura gen. nov. lack the pereopod 6. This is similar to the condition in Coalecerotanais, the sole paratanaoid genus having a fused segment composed of the pereonite 6 and the pleon, and lacking the pereopod 6. The early manca stage in tanaidaceans generally lacks the pereopod 6 (cf. Larsen 2003a), and Larsen (2003b) and Błażewicz-Paszkowycz et al. (2011) proposed that Coalecerotanais adults may lack this pereopod through neoteny. As we could not judge whether our specimens were in the manca or postmanca stage, we did not include this character state in the diagnosis of Tsuranarthrura gen. nov.</p><p>The confamilial genera Tsuranarthrura gen. nov., Anarthrura, Anarthrurella, and Crenicarpus all have the labrum not compressed laterally, and the fifth and fourth antennal articles from distal end naked (Bird 2004; Drumm and Bird 2016). Tsuranarthrura gen. nov. differs from the other three in having pereonite 6 fused with the pleon, the chelipedal merus with a ventral seta, the maxillipedal endite with a ventrosubdistal seta, and the merus of pereopods 2 and 3 without setae (Table 1).</p></div>	https://treatment.plazi.org/id/6A4B87B6FF84AF50FEA6F9880D54E601	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.		Plazi	Kakui, Keiichi;Tomioka, Shinri	Kakui, Keiichi, Tomioka, Shinri (2018): Tsuranarthrura shinsei, a New Genus and Species in Anarthruridae (Crustacea: Tanaidacea) from the Northwestern Pacific. Species Diversity 23 (1): 61-68, DOI: 10.12782/specdiv.23.61, URL: http://dx.doi.org/10.12782/specdiv.23.61
6A4B87B6FF86AF54FEA3F8F70BC5E8EB.text	6A4B87B6FF86AF54FEA3F8F70BC5E8EB.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Tsuranarthrura shinsei Kakui & Tomioka 2018	<div><p>Tsuranarthrura shinsei sp. nov.</p><p>(Figs 1–5)</p><p>Diagnosis. Same as for the genus.</p><p>Etymology. The specific name (a noun in apposition) is derived from R/V Shinsei-maru, the vessel from which the type specimens were collected.</p><p>Material examined. Holotype. <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=143.16766&amp;materialsCitation.latitude=38.738167" title="Search Plazi for locations around (long 143.16766/lat 38.738167)">Sex</a> indeterminate, NSMT-Cr 25816 (BL 1.99 mm, CW 0.38 mm), dissected, six slides and one vial; INSD accession number LC326400; R / V <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=143.16766&amp;materialsCitation.latitude=38.738167" title="Search Plazi for locations around (long 143.16766/lat 38.738167)">Shinsei-maru</a>, Off Miyagi, Japan, Northwestern Pacific Ocean (38°44.29′N, 143°10.06′E), 1890 m depth, box corer, mud bottom, 11.viii.2017 . Paratypes: one sex indeterminate, NSMT-Cr 25817 (CW 0.36 mm), dissected, three slides; INSD accession number LC326401; one sex indeterminate, NSMT-Cr 25818 (CW 0.38 mm), dissected, one slide and two SEM stubs. Paratypes with same collection data as for holotype.</p><p>Other material. One sex indeterminate, NSMT-Cr 25819 (BL 1.79 mm, CW 0.37 mm), one vial, with same collection data as for holotype.</p><p>Description. Based on holotype; sex indeterminate.</p><p>Body (Figs 1, 2 a–c, 4) slightly dorsoventrally flattened, 5.24 times as long as CW, BL 1.99 mm; body wall not heavily calcified. Cephalothorax 0.16 times as long as BL, 0.86 times as long as wide, naked; anterior edge rounded in dorsal view; eye lobe absent. Pereonites 1–5 with length ratio of 1.00: 1.23: 1.37: 1.51:1.52; all wider than long; pereonites 1–3 naked; pereonites 4 and 5 with lateral simple seta. Pereonite 6 and pleon fused (Fig. 2c), 0.32 times as long as BL, 1.91 times as long as wide, with one lateral and one distal pairs of simple setae; lateral margins almost parallel; posterior edge round in dorsal view; vestigial articulations between segments evident on ventral surface (Fig. 4 e–g).</p><p>Antennule (Fig. 2d) 0.96 times as long as cephalothorax; articles 1–4 with length ratio of 1.00: 0.43: 0.37: 0.60. Article 1 with distal simple seta and several PSS. Article 2 with distal simple seta and two PSS. Article 3 with two distal simple setae. Article 4 with five simple setae, PSS, and aesthetasc in distal region. Antenna (Figs 2e, 4a) with five articles, 0.72 times as long as antennule; articles 1–5 with length ratio of 1.00: 0.67: 1.63: 1.20:0.20. Articles 1 and 2 naked. Article 3 with two distal simple setae and two PSS (arrowhead, Fig. 2e: artifactual depression). Article 4 with distal simple seta. Article 5 with one subdistal and four distal simple setae.</p><p>Labrum (Figs 2f, g, 4a, b) conical, not depressed laterally, naked. Mandibles (Fig. 3a, b) without molar process and lacinia mobilis; incisor narrow and distally multifurcate. Labium not observed. Maxillule (Fig. 3c) with endite bearing eight distal spines; palp not observed. Maxilla (Figs 3d, 4b) rectangular, naked. Maxilliped (Figs 3e, 4b) with naked basis; endite slightly widening distally, with ventrosubdistal simple seta. Palp with article 1 naked; article 2 with three inner simple setae; article 3 with three long and one short inner simple setae; article 4 with five simple setae. Epignath (Fig. 3f) falciform, with minute distal setae.</p><p>Cheliped (Figs 3g, h, 4c, d) attached ventromedially to cephalothorax. Basis shorter than wide, with outer simple seta. Merus with ventral simple seta. Carpus 1.67 times as long as wide, with one dorsal, one dorsodistal, and two ventral simple setae. Chela slightly longer than carpus. Propodal palm with one inner and one outer simple setae at insertion of dactylus. Fixed finger slightly longer than palm, with simple seta on ventral margin, three mid-dorsal simple setae and four dorsal processes (Fig. 3h) on cutting surface, and triangular claw. Dactylus-unguis slightly longer than fixed finger, with inner simple seta and row of dorsal ridges. Unguis triangular.</p><p>Pereopods 1–5 cylindrical, with length ratio of 1.00: 0.94: 0.85: 0.84: 0.86 (distal portion of pereopod-3 unguis broken). Pereopod 1 (Fig. 3i) 0.19 times as long as BL, with length ratio of basis, ischium, merus, carpus, propodus, and dactylus-unguis 1.00:0.07:0.34:0.36:0.61:0.83. Coxa with simple seta. Basis cylindrical, narrow, 4.36 times as long as wide, naked. Ischium with ventral simple seta. Merus naked. Carpus with one dorsal, one inner, and one ventral simple setae in distal region. Propodus with ventrodistal simple seta and dorsodistal microtrichia. Dactylus with proximal seta. Unguis 1.22 times as long as dactylus, naked. Pereopod 2 (Fig. 3j) with length ratio of articles from basis to dactylus-unguis 1.00: 0.10: 0.29: 0.37: 0.52: 0.76. Coxa, basis, ischium, merus, and dactylus-unguis similar to those of pereopod 1. Carpus with one dorsodistal and one ventrodistal simple setae and ventrodistal spiniform seta. Propodus with ventrodistal simple seta and dorsal serration on edge in distal half. Pereopod 3 (Fig. 3k) with length ratio of articles from basis to dactylus-unguis 1.00: 0.08:0.25:0.33:0.48:0.69; similar to pereopod 2. Pereopod 4 (Figs 3l, 5) without coxa. Length ratio of articles from basis to dactylus-unguis 1.00:0.08: 0.25:0.39: 0.44:0.38. Basis cylindrical, 3.38 times as long as wide, with two ventral PSS. Ischium with ventral simple seta. Merus with two ventrodistal serrate spiniform setae. Carpus with dorsodistal simple seta and two distal serrate spiniform setae (cf. Fig. 5). Propodus with one dorsal and two ventral serrate spiniform setae and dorsal microtrichia in distal region. Dactylus naked. Unguis 0.48 times as long as dactylus, with ventral setation. Pereopod 5 (Fig. 3m) with length ratio of articles from basis to dactylus-unguis 1.00: 0.09: 0.27: 0.35: 0.43: 0.38; similar to pereopod 4, except carpus with three distal serrate spiniform setae.</p><p>Pleopods absent.</p><p>Uropod (Fig. 3n) with exopod fused to basal article bearing two simple setae. Endopod biarticulate; article 1 with two distal PSS; article 2 0.78 times as long as article 1, with one middle and four distal simple setae and PSS.</p><p>Variation. In addition to the holotype (NSMT-Cr 25816), two paratype specimens (NSMT-Cr 25817, 25818) were observed. All specimens had a fused segment consisting of pereonite 6 and the pleon. The numbers of simple setae, spiniform setae, serrate spiniform setae and aesthetascs on appendages, and of processes on the chelipedal fixed finger, were identical among the three specimens, with the following exceptions. 1) There were five (NSMT-Cr 25817, 25818) or four (NSMT-Cr 25816) distal simple setae on antennular article 4. 2) There were two (left in holotype; Fig. 3l), three (right in holotype, left in NSMT-Cr 25817, and right in NSMT-Cr 25818; Fig. 5), or four (right in NSMT-Cr 25817) distal serrate spiniform setae on the pereopod-4 carpus.</p><p>Genetic information. Partial COI sequences (651 bp, encoding 216 amino acids) were determined from the holotype specimen NSMT-Cr 25816 and the paratype specimen NSMT-Cr 25817; INSD accession numbers LC326400 and LC326401; the two sequences were identical. The sequence in the INSD most similar to our COI sequence, as determined by BLAST searches (Altschul et al. 1990), was from the tanaidacean Typhlotanais variabilis Hansen, 1913 (Typhlotanaidae) (identity score 74%, query cover 70%, Błażewicz-Paszkowycz et al. 2014). To date, no other anarthrurid nucleotide sequences have been deposited in public databases (DDBJ 2017).</p><p>Distribution. So far known only from the type locality.</p><p>Remarks. Although Anarthrura simplex does not have pereonite 6 fused to the pleon, this is the only confamilial species having a fused segment (consisting of the pleonites and pleon). Here we present additional differences between T. shinsei sp. nov. and A. simplex not mentioned in the Remarks section for Tsuranarthrura gen. nov. 1) All pereonites are wider than long in T. shinsei sp. nov., whereas pereonites 2–5 are longer than wide in A. simplex . 2) The mandibular incisor is narrow and multifurcate in T. shinsei sp. nov. but subrectangular in A. simplex . 3) The number of spines on the maxillular endite is eight in T. shinsei sp. nov., but four in A. simplex . 4) The length of dactylus-unguis is about fourfifths that of the propodus in pereopods 4 and 5 in T. shinsei sp. nov., but about two-thirds in A. simplex .</p><p>So far four anarthrurid species were reported from around Japan: Anarthruropsis langi Kudinova-Pasternak, 1976, Anarthruropsis longa Kudinova-Pasternak, 1984, Siphonolabrum tenebrosus Bird, 2007, and Keska sei Błażewicz-Paszkowycz et al. 2013 (Bird 2007; Błażewicz-Paszkowycz et al. 2013). Tsuranarthrura shinsei sp. nov. is the fifth anarthrurid species around Japan.</p></div>	https://treatment.plazi.org/id/6A4B87B6FF86AF54FEA3F8F70BC5E8EB	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.		Plazi	Kakui, Keiichi;Tomioka, Shinri	Kakui, Keiichi, Tomioka, Shinri (2018): Tsuranarthrura shinsei, a New Genus and Species in Anarthruridae (Crustacea: Tanaidacea) from the Northwestern Pacific. Species Diversity 23 (1): 61-68, DOI: 10.12782/specdiv.23.61, URL: http://dx.doi.org/10.12782/specdiv.23.61
