Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-19T15:19:23.709Z Has data issue: false hasContentIssue false

Deep sponge communities of the Gulf of St Eufemia (Calabria, southern Tyrrhenian Sea), with description of two new species

Published online by Cambridge University Press:  30 October 2013

M. Bertolino*
Affiliation:
Università degli Studi di Genova, Corso Europa, Genova, Italy
M. Bo
Affiliation:
Università degli Studi di Genova, Corso Europa, Genova, Italy
S. Canese
Affiliation:
ISPRA, Via Vitaliano Brancati, 00144 Rome, Italy
G. Bavestrello
Affiliation:
Università degli Studi di Genova, Corso Europa, Genova, Italy
M. Pansini
Affiliation:
Università degli Studi di Genova, Corso Europa, Genova, Italy
*
Correspondence should be addressed to: M. Bertolino, DISTAV, Università degli Studi di Genova, Corso Europa 26, 16132, Genoa, Italy email: [email protected]

Abstract

Recently, the rich coral communities of the so called roche du large biocoenose of the Gulf of St Eufemia (southern Tyrrhenian Sea) between 90 and 130 m deep, have been described thanks to remotely operated vehicle (ROV) imaging. This preliminary survey evidenced the massive presence of a well-diversified sponge community living among the coral colonies. This work aims at giving an ecological overview of some of the dominant species of this environment, together with a taxonomic part including the description of new species: Topsentia calabrisellae sp. nov. and Haliclona (Soestella) fimbriata sp. nov. The silted, rocky outcrops of the Gulf of St Eufemia facilitate the settling mainly of massive sponges with erect habit which may also avoid sedimentation by growing on the coral colonies. On the other hand, the site Capo Vaticano, located at the southern boundary of the gulf, characterized by rocky boulders exposed to strong currents and completely devoid of corals, is inhabited by a poor megabenthic community, dominated by patches of massive sponges, such as Topsentia vaceleti, a species of recent description whose aspect in the field was still unknown. In the entire investigated area 19 species have been photographed (often for the first time in vivo), collected and identified, but the real sponge diversity is certainly under-estimated due to the difficulty of collecting all the sighted specimens through the ROV grabber. Similarly to the coral component, sponges also respond to the same environmental constraints by growing in heterogeneous patches or by showing different morphologies mainly associated with current and sedimentation conditions.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2013 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Beuck, L., Freiwald, A. and Taviani, M. (2010) Spatiotemporal bioerosion patterns in deep-water scleractinians from off Santa Maria di Leuca (Apulia, Ionian Sea). Deep Sea Research II 57, 458470.CrossRefGoogle Scholar
Bibiloni, M.A. (1993) Some new or poorly known sponges of the Balearic Islands (western Mediterranean). In Uriz, M.-J. and Rützler, K. (eds) Recent advances in ecology and systematics of sponges. Scientia Marina 57, 307318.Google Scholar
Bo, M., Bertolino, M., Borghini, M., Castellano, M., Covazzi, Harriague A., Di Camillo, C.G., Gasparini, G.P., Misic, C., Povero, P., Pusceddu, A., Schroeder, K. and Bavestrello, G. (2011) Characteristics of the mesophotic megabenthic assemblages of the Vercelli Seamount (North Tyrrhenian Sea). PLoS ONE 6(2), e16357. doi:10.1371/journal.pone.0016357.CrossRefGoogle ScholarPubMed
Bo, M., Bertolino, M., Bavestrello, G., Canese, S., Giusti, M., Angiolillo, M., Pansini, M. and Taviani, M. (2012a) Role of deep sponge grounds in the Mediterranean Sea: a case study in southern Italy. Hydrobiologia 687, 163177.CrossRefGoogle Scholar
Bo, M., Canese, S., Spaggiari, C., Pusceddu, A., Bertolino, M., Angiolillo, M., Giusti, M., Loreto, M.F., Salvati, E., Greco, S. and Bavestrello, G. (2012b) Deep coral oases in the South Tyrrhenian Sea. PLoS ONE 7(11), e49870. doi:10.1371/journal.pone.0049870.CrossRefGoogle ScholarPubMed
Freiwald, A., Beuck, L., Rüggeberg, A., Taviani, M. and Hebbeln, D. (2009) The white coral community in the central Mediterranean Sea revealed by ROV surveys. Oceanography 22, 5874.CrossRefGoogle Scholar
Griessinger, J.M. (1971) Etude des Réniérides de Méditerranée (Démosponges Haplosclérides). Bulletin du Muséum national d'Histoire Naturelle de Paris (3, Zoologie) 3, 97182.Google Scholar
Kefalas, E. and Castritsi-Catharios, J. (2012) A new species of Halichondriidae, Topsentia vaceleti n. sp. (Halichondrida, Demospongiae, Porifera), collected from coralligenous bottoms of the Aegean Sea. Zootaxa 3314, 5868.CrossRefGoogle Scholar
Le Pera, E. and Critelli, S. (1997) Sourceland controls on the composition of beach and fluvial sand of the northern Tyrrhenian coast of Calabria, Italy: implications for actualistic petrofacies. Sedimentary Geology, 110, 8197.CrossRefGoogle Scholar
Lévi, C. (1957) Spongiaires des côtes d'Israel. Bulletin of the Research Council of Israel 6B, 201212.Google Scholar
Longo, C., Mastrototaro, F. and Corriero, G. (2005) Sponge fauna associated with a Mediterranean deep-sea coral bank. Journal of the Marine Biological Association of the United Kingdom 85, 13411352.CrossRefGoogle Scholar
Pansini, M. (1987) Littoral demosponges from the banks of the Strait of Sicily and the Alboran Sea. In Vacelet, J. and Boury-Esnault, N. (eds) Taxonomy of Porifera from the N.E. Atlantic and Mediterranean Sea. (Berlin, Heidelberg: Springer), NATO ASI Series G 13, pp. 149185.CrossRefGoogle Scholar
Pansini, M. and Musso, B. (1991) Sponges from trawl-exploitable bottoms of Ligurian and Tyrrhenian Seas: distribution and ecology. PSZNI: Marine Ecology 12, 317329.Google Scholar
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 Giacomo Doria 84, 445621.Google Scholar
Schmidt, O. (1868) Die Spongien der Küste von Algier. Mit Nachträgen zu den Spongien des Adriatischen Meeres (Drittes Supplement). Leipzig: Wilhelm Engelmann, pp. iiv, 1–44, pls I–V.Google Scholar
Soest, R.W.M. Van, Boury-Esnault, N., Hooper, J.N.A., Rützler, K., de Voogd, N.J., Alvarez de Glasby, B., Hajdu, E., Pisera, A.B., Manconi, R., Schoenberg, C., Janussen, D., Tabachnick, K.R., Klautau, M., Picton, B., Kelly, M., Vacelet, J., Dohrmann, M. and Cristina Díaz, M. (2013) World Porifera database. Available at http://www.marinespecies.org/porifera (accessed 2 October 2013).Google Scholar
Taviani, M. and Angeletti, L. (2009) Un giardino sepolto nel Mar Adriatico. Darwin 32, 7481.Google Scholar
Topsent, E. (1892) Diagnoses d’éponges nouvelles de la Méditerranée et plus particulièrement de Banyuls. Archives de Zoologie Expérimentale et Génèrale (2)10 (Notes et Revue 6), xviixxviii.Google Scholar
Topsent, E. (1901) Considérations sur la faune des spongiaires des côtes d'Algérie. Eponges de La Calle. Archives de Zoologie Expérimentale et Génèrale (3)9, 327370.Google Scholar
Topsent, E. (1934) Eponges observées dans les parages de Monaco (Première Partie). Bulletin de l'Institut Océanographique, Monaco 650, 142.Google Scholar
Topsent, E. (1938) Contribution nouvelle à la connaissance des Eponges des côtes d'Algérie. Les espèces nouvelles d'O. Schmidt, 1868. Bulletin de l'Institut Océanographique, Monaco 758, 132.Google Scholar
Tsurnamal, M. (1969) Four new species of Mediterranean Demospongiae and new data on Callites lacazii Schmidt. Cahiers de Biologie Marine 10, 343357.Google Scholar
Uriz, M.J. (1978) Contribución a la fauna de esponjas (Demospongia) de Cataluna e islas Baleares. (Mediterraneo occidental). Miscellània Zoològica 11, 291308.Google Scholar
Vacelet, J. (1961) Spongiaires (Démosponges) de la région de Bonifacio (Corse). Recueil des Travaux de la Station Marine d'Endoume 22(36), 2145.Google Scholar
Vacelet, J. (1969) Eponges de la Roche du Large et de l'étage bathyal de Méditerranée (Récoltes de la soucoupe plongeante Cousteau et dragages). Mémoires du Muséum national d'Histoire naturelle (A, Zoologie) 59, 145219.Google Scholar
Vaissière, R. and Carpine, C. (1964) Contribution à l’étude bionomique de la Méditerranée occidentale (Côte du Var et des Alpes maritimes; Côte occidentale de Corse). Compte-rendu de plongées en soucoupe plongeante SP 300 (Région A1: Cap Camarat-St Tropez)—Fascicule 4. Bulletin de l'Institut Océanographique, Monaco 63(1314), 132.Google Scholar
Vertino, A., Savini, A., Rosso, A., Di Geronimo, I., Mastrototaro, F., Sanfilippo, R., Gay, G. and Etiope, G. (2010) Benthic habitat characterization and distribution from two representative sites of the deep- water SML Coral Mound Province (Mediterranean). Deep-Sea Research II 57, 380396.CrossRefGoogle Scholar
de Weerdt, W.H. and van Soest, R.W.M. (1986) Marine shallow-water Haplosclerida (Porifera) from the south-eastern part of the North Atlantic Ocean. Zoologische Verhandelingen 225, 149.Google Scholar
Supplementary material: Image

Bertolino et al. Supplementary Material

Figure

Download Bertolino et al. Supplementary Material(Image)
Image 13.1 MB