Clathria (Axosuberites) aurantia Annunziata & Cavalcanti & Santos & Pinheiro 2019, n. sp.

Clathria ( Axosuberites ) aurantia n. sp. (Figs 2,3; Table 1) Type locality: Brazil, Maranhão State, Tutóia Municipality, Tutóia beach, Brazil. Type specimen: Holotype: UFPEPOR 2351, Tutóia beach (02º45’13.000” S, 42º17’16.977” W), Tutóia Municipality, Maranhão State, Brazil, coll. B. Annunziata, R....

Full description

Bibliographic Details
Main Authors: Annunziata, Bruno B., Cavalcanti, Thaynã, Santos, George Garcia, Pinheiro, Ulisses
Format: Text
Language:unknown
Published: Zenodo 2019
Subjects:
Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Poecilosclerida
Microcionidae
Clathria
Clathria aurantia
Antarctic
The Antarctic
New Zealand
Queensland
Noire
South Georgia Island
Goodwin
Ridley
Antarc*
Online Access:https://dx.doi.org/10.5281/zenodo.5617868
https://zenodo.org/record/5617868
Description
Summary:Clathria ( Axosuberites ) aurantia n. sp. (Figs 2,3; Table 1) Type locality: Brazil, Maranhão State, Tutóia Municipality, Tutóia beach, Brazil. Type specimen: Holotype: UFPEPOR 2351, Tutóia beach (02º45’13.000” S, 42º17’16.977” W), Tutóia Municipality, Maranhão State, Brazil, coll. B. Annunziata, R. A. Silva, L. H. O. Souza, 24 July 2017. Diagnosis. Bush sponge with flattened branches emerging at encrusting base, styles (167–522 / 3–10 µm), subtylostyles (171–488 / 3–10 µm), and palmate isochelae (10–19 µm); toxa absent. External morphology. Bush sponge emerging at encrusting base, with flattened branches measuring 6.25 x 0.53 cm (7.0– 5.5 cm x 0.8– 0.3 cm) (Fig. 2A). Oscula inconspicuous, hispid surface and soft consistency. Orange color in life, and dark gray in 80% ethanol (Fig. 2B). Skeleton (Fig. 2C). Choanosomal skeleton with differentiated axial and extra-axial regions: axial skeleton compressed and ascending, extra-axial skeleton plumo-reticulate or confused. Ectosomal skeleton produced by spicules from the extra-axial skeleton forming discrete bouquets of subtylostyles. Styles placed at the axial skeleton and subtylostyles protruding into extra-axial skeleton at acute angles. Palmate isochelae dispersed within choanosome. Spicules. Megascleres: Styles (167– 396.4 –522 / 3– 7 – 10 µm): smooth, slender straight to slightly curved, with rounded base (Fig. 3A,C); Subtylostyles (171– 354.9 –488 / 3– 5.5 – 10 µm): straight with microspined base, and pointed or mucronate points (Fig. 3B,D); Microscleres: palmate isochelae (10– 15.1 – 19 µm): normal shaft to slightly curved “V”-shaped shaft and short alae (Fig. 3E). Distribution and ecology. The specimen was found in Tutóia Channel, about 9.5 km from the shore and was collected dragged by fishing nets, in Tutóia beach, Tutóia municipality, Maranhão State, Brazil. Etymology. From Latin “ aurantius ” referring to its vivid orange color in life. Remarks. Clathria ( Axosuberites ) aurantia n . sp . as well as C. ( A .) papillata Van Soest, Beglinger & De Voogd, 2013, and C. ( A .) riosae Van Soest, 2017 differ from other C. ( Axosuberites ) species by the absence of toxas. However, the new species has smooth styles and one category of subtylostyles versus microspined styles in C. ( A .) papillata and two size categories of subtylostyles in C. ( A .) riosae (see Table 1). The main difference between C . ( Axosuberites ) aurantia n . sp . and C. ( A .) pachyaxia (Lévi, 1960) and C. ( A .) georgiaensis Hooper, 1996 is the presence of toxas. In addition, there are some differences in the categories of their spicule arrangements and geographic distributions making specificity unlikely (see Table 1). Species of Axosuberites that have more than two categories of megascleres are: C. ( A. ) benguelaensis Samaai & Gibbons, 2005, Clathria ( A .) canaliculata (Whitelegge, 1906), C. ( A. ) cylindrica (Ridley & Dendy, 1886), C. ( A .) flabellata (Topsent, 1916), C. ( A .) nidificata (Kirkpatrick, 1907), C . ( A .) patula (Hooper, 1996), and C . ( A .) thetidis (Hallmann, 1920). Species with much larger isochelae and stout styles are C . ( A .) fromontae Hooper, 1996, C . ( A .) macrotoxa (Bergquist & Fromont, 1988), C. ( A .) marplatensis (Cuartas, 1992) and C . ( A .) multitoxaformis (Bergquist & Fromont, 1988). Furthermore, two species show larger megascleres when compared to Clathria ( Axosuberites ) aurantia n . sp .: Clathria ( A .) ramea (Koltun, 1964) and C. ( A .) rosita Goodwin, Brewin & Brickle, 2012. : Published as part of Annunziata, Bruno B., Cavalcanti, Thaynã, Santos, George Garcia & Pinheiro, Ulisses, 2019, Two new Clathria (Axosuberites) Topsent, 1893 (Demospongiae: Poecilosclerida) from Northeastern Brazil, pp. 500-510 in Zootaxa 4671 (4) on pages 502-503, DOI: 10.11646/zootaxa.4671.4.2, http://zenodo.org/record/3450464 : {"references": ["Van Soest, R. W. M., Beglinger, E. J. & De Voogd, N. J. (2013) Microcionid sponges from Northwest Africa and the Macaronesian Islands (Porifera, Demospongiae, Poecilosclerida). Zoologische Mededelingen Leiden, 87 (4), 275 - 404.", "Van Soest, R. W. M. (2017) Sponges of the Guyana Shelf. Zootaxa, 4217 (1), 1 - 225. https: // doi. org / 10.11646 / zootaxa. 4217.1.1", "Levi, C. (1960) Spongiaires des cotes occidentales africaines. Bulletin de l'Institut francais d'Afrique noire, A (Sciences naturelles), 22 (3), 743 - 769. [in French]", "Hooper, J. N. A. (1996) Revision of Microcionidae (Porifera: Poecilosclerida: Demospongiae), with description of Australia species. Memoirs of the Queensland Museum, 40, 1 - 626.", "Samaai, T. & Gibbons, M. J. (2005) Demospongiae taxonomy and biodiversity of the Benguela region on the west coast of South Africa. African Natural History, 1, 1 - 96.", "Whitelegge, T. (1906) Sponges. Part 1. Monaxonida, Ridley and Dendy. In: Scientific Results of the Trawling Expedition of H. M. C. S. ' Thetis' off the Coast of New South Wales in February and March, 1898. Memoirs of the Australian Museum, 4 (9), 453 - 484, pls. XLIII-XLIV. https: // doi. org / 10.3853 / j. 0067 - 1967.4.1906.1505", "Ridley, S. O. & Dendy, A. (1886) Preliminary report on the Monaxonida collected by H. M. S. Challenger. Part I. Annals and Magazine of Natural History, 18, 325 - 351 + 470 - 493. https: // doi. org / 10.1080 / 00222938609459998", "Kirkpatrick, R. (1907) Preliminary Report on the Monaxonellida of the National Antarctic Expedition. Annals and Magazine of Natural History, Series 7, 20 (117), 271 - 291. https: // doi. org / 10.1080 / 00222930709487333", "Hallmann, E. F. (1920) New Genera of Monaxonid Sponges related to the Genus Clathria. Proceedings of the Linnean Society of New South Wales, 44 (4), 767 - 792., pls. XXXVI-XL.", "Bergquist, P. R. & Fromont, P. J. (1988) The Marine Fauna of New Zealand: Porifera, Demospongiae, Part 4, Poecilosclerida. New Zealand Oceanographic Institute Memoir, 96, 1 - 197.", "Cuartas, E. I. (1992) Algunas Demospongiae (Porifera) de Mar del Plata, con descripcion de Axociella marplatensis, sp. n. Iheringia Zool, 73, 3 - 12.", "Koltun, V. M. (1964) Sponges of the Antarctic. 1 Tetraxonida and Cornacuspongida .. In: Pavlovskii, E. P., Andriyashev, A. P. & Ushakov, P. V. (Eds.), Biological Reports of the Soviet Antarctic Expedition (1955 - 1958). Akademya Nauk SSSR, Jerusalem, pp. 6 - 133 + 443 - 448. [English translation, 1966, Israel Program for Scientific Translation]", "Goodwin, C., Brewin, P. E. & Brickle, P. (2012) Sponge biodiversity of South Georgia island with descriptions of fifteen new species. Zootaxa, 3542 (1), 1 - 48. https: // doi. org / 10.11646 / zootaxa. 3542.1.1"]}

Similar Items