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Biodiversity of transitional waters: species composition and comparative analysis of hard bottom communities from the south-eastern Italian coast

Published online by Cambridge University Press:  08 October 2013

Frine Cardone ,
Giuseppe Corriero ,
Alessandra Fianchini ,
Maria Flavia Gravina  and
Carlotta Nonnis Marzano
Frine Cardone
Affiliation:
Dipartimento di Biologia, Università degli Studi di Bari, Bari, Italy
Giuseppe Corriero
Affiliation:
Dipartimento di Biologia, Università degli Studi di Bari, Bari, Italy
Alessandra Fianchini
Affiliation:
Dipartimento di Biologia, Università di Roma ‘Tor Vergata’, Roma, Italy
Maria Flavia Gravina
Affiliation:
Dipartimento di Biologia, Università di Roma ‘Tor Vergata’, Roma, Italy
Carlotta Nonnis Marzano*
Affiliation:
Dipartimento di Biologia, Università degli Studi di Bari, Bari, Italy
*
Correspondence should be addressed to: C. Nonnis Marzano, Dipartimento di Biologia, Università degli Studi di Bari Aldo Moro, via Orabona 4, 70125, Bari, Italy. email: carlotta.nonnismarzano@uniba.it
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Abstract

Numerous studies have focused on the soft bottom macrozoobenthos from Mediterranean transitional environments, pointing out a correlation between the variation in environmental parameters and changes occurring in benthic communities. Less attention has been paid to the study of hard bottom organisms settling on both natural and artificial substrates usually present within the basins and often constituting peculiar communities. The ecological role of such communities is remarkable, since they often reach high values of species richness and include bioconstructor organisms able to build true reefs. These reefs can strongly impact the environment, improving biodiversity through the increase of spatial heterogeneity. The present work aims to supplement new faunistic data on five lagoon systems of the south-eastern Italian coast, integrating the still fragmentary knowledge of their macrozoobenthos through the study of hard substrate communities. Sampling was performed on hard substrates colonized by complex benthic communities. The assemblages recorded were then compared in the light of the study sites’ main ecological traits. Our data highlighted the occurrence of a rich benthic macrofauna, with 100 taxa found. This markedly increases the value of species richness reported in the literature for the macrozoobenthos of the study sites. In particular, the species list provided for the Ugento Basins was the first ever compiled for this site. In spite of their geographical proximity, the investigated sites, according to their diverse environmental conditions, showed substantial differences as regards their respective macrozoobenthic communities.

Keywords

biodiversitytransitional watershard substratemacrozoobenthosItalian coastMediterranean Sea
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 94 , Issue 1 , February 2014 , pp. 25 - 34
Copyright
Copyright © Marine Biological Association of the United Kingdom 2013 

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References

REFERENCES

Barnes, R.S.K. (1994) A critical-appraisal of the application of Guélorget and Perthuisot's concepts of the paralic ecosystem and confinement to microtidal Europe. Estuarine, Coastal and Shelf Science 38, 4148.CrossRefGoogle Scholar
Basset, A., Cenci, R.M., Ravera, O., Musmeci, L., Pinna, M., Vignes, F., Fiocca, A., Sangiorgio, F., Negro, O., Tulipano, M., Zonno, V., Scordella, G., Silvestri, C., Ottolenghi, F., Giordano, P., De Vito, G. and Cairo, V. (2003) Analisi dei fattori perturbativi alla base delle morie ittiche nei Bacini di Ugento (Lecce) e definizione dei modelli procedurali di gestione dei canali. Brussels: European Community Publication EUR 20692 IT, 144 pp.Google Scholar
Basset, A., Sabetta, L., Fonnesu, A., Mouillot, D., Do Chi, D., Viaroli, P., Giordani, G., Reizopoulou, S., Abbiati, M. and Carrada, G.C. (2006) Typology in Mediterranean transitional waters: new challenges and perspectives. Aquatic Conservation: Marine and Freshwater Ecosystems 16, 441455.CrossRefGoogle Scholar
Battaglia, B. (1959) Final resolution of the symposium on the classification of brackish waters. Archo Oceanography Limnology 11, 243248.Google Scholar
Bianchi, C.N. (1981) Guide per il riconoscimento delle specie animali delle acque lagunari e costiere italiane. Policheti serpuloidei. Roma: CNR, AQ/1/96, 5, 187 pp.Google Scholar
Bianchi, C.N. and Morri, C. (1996) Ficopomatus ‘reefs’ in the Po river delta (Northern Adriatic): their constructional dynamics, biology and influences on the brackish-water biota. PSZNI Marine Ecology 17, 5166.CrossRefGoogle Scholar
Borja, A. and Dauer, D.M. (2008) Assessing the environmental quality status in estuarine and coastal systems: comparing methodologies and indices. Ecological Indicators 8, 331337.CrossRefGoogle Scholar
Borja, A., Elliott, M., Henriksen, P. and Marbà, N. (2013) Transitional and coastal waters ecological status assessment: advances and challenges resulting from implementing the European Water Framework Directive. Hydrobiologia 704, 213229.CrossRefGoogle Scholar
Borja, A., Franco, J. and Perez, V. (2000) A marine biotic index to establish the ecological quality of soft-bottom benthos within European estuarine and coastal environments. Marine Pollution Bulletin 40, 11001114.CrossRefGoogle Scholar
Borja, A., Muxica, I. and Franco, J. (2003) The application of a Marine Biotic Index to different impact sources affecting soft-bottom benthic communities along European coasts. Marine Pollution Bulletin 46, 835845.CrossRefGoogle ScholarPubMed
Cardone, F. (2009) Bioindicatori bentonici in ambienti di transizione costieri mediterranei. PhD thesis. University of Bari, Italy.Google Scholar
Clarke, K.R. and Warwick, R.M. (2001) Change in marine communities: an approach to statistical analysis and interpretation. Plymouth: Plymouth Marine Laboratory, 144 pp.Google Scholar
Cocito, S. (2004) Bioconstruction and biodiversity: their mutual influence. Scientia Marina 68, 137144.CrossRefGoogle Scholar
Colwell, R.K. and Coddington, J.A. (1994) Estimating terrestrial biodiversity through extrapolation. Philosophical Transactions of the Royal Society of London Series B, Biological Sciences 345, 101118.Google ScholarPubMed
Corriero, G., Longo, C., Mercurio, M., Marchini, A. and Occhipinti-Ambrogi, A. (2007) Benthic taxocoenoses on artificial hard-bottoms in the Venice lagoon: spatial distribution and temporal changes in the northern basin. Italian Journal of Zoology 74, 2129.CrossRefGoogle Scholar
Denitto, F., Moscatello, S., Palmisano, P., Poto, M. and Onorato, R. (2006) Novità speleologiche, idrologiche e naturalistiche dalla Palude del Capitano (pSIC IT9150013), costa neretina (LE). Thalassia Salentina 29(Supplement), 99116.Google Scholar
European Commission (2000) Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy. Official Journal of the European Communities 43(L327), 175.Google Scholar
Florio, M., Breber, P., Scirocco, T., Specchiulli, A., Cilenti, L. and Lumare, L. (2008) Exotic species in Lesina and Varano lakes: Gargano National Park (Italy). Transitional Waters Bulletin 2, 6979.Google Scholar
Galuppo, N., Maci, S., Pinna, M. and Basset, A. (2007) Habitat types and distribution of benthic macroinvertebrates in a transitional water ecosystem: Alimini Grande (Puglia, Italy). Transitional Waters Bulletin 4, 919.Google Scholar
Giangrande, A. and Rubino, F. (1994) I policheti dello stagno salmastro di Acquatina: problematiche della dispersione nelle specie lagunari. Thalassia Salentina 20, 7791.Google Scholar
Guélorget, O. and Perthuisot, J.P. (1983) Le confinement, paramètre essentiel de la dynamique biologique du domaine paralique. Sciences Géologiques Bulletin 14, 2534.Google Scholar
Holligan, P.M. and Reiners, W.A. (1992) Predicting the responses of the coastal zone to global change. Advances in Ecological Research 22, 211255.CrossRefGoogle Scholar
ICRAM (2007) Guida alla tipizzazione dei corpi idrici di transizione ed alla definizione delle condizioni di riferimento ai sensi della direttiva 200/60/CE. El-Pr-TW-Tipizzazione_Condizioni di Riferimento-01.01. 58 pp.Google Scholar
Legendre, L. and Legendre, P. (1984) Ecologie numérique. 2. La structure des données écologiques. Paris: Masson, 335 pp.Google Scholar
Lewin, R. (1986) Supply-side ecology. Science 234, 2527.CrossRefGoogle ScholarPubMed
Mancinelli, G., Sabetta, L. and Basset, A. (2005) Short-term patch dynamics of macroinvertebrate colonization on decaying reed detritus in a Mediterranean lagoon (Lake Alimini Grande, Apulia, SE Italy). Marine Biology 148, 271283.CrossRefGoogle Scholar
Mastrototaro, F., Matarrese, A. and D'Onghia, G. (2003) Occurrence of Arcuatula senhousia (Mollusca, Bivalvia) in the Taranto seas (Eastern-Central Mediterranean Sea). Journal of the Marine Biological Association of the United Kingdom 83, 12791280.CrossRefGoogle Scholar
Mistri, M., Fano, E.A., Rossi, G., Caselli, K. and Rossi, R. (2000) Variability in macrobenthos communities in the Valli di Comacchio, Northern Italy, a hypereutrophized lagoonal ecosystem. Estuarine, Coastal and Shelf Science 51, 599611.CrossRefGoogle Scholar
Munari, C. and Mistri, M. (2008) Biodiversity of soft-sediment benthic communities from Italian transitional waters. Journal of Biogeography 35, 16221637.CrossRefGoogle Scholar
Nonnis Marzano, C., Baldacconi, R., Fianchini, A., Gravina, F. and Corriero, G. (2007) Settlement seasonality and temporal changes in hard substrate macrozoobenthic communities of Lesina Lagoon (Apulia, Southern Adriatic Sea). Chemistry and Ecology 6, 479491.CrossRefGoogle Scholar
Nonnis Marzano, C., Romanazzi, V., Mercurio, M., Longo, C., Gherardi, M., Panetta, P., Scalera Liaci, L. and Corriero, G. (2002) Composizione tassonomica e distribuzione del macrobenthos della laguna di Lesina: valutazione critica della bibliografia e aggiornamento dei dati. Biologia Marina Mediterranea 9, 533537.Google Scholar
Nonnis Marzano, C., Scalera Liaci, L., Fianchini, A., Gravina, F., Mercurio, M. and Corriero, G. (2003) Distribution, persistence and change in the macrobenthos of the lagoon of Lesina (Apulia, southern Adriatic Sea). Oceanologica Acta 26, 5766.CrossRefGoogle Scholar
Occhipinti-Ambrogi, A., Birkemeyer, T. and Sacchi, C.F. (1998) Indicatori ambientali in laguna di Venezia: proposta di una classificazione basata sulle comunità sessili. In Bon, M., Sburlino, G. and Zuccarello, V. (eds) Aspetti ecologici e naturalistici dei sistemi lagunari e costieri. Venice: Arsenale Editrice, (Suppl. Bollettino del Musco Civico di Storia Naturale di Venezia 49), pp. 227283.Google Scholar
Panetta, P., Matarrese, A. and Maiorano, P. (1997) Distribuzione dei molluschi nei laghi Alimini. Biologia Marina Mediterranea 4, 413416.Google Scholar
Pérès, J.M. and Picard, J. (1964) Nouveau manuel de bionomie benthique de la Méditerranée. Recueil des Travaux de la Station Marine d'Endoume 31(47), 137.Google Scholar
Piscitelli, G., Scardi, M., Barone, G. and Scalera Liaci, L. (2001) Popolamenti bentonici di fondo mobile della laguna di Varano: analisi di un ciclo annuale di osservazioni. Biologia Marina Mediterranea 8, 551557.Google Scholar
Reizopoulou, S. and Nicolaidou, A. (2004) Benthic diversity of coastal brackish-water lagoons in western Greece. Aquatic Conservation: Marine and Freshwater Ecosystems 14, 93102.CrossRefGoogle Scholar
Roselli, L., Fabbrocini, A., Manzo, C. and D'Adamo, R. (2009) Hydrological heterogeneity, nutrient dynamics and water quality of a non-tidal lentic ecosystem (Lesina Lagoon, Italy). Estuarine, Coastal and Shelf Science 84, 539552.CrossRefGoogle Scholar
Rossi, L. and Costantini, M.L. (2000) Mapping intra-habitat variation of leaf mass loss rate in a brackish Mediterranean lake. Marine Ecology Progress Series 203, 145159.CrossRefGoogle Scholar
Sconfietti, R. (1989) Ecological zonation and dynamics of hardbottom peracarid communities along the lagoon estuary of the river Dese (Lagoon of Venice, Northern Adriatic Sea). Rivista di Idrobiologia 28, 331.Google Scholar
Sconfietti, R., Marchini, A., Occhipinti-Ambrogi, A. and Sacchi, C.F. (2003) The sessile benthic community patterns on hard bottoms in response to continental vs marine influence in northern Adriatic lagoons. Oceanologica Acta 26, 4756.CrossRefGoogle Scholar
Sfriso, A. and Marcomini, A. (1999) Macrophyte production in a shallow coastal lagoon. Part II. Coupling with sediment, SPM and tissue carbon, nitrogen and phosphorus concentrations. Marine Environmental Research 47, 285309.CrossRefGoogle Scholar
Simboura, N. and Zenetos, A. (2002) Benthic indicators to use in ecological quality classification of Mediterranean soft bottom marine ecosystems, including a new Biotic Index. Mediterranean Marine Science 3/ 2, 77111.CrossRefGoogle Scholar
Specchiulli, A., Focardi, S., Renzi, M., Scirocco, T., Cilenti, L, Breber, P. and Bastinoni, S. (2008) Environmental heterogeneity patterns and assessment of trophic levels in two Mediterranean lagoons: Orbetello and Varano, Italy. Science of the Total Environment 402, 285298.CrossRefGoogle ScholarPubMed
Vadrucci, M.R., Fiocca, A., Negro, O., Sangiorgio, F., Semeraro, A. and Basset, A. (2001) Lake Alimini Grande, Lecce. In Dupra, V., Smith, S.V., Marshall Crossland, J.I. and Crossland, C.J. (eds) Coastal and estuarine systems of the Mediterranean and Black Sea regions: carbon, nitrogen and phosphorus fluxes. Texel: LOICZ Reports & Studies, 19, pp. 5560.Google Scholar
Zaret, T.M. (1982) The stability–diversity controversy: a test of hypotheses. Ecology 116, 394408.Google Scholar