Published December 31, 2008 | Version v1
Taxonomic treatment Open

Phorbas topsenti Vacelet & Perez, 2008, sp. nov.

Description

Phorbas topsenti sp. nov.

(Figs. 1–4)

Restricted synonymy. Anchinoe paupertas: Topsent, 1934: 25; Topsent, 1936: 43; Boury-Esnault, 1971: 318; Pansini, 1987: 166. Phorbas paupertas: Maldonado, 1993: 244; Carballo, 1994: 148.

Holotype. MNHN DJV 113, Marseille, Anse des Cuivres near Station Marine d’Endoume, 43°16'47.46"N, 5°20'57.22"E, 7 m, 21 July 2004.

Paratype 1. MNHN DJV 114, Marseille, Anse des Cuivres near Station Marine d’Endoume, 43°16'47.46"N, 5°20'57.22"E, 7 m, 21 July 2004.

Paratype 2. MNHN DJV 115, Lebanon, Beirut harbour, 33°54.36’N, 35°30.98’E, 15 m, 9 July 2003.

Paratype 3 MNHN DJV 116, Tunisia (Kerkennah Islands), 4 m, 16 December 1987.

Other material examined. Numerous specimens from Marseille, Tunisia and Lebanon.

Description. Thickly encrusting to massive (Fig. 1), thickness varying from a few millimeters to 25 mm, covering areas up to 100 cm ². Surface smooth, entirely covered by pore-sieves, 1.5–2 mm in diameter. Oscules scattered, 2–3 mm in diameter in preserved specimens. Consistency fleshy, rather soft. Colour deep red in live specimens, cream in alcohol.

Skeleton. Dermal skeleton of dispersed strongyles, mostly tangential to the surface between the poresieves, and arranged in a dense palisade around the pore-sieves (Fig. 2 A). Choanosomal skeleton (Fig. 2 B) consisting of plumose ascending fibres, 80 µm in maximum thickness, with strongyles and acanthostyles I included in a feebly developed spongin, echinated by acanthostyles II and a few acanthostyles I. Isochelae present everywhere in the sponge, more numerous in the dermal membrane.

Spicules (Fig. 3 A–F, Tables 1 and 2). Strongyles or subtylostrongyles, straight, frequently with slightly enlarged ovoid ends. Acanthostyles I, slightly curved, with a few short, generally blunt spines near the head.

Acanthostyles II, straight, slightly conical, entirely spined, spines sharply pointed, curved toward the head along the shaft. Isochelae, arcuate, with shaft 3–3.3 µm in diameter, oval alae 8 µm long, central tooth wellformed, rudimentary fimbriae barely visible on some spicules.

These spicules show rather low variations, according to the paratypes, to other specimens examined and to the literature (tables 1 and 2). The identification as Anchinoe paupertas by Pulitzer-Finali 1983 for specimens from the Italian coasts which are thinly encrusting and with no reported isochelae need to be checked.

Histology and cytology (Fig. 4). Choanocyte chambers (Fig. 4 A, B) spherical, 23–26 µm in diameter, with small choanocytes. Two types of cells with inclusions present. Vacuolar cells (Fig. 4 C, D), numerous, generally ovoid with irregular outline, up to 14 x 6 µm, with a small, anucleate nucleus; cytoplasm more or less reduced between clear vacuoles with a sinuous outline. Vacuoles up to 3 µm in diameter, occupying most of the cell volume. Spherulous cells (Fig. 4 E), subspherical to elongate, up to 16 x 6 µm; nucleus with a central area containing a large crystal-like inclusion; spherules dense, homogeneous, 1–2 µm in diameter. Rather dense fascicles of collagen fibrils (Fig. 4 F) present in places. Two morphotypes of symbiotic bacteria present in the mesohyl although not abundant, rod-like bacteria (Fig. 4 F) and remarkable spiral-shaped bacteria (Fig. 4 G).

Reproduction. A specimen from Lebanon (collected on 05/06/2000: 33a) contained numerous embryos, spherical (150–200 µm in diameter) in the early stages and ovoid, up to 400 x 250 µm in the most mature stage where they contain thin strongyles (80–110 x 0.5 µm) dispersed without order, and incompletely developed isochelae. Spermatogenesis has been observed in a specimen collected in Marseille (30/05/1984) (see De Vos et al. 1991).

Symbiosis. The sponge is frequently associated with the amphipod Tritaeta gibbosa (Bate, 1862).

Ecology. Common in well lit or semi-shaded areas, between 2 to 50 m.

Distribution. Mediterranean (Tunisia, French, Italian and Spanish coasts, Gibraltar, Lebanon). The sponge is recorded from the Strait of Gibraltar (Carballo 1994), but the records as Anchinoe, Phorbas or Hymedesmia paupertas from outside the Mediterranean refer to Hymedesmia paupertas (for instance Cristobo et al. 1998 in Galicia).

Etymology. The species is dedicated to Émile Topsent who first recognized this sponge in the Mediterranean.

Remarks. This sponge was first described in the Mediterranean by Topsent (1934), who recorded it from Tunisia and from the Mediterranean French coasts. Topsent wrongly identified the sponge as Anchinoe (now Phorbas) paupertas, described from the north European coasts by Bowerbank (1866) as Hymeniacidon paupertas, which at that time was poorly defined and which is a Hymedesmia. Recent revisions have shown that Hymedesmia paupertas (Bowerbank) is a thinly encrusting, blue or green sponge from the North East Atlantic, with an hymedesmioid skeleton, which is clearly different from the red Mediterranean sponge (van Soest et al. 2000). We thus propose a new name for the Mediterranean sponge, which has often been recorded as Phorbas paupertas. The ‘true’ Hymedesmia paupertas has apparently not been observed in the Mediterranean.

Phorbas topsenti sp.nov. closely resembles by its field characters two sponges of the same family, Phorbas fictitius (Bowerbank, 1866) and Hamigera hamigera (Schmidt, 1862). The three sponges are clearly distinct by their spiculation, the major differences being the presence of tornotes instead of strongyles in P. fictitius, and the absence of true acanthostyles in H. hamigera (Figs. 5, 6). However, they are extremely difficult to distinguish in the field. Phorbas fictitius appears to have a more variable colour, varying from deep red to grey and pale orange pink in the NE Atlantic (van Soest et al. 2000). However, in the NW Mediterranean, P. fictitius appears always as red, possibly a little more vivid than P. topsenti sp.nov. The three species have the same ecological distribution, but are generally not found together in the same area. In our experience on the French coasts of the NW Mediterranean, the species most commonly found in the Marseille area is P. topsenti sp.nov., whereas P. fictitius is more common in Port-Cros and H. hamigera in Banyuls. The present cytological study shows that P. topsenti sp.nov. and H. hamigera are closely related, having similar vacuolar and spherulous cells, including crystal-like nuclear inclusion, and similar spiral-shaped bacteria (Boury-Esnault 1972, 1976). These bacteria have been rarely observed in other sponges, but resemble to a greater or lesser extent those described in Grantia compressa (Vacelet & Donadey 1977), in Clathrina cerebrum (Burlando et al. 1988), and in Halisarca dujardini (Ereskovsky et al. 2005), which have no relationship with these poecilosclerids.

Other

Published as part of Vacelet, Jean & Perez, Thierry, 2008, Phorbas topsenti and Phorbas tailliezi (Demospongiae, Poecilosclerida), new names for the Mediterranean ' Phorbas paupertas ' and ' Phorbas coriaceus ', pp. 26-38 in Zootaxa 1873 on pages 27-30, DOI: 10.5281/zenodo.184048

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Linked records

Additional details

Biodiversity

Family
Hymedesmiidae
Genus
Phorbas
Kingdom
Animalia
Order
Poecilosclerida
Phylum
Porifera
Species
topsenti
Taxonomic status
sp. nov.
Taxon rank
species
Taxonomic concept label
Phorbas topsenti Vacelet & Perez, 2008

References

  • Topsent, E. (1934) Etudes d'eponges littorales du Golfe de Gabes. Bulletin de la Station d'Aquiculture et de Peche de Castiglione, 1932, 71 - 102.
  • Topsent, E. (1936) Eponges observees dans les parages de Monaco (Deuxieme Partie). Bulletin de l'Institut oceanographique de Monaco, 686, 1 - 70.
  • Boury-Esnault N. (1971) Spongiaires de la zone rocheuse de Banyuls-sur-Mer. II. Systematique. Vie et Milieu, 22, 287 - 350.
  • Pansini, M. (1987) Littoral demosponges from the banks of the strait of Sicily and the Alboran sea. In Vacelet J. & Boury-Esnault N. (eds), Taxonomy of Porifera from the N. E. Atlantic and Mediterranean Sea. Springer-Verlag, Berlin Heidelberg, 149 - 185.
  • Maldonado, M. (1993) Demosponjas litorales de Alboran. Faunistica y biogeografia. Thesis (Memoria), Universidad Central de Barcelona, 496 p.
  • Carballo, J. L. (1994) Taxonomia, zoogeografia y autoecologia de los Poriferos del Estrecho de Gibraltar. Thesis, Sevilla, 334 p.
  • Pulitzer-Finali, G. (1983) A collection of Mediterranean Demospongiae (Porifera) with, in appendix, a list of the Demospongiae hitherto recorded from the Mediterranean Sea. Annali del Museo civico di Storia naturale di Genova, 84, 445 - 621.
  • De Vos, L., Rutzler, K., Boury-Esnault, N., Donadey, C. & Vacelet, J. (1991) Atlas de morphologie des Eponges - Atlas of sponge morphology, Smithsonian Institution Press, Washington, 117 pp.
  • Cristobo, F. J., Urgorri, V. & Rios, P. (1998) Redescripcion y caracterizacion ecologica de dos especies del genero Hymedesmia (Porifera, Poecilosclerida) procedentes de las costas de Galicia (NW de la Peninsula Iberica). Nova Acta Cientifica Compostelana (Bioloxia), 8, 175 - 186.
  • van Soest, R. W. M., Picton, B. E. & Morrow, C. C. (2000) Sponges of the North East Atlantic. World Biodiversity Database, Biodiversity Center of ETI, CD-ROM Series, Springer-Verlag, Heidelberg.
  • Boury-Esnault, N. (1972) Une structure inhalante remarquable des spongiaires: le crible. Etude morphologique et cytologique. Archives de Zoologie experimentale et generale, 113, 7 - 23.
  • Boury-Esnault, N. (1976) Ultrastructure de la larve parenchymella d' Hamigera hamigera (Schmidt) (Demospongiae, Poecilosclerida). Origine des cellules grises. Cahiers de Biologie marine, 17, 9 - 20.
  • Vacelet, J. & Donadey, C. (1977) Electron microscope study of the association between some sponges and bacteria. Journal of experimental marine Biology and Ecology, 30, 301 - 314.
  • Burlando, B., Sabatini, M. A. & Gaino, E. (1988) Association between calcareous Clathrina cerebrum (Haeckel) and bacteria: Electron microscope study. Journal of experimental marine Biology and Ecology, 116, 35 - 42.
  • Ereskovsky, A. V., Gonobobleva, E. & Vishnyakov, A. (2005) Morphological evidence for vertical transmission of symbiotic bacteria in the viviparous sponge Halisarca dujardini Johnston (Porifera, Demospongiae, Halisarcida). Marine Biology, 146, 869 - 875.