Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T06:27:46.789Z Has data issue: false hasContentIssue false
  • English
  • Français

Spatio-temporal variability of zoobenthic communities in a tectonic lagoon (Lake Vouliagmeni, Attika, Greece)

Published online by Cambridge University Press:  25 July 2008

Chariton Chintiroglou ,
Chryssanthi Antoniadou  and
Panagiotis Damianidis
Chariton Chintiroglou*
Affiliation:
Aristotle University, School of Biology, Department of Zoology, Thessaloniki, Greece, Gr 54 124
Chryssanthi Antoniadou
Affiliation:
Aristotle University, School of Biology, Department of Zoology, Thessaloniki, Greece, Gr 54 124
Panagiotis Damianidis
Affiliation:
Aristotle University, School of Biology, Department of Zoology, Thessaloniki, Greece, Gr 54 124
*
Correspondence should be addressed to: Chariton ChintiroglouAristotle University, School of Biology Department of Zoology, Thessaloniki, Greece, Gr 54 124 email: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Lake Vouliagmeni (Attica, Greece) is a lagoon of great scientific interest due to its endemic fauna, widely used for recreational activities. Understanding the dynamics of this peculiar ecosystem is essential for its conservation. An ecological survey of the benthic communities was carried out, in both spatial and temporal scales. Material was collected with SCUBA diving, by taking off samples from the principal habitats of the lagoon, i.e. meadows, soft and hard substrata. The identification of the collected 61,975 living specimens revealed the presence of 12 floral and 20 faunal species. Multivariate analyses separated the sampling sites according to the four different habitats of the lagoon, whereas no temporal patterns came up. Micrograzers were the dominant trophic group, followed by deposit feeders regardless of the habitat studied. Lake Vouliagmeni is among the less diverse Mediterranean lagoons, mostly due to its isolation from the sea that hinders the entrance of marine species.

Keywords

spatio-temporal variabiltyzoobenthic communitiestectonic lagoonLake VouliagmeniAttikaGreece
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 88 , Issue 5 , August 2008 , pp. 873 - 881
Copyright
Copyright © Marine Biological Association of the United Kingdom 2008

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

Antoniadou, C. and Chintiroglou, C. (2005) Biodiversity of zoobenthic hard-substrate sublittoral communities in the Eastern Mediterranean (North Aegean Sea). Estuarine, Coastal and Shelf Science 62, 637653.CrossRefGoogle Scholar
Antoniadou, C., Krestenitis, Y. and Chintiroglou, C. (2004) Structure of the ‘Amphioxus sand’ community in Thermaikos Bay (Eastern Mediterranean). Fresenius Environmental Bulletin 13, 11221128.Google Scholar
Arias, A.M. and Drake, P. (1994) Structure and production of the benthic macroinvertebrate community in a shallow lagoon in the Bay of Cádiz. Marine Ecology Progress Series 115, 151167.Google Scholar
Arvanitidis, C., Chatzigeorgiou, G., Koutsoubas, D., Kevrekidis, T., Dounas, C., Eleftheriou, A., Koulouri, P. and Mogias, A. (2005) Estimating lagoonal biodiversity in Greece: comparison of rapid assessment techniques. Helgoland Marine Research 59, 177186.Google Scholar
Barnes, R.S.K. (1980) Coastal lagoons. The natural history of a neglected habitat. Cambridge: Cambridge University Press. Cambridge Studies in Modern Biology, No. 1.Google Scholar
Barnes, R.S.K. (1994) Macrofaunal community structure and life histories in coastal lagoons. In Kjerfve, B. (ed.) Coastal lagoon processes. Amsterdam: Elsevier Oceanography Series No. 60, pp. 311362.CrossRefGoogle Scholar
Bazairi, H., Bayed, A., Glemarec, M. and Hily, C. (2003) Spatial organisation of macrozoobenthic communities in response to environmental factors in a coastal lagoon of the NW African coast (Merja Zerga, Morocco). Oceanologica Acta 26, 457471.CrossRefGoogle Scholar
Bianchi, C.N., Boero, F., Forti, S. and Morri, C. (1994) La Pallude del Capitano: un ambiente salmastro costiero della peninsola salentina di interesse idrobiologico e speleologico. Istituto Italiano di Speleologia Memoria 6, 99106.Google 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
Chintiroglou, C.C., Valkouma, T. and Culley, M. (1996) Biological studies in Athens Lake Vouliagmeni. I. The allometry of feeding and body size in a population of the sea anemone Paranemonia vouliagmeniensis Doumenc et al. 1987 (Actiniaria: Anthozoa). Journal of the Marine Biological Association of the United Kingdom 76, 603616.Google Scholar
Chintiroglou, C.C., Antoniadou, C. and Damianidis, P. (2000) Spatial dispersion and density of the Paranemonia vouliagmeniensis population in Vouliagmeni Lagoon. Journal of the Marine Biological Association of the United Kingdom 80, 941942.CrossRefGoogle Scholar
Chintiroglou, C.C., Antoniadou, C., Damianidis, P. and Diapoulis, A. (2004) Contribution to the knowledge of the macrobenthic biodiversity of Vouliagmeni Lagoon (Attica, Greece). Rapport de la Commission International pour l'Exploration de la Mer Méditerranée 37, 506–506.Google Scholar
Chrystomanos, A. (1889) Chemical analysis of the curing waters of Vouliagmeni lake. Athens: University of Athens.Google Scholar
Clarke, K.R. and Green, R.H. (1988) Statistical design and analysis for biological effects study. Marine Ecology Progress Series 46, 213226.Google Scholar
Clarke, K.R. and Warwick, R.M. (1994) Change in marine communities: an approach to statistical analysis and interpretation. Plymouth: Plymouth Marine Laboratory.Google Scholar
Cognetti, G. and Maltagliatti, F. (2000) Biodiversity and adaptive mechanisms in brackish water fauna. Marine Pollution Bulletin 40, 714.Google Scholar
Diapoulis, A. and Koussouris, T. (1988) Classification and biogeographical affinities of marine algae in the Ionian Sea. Rapport de la Commission International pour l'Exploration de la Mer Méditerranée 31, 911.Google Scholar
Doumenc, D., England, K.W. and Chintiroglou, C. (1987) A new species of sea-anemone in the genus Paranemonia Carlgren (Anthozoa, Actiniaria) from the Aegean Sea. Zoologica Scripta 16, 271275.CrossRefGoogle Scholar
Dounas, C., Koutsoubas, D., Arvanitidis, C., Petihakis, G., Drummond, L. and Eleftheriou, A. (1998) Biodiversity and the impact of anthropogenic activities in Mediterranean lagoons: the case of Gialova Lagoon, SW Greece. Oebalia 24, 7791.Google Scholar
Fauchald, K. and Jumars, P. (1979) The diet of worms: a study of polychaete feeding guilds. Oceanography and Marine Biology: an Annual Review 17, 193284.Google Scholar
Folk, R.L., Andrews, P.B. and Lewis, D.W. (1970) Detrital sedimentary rock classification and nomenclature for use in N. Zealand. New Zealand Journal of Geology and Geophysics 13, 937968.Google Scholar
Gee, G.W. and Bauder, J.W. (1986) Particle-size analysis. In Klute, A. (ed.) Methods of soil analysis. Part 1 Madison, USA: American Society of Agronomy, Agronomy Monographs 9, pp. 383411.Google Scholar
Gontikaki, E., Antoniadou, C. and Chintiroglou, C.C. (2003) Population structure of Cerastoderma glaucum and Abra ovata in Vouliagmeni Lagoon (Attiki). Journal of the Marine Biological Association of the United Kingdom 83, 10951097.CrossRefGoogle Scholar
Graham, A. 1988. Molluscs: prosobranch and pyramidellid gastropods. Synopses of the British fauna (New Series), 2nd edition. Leiden: Brill/Backhuys.Google Scholar
Guelorget, O. and Perthuisot, J.P. (1992) Paralic ecosystems biological organization and functioning. Vie et Milieu 42, 215251.Google Scholar
Hily, C. and Bouteille, M. (1999) Modifications of the specific and feeding guild diversity in an intertidal sediment colonised by an eelgrass meadow (Zostera marina) (Brittany, France). C.R. Académie de Science Paris. Sciences de la vie/Life Sciences 322, 11211131.Google Scholar
Karalis, P., Antoniadou, C. and Chintiroglou, C. (2003) Structure of the artificial hard substrate assemblages in ports in Thermaikos Gulf (North Aegean Sea). Oceanologica Acta 26, 215224.CrossRefGoogle Scholar
Kourelea, E., Vafidis, D., Chintiroglou, C.C., Trontsios, G. and Chicharo, L. (2004) Temporal variations in fine sand assemblages in the North Aegean Sea (Eastern Mediterranean). International Review of Hydrobiology 89, 175187.CrossRefGoogle Scholar
Koutsoubas, D., Arvanitidis, C., Dounas, C. and Drummond, L. (2000) Community structure and dynamics of the molluscan fauna in a Mediterranean lagoon (Gialova lagoon, SW Greece). Belgian Journal of Zoology 130, 135142.Google Scholar
Malea, P., Kevrekidis, T. and Mogias, A. (2004) Annual versus perennial growth cycle in Ruppia maritima L.: temporal variation in population characteristics in Mediterranean lagoons (Monolimni and Drana Lagoons, Northern Aegean Sea). Botanica Marina 47, 357366.Google Scholar
Marchini, A., Gauzer, K. and Occhipinti-Ambrogi, A. (2004) Spatial and temporal variability of hard-bottom macrofauna in a disturbed coastal lagoon (Sacca di Goro, Po River Delta, Northwestern Adriatic Sea). Marine Pollution Bulletin 48, 10841095.CrossRefGoogle Scholar
Millet, B. and Guelorget, O. (1994) Spatial and seasonal variability in the relationships between benthic communities and physical environment in a lagoon ecosystem. Marine Ecology Progress Series 108, 161–74.CrossRefGoogle Scholar
Mistri, M. (2002) Persistence of benthic communities: a case study from the Valli di Comacchio, a Northern Adriatic lagoonal ecosystem (Italy). ICES Journal of Marine Science 59, 314322.Google Scholar
Mogias, A. and Kevrekidis, T. (2005) Macrozoobenthic community structure in a poikilohaline Mediterranean lagoon (Laki Lagoon, northern Aegean). Helgoland Marine Research 59, 167176.CrossRefGoogle Scholar
Nicolaidou, A., Bourgoutzani, F., Zenetos, A., Guelorget, O. and Perthuisot, J.P. (1988) Distribution of molluscs and polychaetes in coastal lagoons in Greece. Estuarine, Coastal and Shelf Science 26, 337350.Google Scholar
Papapetrou-Zamanis, A. (1969) Le lac de Vouliagmeni (Attiki). Annales Géologiques des Pays Helléniques 21, 210216.Google Scholar
Pearson, T.H. and Rosenberg, R. (1978) Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanography and Marine Biology: an Annual Review 16, 229311.Google Scholar
Reizopoulou, S., Thessalou-Legaki, M. and Nicolaidou, A. (1996) Assessment of disturbance in Mediterranean lagoons: an evaluation of methods. Marine Biology 125, 189197.Google Scholar
Sfriso, A., Birkemeyer, T. and Ghetti, P.F. (2001) Benthic macrofauna changes in areas of Venice lagoon populated by seagrasses or seaweeds. Marine Environmental Research 52, 323349.CrossRefGoogle ScholarPubMed
Stirn, J. (1981) Manual of methods in aquatic environment research. Part 8. Ecological assessment of pollution effects (Guidelines for the F.A.O. (GFCM)/UNEP Joint Coordinated Project on Pollution in Mediterranean). FAO Fisheries Technical Paper, No. 209, 190 pp.Google Scholar
Virgilio, M. and Abbiati, M. (2004) Habitat discontinuity and genetic structure in populations of the estuarine species Hediste diversicolor (Polychaeta: Nereididae). Estuarine, Coastal and Shelf Science 61, 361367.CrossRefGoogle Scholar
Vogel, Z., Brazda, V. and Brazda, P. (1965) Poissons d'aquarium. Atlas illustré. Paris: Gründ.Google Scholar
Zar, J.H. (1984) Biostatistical analysis. 2nd edition. New Jersey: Prentice-Hall Inc.Google Scholar