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Spatio-temporal distributions of zoobenthos in soft substratum of Izmir Bay (Aegean Sea, eastern Mediterranean), with special emphasis on alien species and ecological quality status

Published online by Cambridge University Press:  30 March 2012

Melıh Ertan Çinar ,
Tuncer Katagan ,
Bılal Öztürk ,
Kerem Bakir ,
Ertan Dagli ,
Sermın Açik ,
Alper Dogan  and
Banu Bıtlıs
Melıh Ertan Çinar*
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Tuncer Katagan
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Bılal Öztürk
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Kerem Bakir
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Ertan Dagli
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Sermın Açik
Affiliation:
Dokuz Eylul University, Institute of Marine Sciences and Technology, Inciralti, 35340, Izmir, Turkey
Alper Dogan
Affiliation:
Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey
Banu Bıtlıs
Affiliation:
Çanakkale 18 Mart University, Faculty of Fisheries, Department of Hydrobiology, Çanakkale, Turkey
*
Correspondence should be addressed to: M.E. Çinar, Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100, Bornova, Izmir, Turkey email: melih.cinar@ege.edu.tr
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Abstract

The soft-bottom zoobenthic community structure of Izmir Bay was examined seasonally at eight stations (depth-range: 19–67 m) in 2009. A total of 427 species were found. Polychaeta had the highest number of species (50% of total species) and individuals (75%), whereas Echinodermata possessed the highest biomass (47%). The number of species varied from 3 to 79 (0.1 m−2), the density from 60 to 5360 ind.m−2, and the biomass from 1 to 530 g.m−2. The most numerically dominant species were the polychaetes Aricidea claudiae, Streblospio gynobranchiata, Levinsenia demiri and Sternaspis scutata. The distribution of zoobenthos was strongly related to spatial differences in total organic carbon, sediment texture and depth among different regions of the bay rather than temporal differences among seasons. However, significant seasonal variability in community structure (mainly differences in the relative abundance of species) was present. The inner region of the bay can be classified as ‘poor’ or ‘bad’ based on the results of biotic indices (H′, AMBI, m-AMBI and BENTIX). Among biotic indices, only H′ and m-AMBI appeared to be capable of explaining the bay's benthic quality status. Thirteen alien species were also found. Streblospio gynobranchiata, Prionospio pulchra, Pseudopolydora paucibranchiata and Polydora cornuta formed dense populations in the inner most polluted part of the bay and are considered to be new pollution indicator species in the eastern Mediterranean Sea.

Keywords

benthic communityecological quality statusalien speciespollutionenvironmental factorsAegean Sea
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 92 , Issue 7 , November 2012 , pp. 1457 - 1477
Copyright
Copyright © Marine Biological Association of the United Kingdom 2012

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References

REFERENCES

Albayrak, S., Balkis, H., Zenetos, A., Kurun, A. and Kubanç, C. (2006) Ecological quality status of coastal benthic ecosystems in the Sea of Marmara. Marine Pollution Bulletin 52, 790799.CrossRefGoogle ScholarPubMed
Albayrak, S., Balkis, H. and Çinar, M.E. (2007) Shallow-water soft bottom macrozoobenthic communities from Edremit Bay (NE Aegean Sea). Belgian Journal of Zoology 137, 127132.Google Scholar
Ambrose, W.G. (1991) Are infaunal predators important in structuring marine soft-bottom communities? American Zoologist 31, 849860.CrossRefGoogle Scholar
Anderson, M.J., Gorley, R.N. and Clarke, K.R. (2008) PERMANOVA+for PRIMER: guide to software and statistical methods. Plymouth, UK: PRIMER-E, 214 pp.Google Scholar
Balci, A., Kucuksezgin, F., Kontas, A. and Altay, O. (1995) Eutrophication in Izmir Bay, Aegean Sea. Toxicology and Environmental Chemistry 48, 2148.Google Scholar
Bellan, G. (1984) Indicateurs et indices biologiques dans le domaine marin. Bulletin d'Écologie 15, 1320.Google Scholar
Borja, A., Franco, J. and Pérez, V. (2000) A marine biotic index to establish the ecology quality of soft-bottom benthos within European estuarine coastal environments. Marine Pollution Bulletin 40, 11001114.CrossRefGoogle Scholar
Borja, A., Dauer, D.M., Díaz, R., Llansó, R.J., Muxika, I., Rodríquez, J.G. and Schaffner, L. (2008) Assessing estuarine benthic quality conditions in Chesapeake Bay: a comparison of three indices. Ecological Indicators 8, 395403.CrossRefGoogle Scholar
Cardell, M.J., Sardá, R. and Romero, J. (1999) Spatial changes in sublittoral soft-bottom polychaete assemblages due to river inputs and sewage discharges. Acta Oecologica 20, 343351.CrossRefGoogle Scholar
Çinar, M.E. and Ergen, Z. (2005) Lessepsian migrants expanding their distributional ranges; Pseudonereis anomala (Polychaeta: Nereididae) in Izmir Bay (Aegean Sea). Journal of the Marine Biological Association of the United Kingdom 85, 313321.CrossRefGoogle Scholar
Çinar, M.E. and Ergen, Z. (2007) The presence of Chaetozone corona (Polychaeta: Cirratulidae) in the Mediterranean Sea: an alien or a native species? Cahiers de Biologie Marine 48, 339346.Google Scholar
Çinar, M.E., Ergen, Z. and Dağlı, E. (2002) Occurrence of the lessepsian species Leonnates persicus (Polychaeta: Nereididae) in Izmir Bay, Aegean Sea. Journal of the Marine Biological Association of the United Kingdom 82, 811815.CrossRefGoogle Scholar
Çinar, M.E., Ergen, Z., Dagli, E. and Petersen, M.E. (2005) Alien species of spionid polychaetes (Streblospio gynobranchiata and Polydora cornuta) in Izmir Bay, eastern Mediterranean. Journal of the Marine Biological Association of the United Kingdom 85, 821827.CrossRefGoogle Scholar
Çinar, M.E., Balkis, H., Albayrak, S., Dagli, E. and Karhan, S.Ü. (2009) Distribution of polychaete species (Polychaeta) on the polluted soft substrate of the Golden Horn Estuary (Sea of Marmara), with special emphasis on alien species. Cahiers de Biologie Marine 50, 1117.Google Scholar
Çinar, M.E., Bilecenoglu, M., Öztürk, B., Katağan, T., Yokeş, M.B., Aysel, V., Dağlı, E., Açik, S., Özcan, T. and Erdoğan, H. (2011) An updated review of alien species on the coasts of Turkey. Mediterranean Marine Science 12, 257315.CrossRefGoogle Scholar
Çinar, M.E., Katagan, T., Koçak, F., Öztürk, B., Ergen, Z., Kocataş, A., Önen, M., Kirkim, F., Bakir, K., Kurt, G., Dagli, E., Açik, S., Dogan, A. and Özcan, T. (2008) Faunal assemblages of the mussel Mytilus galloprovincialis in and around Alsancak Harbour (Izmir Bay, eastern Mediterranean) with special emphasis on alien species. Journal of Marine Systems 71, 117.CrossRefGoogle Scholar
Çinar, M.E., Katagan, T., Öztürk, B., Egemen, Ö., Ergen, Z., Kocataş, A., Önen, M., Kırkım, F., Bakır, K., Kurt, G., Dağlı, E., Kaymakçi, A., Açik, S., Doğan, A. and Özcan, T. (2006) Temporal changes of soft bottom zoobenthic communities in and around Alsancak Harbor (Izmir Bay, Aegean Sea), with special attention to the autoecology of exotic species. Marine Ecology 27, 229246.CrossRefGoogle Scholar
Covazzi Harriague, A. and Albertelli, G. (2007) Environmental factors controlling macrofaunal assemblages on six microtidal beaches of the Ligurian Sea (NW Mediterranean). Estuarine, Coastal and Shelf Science 73, 816.CrossRefGoogle Scholar
Dagli, E. and Çinar, M.E. (2008) Invasion of polluted soft substrate of Izmir Bay (Aegean Sea, eastern Mediterranean) by the spionid polychaete worm, Pseudopolydora paucibranchiata (Polychaeta: Spionidae). Cahiers de Biologie Marine 49, 8796.Google Scholar
Dagli, E. and Çinar, M.E. (2009) Species of the subgenera Aquilaspio and Prionospio (Polychaeta: Spionidae: Prionospio) from the southern coast of Turkey (Levantine Sea, eastern Mediterranean), with description of a new species and two new reports for the Mediterranean fauna. Zootaxa 2275, 120.CrossRefGoogle Scholar
Dagli, E., Çinar, M.E. and Ergen, Z. (2011) Spionidae (Annelida: Polychaeta) from the Aegean Sea (eastern Mediterranean). Italian Journal of Zoology 78, 4967.CrossRefGoogle Scholar
Doğan, A., Çinar, M.E., Önen, M., Ergen, Z. and Katağan, T. (2005) Seasonal analysis of soft-bottom zoobenthic communities in polluted and unpolluted areas of Izmir Bay (Aegean Sea). Senckenbergiana Maritima 35, 133145.CrossRefGoogle Scholar
Ellingsen, K.E. (2002) Soft-sediment benthic biodiversity on the continental shelf in relation to environmental variability. Marine Ecology Progress Series 232, 1527.CrossRefGoogle Scholar
Ergen, Z. (1976) Investigations on the taxonomy and ecology of Polychaeta from Izmir Bay and its adjacent areas. Scientific Reports of the Faculty of Science, Ege University 209, 173. [In Turkish.]Google Scholar
Ergen, Z. (1992) The latest status of Polychaeta in the soft substrate of Izmir Bay. Rapport de la Commission Internationale pour l'Exploration Scientifique de la Mer Méditerranée 33, 36.Google Scholar
Ergen, Z., Çinar, M.E., Dagli, E. and Kurt, G. (2006) Seasonal dynamics of soft-bottom polychaetes in Izmir Bay (Aegean Sea, eastern Mediterranean). Scientia Marina 70, 197205.Google Scholar
Ergen, Z., Dora, C. and Çinar, M.E. (2002) Seasonal analysis of polychaetes from the Gediz River Delta (Izmir Bay, Aegean Sea). Acta Adriatica 43, 2942.Google Scholar
Erguvanli, K. (1995) Mühendislik Jeolojisi. Seç Yayin Dağitim 4. İstanbul: Baski, 590 pp.Google Scholar
Gaudette, H.E., Flight, W.R., Toner, L. and Folger, W. (1974) An inexpensive titration method for the determination of organic carbon in recent sediments. Journal of Sedimentary Petrology 44, 249253.Google Scholar
Geldiay, R. and Kocataş, A. (1979) Some biological and hydrographical effects of pollution in İzmir Bay (Turkey). TUJJB Bülteni 11, 89100. [In Turkish.]Google Scholar
Hoey, G.V., Degraer, S. and Vincx, M. (2004) Macrobenthic community structure of soft-bottom sediments at the Belgian Continental Shelf. Estuarine, Coastal and Shelf Science 59, 599613.CrossRefGoogle Scholar
Hyland, J., Balthis, L.W., Karakassis, I., Magni, P., Petrov, A., Shine, J.R., Vestergaard, O. and Warwick, R. (2005) Organic carbon content of sediments as an indicator of benthic stress. Marine Ecology Progress Series 295, 91103.CrossRefGoogle Scholar
Karakassis, I. and Eleftheriou, A. (1997) The continental shelf of Crete: structure of macrobenthic communities. Marine Ecology Progress Series 160, 185196.CrossRefGoogle Scholar
Kocataş, A. (1978) Distribution et evolution des peuplements benthiques du Golfe d'Izmir (partie intérieure) soumis a des multiples pollutions. Journées Étude Pollutions CIESM 4, 417421.Google Scholar
Kocataş, A. (1980) Evolution cyclique du Benthos dans les zones de pollution du golfe d'Izmir (Turquie). Journées Étude Pollutions CIESM 5, 643648.Google Scholar
Kocataş, A., Ergen, Z., Mater, S., Özel, I., Katağan, T., Uçal, O., Koray, T. and Büyükışık, B. (1984) Les effects de la pollution sur les ecosystems benthiques et pélagiques dans le Golfe d'Izmir (Turquie). Journées Étude Pollutions CIESM 7, 689698.Google Scholar
Kontaş, A., Kucuksezgin, F., Altay, O. and Uluturhan, E. (2004) Monitoring of eutrophication and nutrient limitation in Izmir Bay (Turkey) before and after wastewater treatment plant. Environmental International 29, 10571062.CrossRefGoogle ScholarPubMed
Labrune, C., Amouroux, J.M., Sardá, R., Dutrieux, E., Thorin, S., Rosenberg, R. and Gremare, A. (2006) Characterization of the ecological quality of the coastal Gulf of Lions (NW Mediterranean): a comparative approach based on three biotic indices. Marine Pollution Bulletin 52, 3447.CrossRefGoogle ScholarPubMed
Moutin, T. and Raimbault, P. (2002) Primary production, carbon export and nutrients availability in western and eastern Mediterranean Sea in early summer 1996. Journal of Marine Systems 33, 273288.CrossRefGoogle Scholar
Muniz, P., Venturini, N., Pires-Vanin, A.M.S., Tommasi, L.R. and Borja, A. (2005) Testing the applicability of a Marine Biotic Index (AMBI) to assessing the ecological quality of soft-bottom benthic communities in the South America Atlantic region. Marine Pollution Bulletin 50, 624637.CrossRefGoogle ScholarPubMed
Muxika, I., Borja, A. and Bald, J. (2007) Using historical data, expert judgement and multivariate analysis in assessing reference conditions and benthic ecological status, according to the European water framework directive. Marine Pollution Bulletin 55, 1629.CrossRefGoogle Scholar
Palaz, M. (1989) Dynamics of zoobenthos in the inner part of Izmir Bay. Master of Science thesis. 9 Eylul University, 37 pp. [In Turkish.]Google Scholar
Pancucci-Papadopoulou, M.A., Simboura, N., Zenetos, A., Thessalou-Legaki, M. and Nicolaidou, A. (1999) Benthic invertebrate communities of NW Rodos (Rhodes) Island (SE Aegean Sea) as related to hydrological regime and geographical location. Israel Journal of Zoology 45, 371393.Google Scholar
Papageorgiou, N., Kalantzi, I. and Karakassis, I. (2010) Effects of fish farming on the biological and geochemical properties of muddy and sandy sediments in the Mediterranean Sea. Marine Environmental Research 69, 326336.CrossRefGoogle ScholarPubMed
Parsons, T.R., Matia, Y. and Lalli, C.M. (1984) A manual of chemical and biological methods for seawater analysis. New York: Pergamon Press, 173 pp.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
Pinedo, S., Sardá, R. and Martín, D. (1996) Seasonal dynamics and structure of soft-bottom assemblages in Blanes Bay (northwest Mediterranean Sea). Publicaciones Especiales Instituto Español de Oceanografía 22, 6170.Google Scholar
Pocklington, P. and Wells, P.G. (1992) Polychaetes: key taxa for marine environmental quality monitoring. Marine Pollution Bulletin 24, 593598.CrossRefGoogle Scholar
Sardá, R., Pinedo, S. and Martín, D. (1999) Seasonal dynamics of macroinfaunal key species inhabiting shallow soft-bottoms in the Bay of Blanes (NW Mediterranean). Acta Oecologica 20, 315326.CrossRefGoogle Scholar
Sardá, R., Martín, D., Pinedo, S., Dueso, A. and Cardell, M.J. (1995) Seasonal dynamics of shallow soft-bottom communities in western Mediterranean. In Eleftheriou, A., Ansell, A.D. and Smith, C.J. (eds) The biology and ecology of shallow coastal waters. Fredensborg: Olsen and Olsen, pp. 191198.Google Scholar
Shannon, C.E. and Weaver, W. (1949) The mathematical theory of communication. Urbana, IL: University Press Illinois.Google 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, 77111.CrossRefGoogle Scholar
Simboura, N. and Argyrou, M. (2010) An insight into the performance of benthic classification indices tested in eastern Mediterranean coastal waters. Marine Pollution Bulletin 60, 701709.CrossRefGoogle ScholarPubMed
Teer Braak, C.J.F. and Smilauer, P. (2002) Canoco 4.5. Canoco Reference Manual and CanoDraw for Windows User's Guide. Software for Canonical Community Ordination (version 4.5). Ithaca, New York: Microcomputer Power.Google Scholar
Tom, M. and Galil, B. (1991) The macrobenthic associations of Haifa Bay, Mediterranean coast of Israel. Pubblicazioni della Stazione Zoologica di Napoli I: Marine Ecology 12, 7586.CrossRefGoogle Scholar
Van Hoey, G., Borja, A., Birchenough, S., Buhl-Mortensen, L., Degraer, S., Fleischer, D., Kerckhof, F., Magni, P., Muxika, I., Reis, H., Schröder, A. and Zettler, M.I. (2010) The use of benthic indicators in Europe: from the Water Framework Directive to the Marine Strategy Framework Directive. Marine Pollution Bulletin 60, 21872196.CrossRefGoogle Scholar
Wilson, W.H. (1991) Competition and predation in marine soft-sediment communities. Annual Review of Ecology and Systematics 21, 221241.CrossRefGoogle Scholar
Woodin, S.A. (1978) Refuges, disturbance, and community structure: a marine soft-bottom example. Ecology 9, 274284.CrossRefGoogle Scholar
Zarkanellas, A.J. and Kattoulas, M.E. (1982) The ecology of benthos in the Gulf of Thermaïkos, Greece. I. Environmental conditions and benthic biotic indices. Pubblicazioni della Stazione Zoologica di Napoli I Marine Ecology 3, 2139.CrossRefGoogle Scholar
Zenetos, A., Simboura, N. and Panayotidis, P. (1994) Effects of sewage on the distribution of benthic fauna in the Saronikos Gulf (Greece). FAO Technical Reports Series 80, 172.Google Scholar
Zenetos, A., Christianidis, S., Pancucci, M-A., Simboura, N. and Tziavos, C. (1997) Oceanological study of an open coastal area in the Ionian Sea with emphasis on its benthic fauna and some zoogeographical remarks. Oceanologica Acta 20, 437451.Google Scholar