identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
6ADC38FB8B6050CB968AE5EF3049DFAF.text	6ADC38FB8B6050CB968AE5EF3049DFAF.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Discorhabdella Dendy 1924	<div><p>Genus Discorhabdella Dendy, 1924</p><p>Diagnosis.</p><p>Smooth ectosomal subtylostyles, long choanosomal styles/subtylostyles with swollen lumpy bases and tuberculate club-shaped pseudoastrose or heavily spined acanthostyles forming erect hymedesmioid skeleton; microscleres anchorate unguiferous isochelae and may include spined microxea with two lumpy swellings or sigma-like spicules (slightly modified from Van Soest 2002).</p><p>Type species.</p><p>Discorhabdella incrustans Dendy, 1924: 376 (by monotypy).</p></div>	https://treatment.plazi.org/id/6ADC38FB8B6050CB968AE5EF3049DFAF	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.		Pensoft via Plazi	Ise, Yuji;Vacelet, Jean;Izumi, Takato;Woo, Sau Pinn;Tan, Shau Hwai	Ise, Yuji, Vacelet, Jean, Izumi, Takato, Woo, Sau Pinn, Tan, Shau Hwai (2021): First record of the genus Discorhabdella (Porifera, Demospongiae, Poecilosclerida, Crambeidae) from Sagami Bay, Japan with description of two new species. ZooKeys 1076: 67-81, DOI: http://dx.doi.org/10.3897/zookeys.1076.37278, URL: http://dx.doi.org/10.3897/zookeys.1076.37278
78C4541DE95651EC8FD08E31E59E6FDE.text	78C4541DE95651EC8FD08E31E59E6FDE.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Discorhabdella hispida Ise & Vacelet & Izumi & Woo & Tan 2021	<div><p>Discorhabdella hispida sp. nov.</p><p>Figs 2A-C, 3, 4</p><p>Material examined.</p><p>Holotype. NSMT-Po-2489. <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=139.56041&amp;materialsCitation.latitude=35.125065" title="Search Plazi for locations around (long 139.56041/lat 35.125065)">Off Misaki</a>, eastern part of Sagami Bay (Fig. 1), Japan (35°7.484'N, 139°33.212'E to 35°7.504'N, 139°33.625'E), 223- 113 m depth, dredge, 13 January 2012.</p><p>Description of holotype.</p><p>External morphology. Thinly encrusting, surface hispid due to protruding choanosomal large subtylostyles. Color greenish ochre in life, grayish white in ethanol. Size, 22 × 17 mm, about 0.3 mm thick (Fig. 2A-C). Oscules not observed in the living specimen; probably contracted in preserved state. Ostia observed only in preserved specimen, rounded, evenly distributed, 150-300 µm in diameter.</p><p>Skeleton. Hymedesmioid skeleton made by large choanosomal subtylostyles making the sponge surface hispid and by perpendicular acanthostyles with their bases attached on substrate. Ectosomal subtylostyles arranged perpendicular to surface with tips outward. Anchorate unguiferous isochelae and sigmoid microscleres roughly dispersed throughout the sponge.</p><p>Spicules. Choanosomal subtylotyles (Fig. 3A, B), long slightly curved near the base, maximum diameter at the base gradually tapering to sharp point (Fig. 3A). Base smooth and slightly lumpy (Fig. 3B). Size, 814-1500 µm in length, 42.0-56.5 (50.3) µm in shaft width, 52.4-70.8 (61.7) µm in base width.</p><p>Ectosomal subtylostyles (Fig. 3C-F), fusiform, smooth and straight; with smooth and slightly swollen base (Fig. 3D). Maximum diameter at middle region, then gradually tapering to a sharp point (Fig. 3E). Microspined sparsely around the shaft and densely around the tip (Fig. 3F). Size, 292.2-392.5 (335.4) µm in length, 13.4-16.7 (15.2) µm in shaft width, 10.7-14.0 (12.9) in tyle width.</p><p>Acanthostyles (Fig. 4A), club-shaped head with conical spines having blunt ends. Shaft straight, fusiform, and densely covered with prominent spines with tips sharply pointed, devoid of spines on the last 10-20 µm towards extremity. Terminal holes or orifices of spines especially around head could be detected. Size, 84.0-127.5 (103.6) µm in length, 41.1-57.7 (48.0) µm in head width including spines, 26.3-42.4 (31.1) µm in head width without spines, 24-35.9 (27.8) µm in width of shaft including spine, 16.2-27.5 (21.3) µm in width of shaft without spine.</p><p>Anchorate unguiferous isochelae (Fig. 4B, C), strongly curved C-shaped shaft with lateral expansion that forming a pair of fimbriae along its entire length. Both extremities bearing 3-7 short and unequal shaped alae. The alae closest to the lateral fimbriae sometimes reduced or nearly absent, and connected to the fimbriae. Size, 27.3-38.0 (31.7) µm in length, 2.9-4.0 (3.5) µm in shaft width.</p><p>Sigmoid microscleres (Fig. 4D), strongly curved shaft and irregular in shape. Size, 20.7-31.2 (26.3) µm in length, 0.7-1.0 (0.8) µm in shaft width.</p><p>Distribution.</p><p>Known only from type locality, Misaki, eastern part of Sagami Bay, Japan.</p><p>Etymology.</p><p>Specific epithet refers to its hispid surface appearance.</p><p>Remarks.</p><p>The present species appears well characterized by its spicule complement, especially its microscleres. The isochelae have a unique shape, with a strongly curved shaft compared to all other species of Discorhabdella, which have a straight or feebly curved shaft. However, the isochelae of D. hispida sp. nov. are similar to the anchorate isochelae of Monanchora unguiculata (Dendy, 1922) (see also Lévi 1961, Vacelet et al. 1976). The presence of a sigmoid microsclere that is different from the true sigma, is also distinctive. Sigmas are present in four other Discorhabdella species: D. hindei; D. littoralis; D. ruetzleri and D. urizae; however, in these species, there are several differences in the other spicule characters (see Table 1).</p><p>Discorhabdella hispida sp. nov. differs from D. hindei by having acanthostyle (length: 84.0-127.5 µm) instead of pseudoastrose acanthostyles (length: 43-57 µm) in D. hindei, a less tuberculated base of the choanosomal styles and a less developed tyle of the ectosomal subtylostyles. It differs from D. littoralis by larger choanosomal subtylostyles (814-ca 1500 µm vs 117-300 µm), by having acanthostyles instead of pseudoastrose acanthostyles, and a more tuberculated base of choanosomal subtylostyles. It differs from D. ruetzleri by larger choanosomal subtylostyles (814-1500 µm vs 470-810 µm), larger acanthostyles (84.0-127.5 µm vs 17-40 µm), larger isochelae (27.3-38.0 µm vs 20-25 µm), absence of spined microxea. It differs from D. urizae by larger choanosomal subtylostyles (814-1500 µm vs 220-750 µm in length), absence of spined microxeas and a less tuberculated base of the choanosomal styles. Acanthostyles that are more than 90 µm long have been observed only in D. tuberosocapitata and in D. misakiensis sp. nov. described in this study. But both species lack sigmoid microscleres and have choanosomal subtylostyles with a well-developed lumpy base. Tubercles around the base of choanosomal subtylostyles are not well developed in D. hispida sp. nov. and can be comparable with those recently found in D. pseudaster and D. ruetzleri . However, D. hispida sp. nov. totally lacks peculiar pseudoaster of D. pseudaster and also lacks spined microxea of D. ruetzleri .</p></div>	https://treatment.plazi.org/id/78C4541DE95651EC8FD08E31E59E6FDE	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.		Pensoft via Plazi	Ise, Yuji;Vacelet, Jean;Izumi, Takato;Woo, Sau Pinn;Tan, Shau Hwai	Ise, Yuji, Vacelet, Jean, Izumi, Takato, Woo, Sau Pinn, Tan, Shau Hwai (2021): First record of the genus Discorhabdella (Porifera, Demospongiae, Poecilosclerida, Crambeidae) from Sagami Bay, Japan with description of two new species. ZooKeys 1076: 67-81, DOI: http://dx.doi.org/10.3897/zookeys.1076.37278, URL: http://dx.doi.org/10.3897/zookeys.1076.37278
EEB6EE1192D15A099704DFCF290CD8C2.text	EEB6EE1192D15A099704DFCF290CD8C2.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Discorhabdella misakiensis Ise & Vacelet & Izumi & Woo & Tan 2021	<div><p>Discorhabdella misakiensis sp. nov.</p><p>Figs 2D, 5, 6</p><p>Material examined.</p><p>Holotype. NSMT-Po-2490. <a href="https://tb.plazi.org/GgServer/search?materialsCitation.longitude=139.56769&amp;materialsCitation.latitude=35.128567" title="Search Plazi for locations around (long 139.56769/lat 35.128567)">Off Misaki</a>, eastern part of Sagami Bay (Fig. 1), Japan (35°7.734'N, 139°34.133'E to 35°7.714'N, 139°34.061'E), 318- 255 m depth, dredge, 10 January 2012.</p><p>Description of holotype.</p><p>External morphology. Small, very thinly encrusting sponge, about 0.2 mm thick, with velvet surface, white in alcohol. Size, 8 × 5 mm (Fig. 2D). Ostia and oscules not observed either in live or in the preserved specimen.</p><p>Skeleton. Hymedesmioid skeleton made by choanosomal subtylostyles and acanthostyles. Choanosomal subtylostyles mostly arranged perpendicular to surface with tips oriented upward. Anchorate unguiferous isochelae distributed in whole body.</p><p>Spicules. Choanosomal subtylostyles (Fig. 5A-C), straight, almost uniform in thickness along shaft gradually tapering to a sharp point (Fig. 5C). Lumpy base bearing many prominent smooth projections (Fig. 5B). Size, 252- 336.4 (295.2) µm in length, 18.6- 26.6 (22.6) µm in shaft width, 33.2-45.6 (40.2) µm in base width.</p><p>Ectosomal subtylostyles (Fig. 5D-F), fusiform, smooth and straight, with smooth and slightly swollen tyle (Fig. 5E). Maximum diameter at middle region, then gradually tapering to sharp point (Fig. 5F). Size, 203-257 (232) µm in length, 10.6-14.1 (11.7) µm in shaft width, 7.9-9.9 (8.9) µm in tyle width.</p><p>Acanthostyles (Fig. 6A, B), straight, surface covered with prominent spines especially at club-shaped head with longer spines. Spines on shaft slightly recurved with tips sharply pointed. Shaft devoid of spines from extremity up to ca. 10-20 µm . Size, 73-91.3 (82.0) µm in length, 27.9-42.0 (34.2) µm in head width including spines, 15.6-21.8 (19.8) µm in head width without spines.</p><p>Anchorate unguiferous isochelae (Fig. 6B-D), shaft nearly straight, with a pair of fimbriae along whole shaft; bearing 6 alae (Fig. 6B-D). Size, 17.5-21.9 (19.8) µm in total length, 2.0-2.7 (2.2) µm in shaft width, 6.7-8.0 (7.3) µm in alae length.</p><p>Distribution.</p><p>Known only from type locality, Misaki, eastern part of Sagami Bay, Japan.</p><p>Etymology.</p><p>Specific epithet refers to type locality: Misaki.</p><p>Remarks.</p><p>Discorhabdella misakiensis sp. nov. has only isochelae as microscleres. This composition of spicules can be found in one other species of the genus, D. tuberosocapitata from Azores, Canaries and Madeira (Van Soest 2002, Van Soest et al. 2019). The two species can be clearly differentiated by the size of their spicules: all spicules are smaller in D. misakiensis sp. nov. (see Table 1). In addition, they can be differentiated by the shape of their isochelae. Although the isochelae of D. tuberosocapitata and D. misakiensis sp. nov. have similar number of alae, the alae in D. tuberosocapitata are more widely opened. The reported number of isochelae alae in D. tuberosocapitata is rather confusing because different authors reported different number of alae despite all of them observing the same type material: four in Boury-Esnault et al. (1992), four to five in Van Soest (2002) and seven to eight in Maldonado and Uriz (1996). This is possibly due to differences in the interpretation of the fused alae. Boury-Esnault et al. (1992) and Van Soest (2002) considered the two alae fused at the base as one, while Maldonado and Uriz (1996) counted them as two. The alae number of D. misakiensis sp. nov. is here counted as six; however, the two frontal alae seem to fuse at the base or might be regarded as one ala divided into two (Fig. 6D). Further evidence of separation of these two species is their distant geographical distribution: D. tuberosocapitata is reported from Azores, Canaries and Madeira (Van Soest 2002, Van Soest et al. 2019) but D. misakiensis sp. nov. is found only from the type locality, Sagami Bay, Japan. The dichotomous central ala is also found from "eight-toothed isochelae" of D. hindei (Maldonado and Uriz 1996); however, D. misakiensis sp. nov. and D. hindei are clearly separated by the possession of sigma in the latter species. Furthermore, D. hindei has been reported only from Alboran Sea (Maldonado and Uriz 1996), which is very distant from type locality of D. misakiensis sp. nov.</p><p>The choanosomal subtylostyles of the new species are relatively small, and their length overlapped with that of the ectosomal subtylostyles. In Discorhabdella, this pattern is found only in D. littoralis (see Table 1). However, D. littoralis and D. misakiensis sp. nov. are clearly separated by the size of acanthostyles (26-40 µm vs 73.0-91.3 in length), the presence of isochelae (absent in D. littoralis), and of sigmas (absent in D. misakiensis sp. nov.). D. littoralis has been only reported from off the Pacific coast of Panama (Maldonado et al. 2001), which also exhibits distant geographical distribution from type locality of D. misakiensis sp. nov.</p><p>Discussion.</p><p>The present study adds two new species to the genus Discorhabdella, which now has nine species. This is the first record of the genus and family Crambeidae from Japanese waters. Thus the discovery of these two new species from warm temperate northwest Pacific extends the geographical distribution of the genus (see Table 1).</p><p>Vacelet and Cárdenas (2018) raised doubts to the hypothetical polyaxial nature of the choanosomal styles/subtylostyles and the pseudoastrose acanthostyles that has been proposed by Uriz and Maldonado (1995) and Maldonado and Uriz (1996). The authors proposed instead, a monaxonal origin for the spicule shaft with secondary axes for bulges. In our study, we could not precisely distinguish axes on the choanosomal subtylotyles or the acanthostyles.</p><p>Feeble microspines around the distal tips of ectosomal subtylostyles have been first reported from Crambe tuberosa Maldonado &amp; Benito, 1991 and later considered as a possible common character of the genera Discorhabdella and Crambe, both in the family Crambeidae (Maldonado and Uriz 1996). In this study, this character was observed in D. hispida sp. nov. (e.g. Fig. 3F) but seems to be absent in D. misakiensis sp. nov. (Fig. 5F). This character was not mentioned in the recently described species, D. pseudaster and D. ruetzleri (Vacelet and Cárdenas 2018, Díaz and Pomponi 2018). The actual affinity between Discorhabdella and Crambe has not been revealed as yet (Maldonado and Uriz 1996), but the feeble microspines around the distal tips of the ectosomal subtylostyles may be a symplesiomorphy for these two genera.</p><p>The evolutionary aspect of morphological divergence among sphaeroclones, pseudoastrose acanthostyles, and typical acanthostyles has long been discussed and the question remains as to whether the amount of change between sphaeroclones and astrose acanthostyles is more important than the whole set of shared morphological features in determining the phylogenetic relationships between Crambe and Discorhabdella (Uriz and Maldonado 1995, Maldonado and Uriz 1996). Our findings on the two new species add more knowledge on acanthostylose derivatives in Discorhabdella . To date, long acanthostyles have been found only in D. tuberosocapitata (with ca 130 µm in length), but in all other species of Discorhabdella they are less than 60 µm (see Table 1) and thus regarded as pseudoastrose acanthostyle because of the putative polyaxial nature contrasting the monoaxial nature of typical acanthostyles of other demosponge taxa (Uriz and Maldonado 1995, Maldonado and Uriz 1996). In the two new species, acanthostyles are longer than 70 µm in length, which means the alleged possession of long acanthostyles differing from typical pseudoastrose acanthostyles, is not unusual in Discorhabdella . They also provide clues for solving the trait of gradual morphological divergence between sphaeroclones, pseudoastrose acanthostyles, and acanthostyles along with pseudoaster recently found from D. pseudaster (Vacelet and Cárdenas 2018). A molecular phylogenetic study is necessary to unravel the diversification of sphaeroclones, pseudoastrose acanthostyles, acanthostyles and pseudoasters as well as the affinity of Discorhabdella and Crambe within the order Poecilosclerida (Maldonado and Uriz 1996, Vacelet and Cárdenas 2018).</p></div>	https://treatment.plazi.org/id/EEB6EE1192D15A099704DFCF290CD8C2	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.		Pensoft via Plazi	Ise, Yuji;Vacelet, Jean;Izumi, Takato;Woo, Sau Pinn;Tan, Shau Hwai	Ise, Yuji, Vacelet, Jean, Izumi, Takato, Woo, Sau Pinn, Tan, Shau Hwai (2021): First record of the genus Discorhabdella (Porifera, Demospongiae, Poecilosclerida, Crambeidae) from Sagami Bay, Japan with description of two new species. ZooKeys 1076: 67-81, DOI: http://dx.doi.org/10.3897/zookeys.1076.37278, URL: http://dx.doi.org/10.3897/zookeys.1076.37278
