Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-24T11:33:35.210Z Has data issue: false hasContentIssue false
  • English
  • Français

Biodiversity of the northern Aegean Sea and southern part of the Sea of Marmara, Turkey

Published online by Cambridge University Press:  23 August 2011

Gülşen Altuğ ,
Yelda Aktan ,
Muammer Oral ,
Bülent Topaloğlu ,
Ayhan Dede ,
Çetin Keskin ,
Melek Işinibilir ,
Mine Çardak  and
Pelin S. Çiftçi
Gülşen Altuğ*
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Yelda Aktan
Affiliation:
Department of Fresh Water Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Muammer Oral
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Bülent Topaloğlu
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Ayhan Dede
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Çetin Keskin
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Melek Işinibilir
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
Mine Çardak
Affiliation:
Fisheries Faculty, Canakkale Onsekiz Mart University, Canakklale, Turkey
Pelin S. Çiftçi
Affiliation:
Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey
*
Correspondence should be addressed to: G. Altuğ, Department of Marine Biology, Fisheries Faculty, University of Istanbul, Istanbul, Turkey email: [email protected]
Get access

Abstract

Two marine areas (the northern Aegean Sea and southern part of the Sea of Marmara, Turkey) which have different trophic and hydrodynamic characteristics were compared regarding diversities of bacteria, phytoplankton, zooplankton, benthos, fish and cetaceans. During the study period (2006–2007), a total of 27 taxa of aerobic heterotrophic mesophilic bacteria including ten bacterial classes were reported for the first time from both seas. A total of 103 taxa from seven algal classes were determined. Copepod species in the northern Aegean Sea and southern part of the Sea of Marmara were recorded as 44 and 27, respectively. A total of 523 underwater photographs were taken at ten stations and the benthic organism diversity were examined for the first time using the photo-quadrat technique. A total of 72 fish belonging to 36 families, were determined. During the study, a total of 1548 nautical miles of survey effort were conducted for cetacean observation. Living individuals of the Stenella coeruleoalba (striped dolphin) were recorded for the first time. This study is intended to be the first detailed description of the diversity of bacteria, phytoplankton, zooplankton, benthos, fish and cetaceans and comparison of two different marine environments in order to put forth the situation of the ecosystem as it is today.

Keywords

biodiversitybacteriaphytoplanktonzooplanktonbenthosfishCetacea
Type
Research Article
Information
Marine Biodiversity Records , Volume 4 , December 2011 , e65
Copyright
Copyright © Marine Biological Association of the United Kingdom 2011

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

Aktan, Y., Tüfekçi, V., Tüfekçi, H. and Aykulu, G. (2005) Distribution patterns, biomass estimates and diversity of phytoplankton in İzmit Bay (Turkey). Estuarine, Coastal and Shelf Science 64, 372384.CrossRefGoogle Scholar
Albayrak, S. (2001) Prosobranch gastropods of the Imbros Island (NE Aegean Sea). Acta Adriatica 42, 3542.Google Scholar
Algan, O., Balkıs, N., Çagatay, M.N. and Sarı, E. (2004) The sources of metal contents in the shelf sediments from the Marmara Sea, Turkey. Environmental Geology 46, 932950.CrossRefGoogle Scholar
Altuğ, G., Aktan, Y., Oral, M., Topaloglu, B., Dede, A., Keskin, C., Isinibilir, M., Cardak, M. and Ciftci, P.S. (2007) Evaluation of biological diversity using biological and psycho-chemical data of the Northern Aegean Sea and Southern Marmara Sea. The Scientific and Technological Research Council of Turkey. TUBITAK 105Y039 Technical Report.Google Scholar
Altuğ, G. and Erk, H. (2001) Level of coliform, Esherichia coli, Salmonella spp. and Cu, Pb, Cd, Zn, Hg on the coastline of Gökçeada in water body and some organisms. In Öztürk, B. and Veysel, A. (eds) National Aegean Islands Meeting Proceedings Book. Gökçeada: TUDAV 7, pp. 142151. [In Turkish.]Google Scholar
Altuğ, G. and Güler, N. (2002) Determination of the levels of indicator bacteria, Salmonella spp. and heavy metals in sea snails (Rapana venosa) from the Northern Marmara Sea, Turkey. Turkish Journal of Fisheries and Aquatic Sciences 2, 141144.Google Scholar
Azov, Y. (1986) Seasonal patterns of phytoplankton productivity and abundance in nearshore oligotrophic waters of the Levant Basin (Mediterranean). Journal of Plankton Research 8, 4153.CrossRefGoogle Scholar
Balkıs, N. (2003) Seasonal variations in the phytoplankton and nutrient dynamics in the neritic water of Büyükçekmece Bay, Sea of Marmara. Journal of Plankton Research 25, 703717.CrossRefGoogle Scholar
Balkıs, N., Ergör, B. and Giresunlu, M. (2004) Summer phytoplankton composition in the neritic waters of the Sea of Marmara. Pakistan Journal of Botany 36, 115126.Google Scholar
Beaubrun, P.C. (1995) Atlas préliminaire de distribution des Cétacés de Méditerranée. Monaco: CIESM et Musée Océanographique, 87 pp.Google Scholar
Benli, H.A., Tarkan, A.N. and Sever, T.M. (2001) Comparison of the mesozooplankton composition of the southwestern Black Sea, Sea of Marmara, and eastern Aegean Sea. Turkish Journal of Marine Sciences 7, 163179.Google Scholar
Besiktepe, S.T., Sur, H.I., Ozsoy, E., Latif, M.A., Oguz, T. and Ünlüata, U. (1994) The circulation and hydrography of the Marmara Sea. Progress in Oceanography 34, 285334.CrossRefGoogle Scholar
Bianchi, M., Perfettini, J. and Bianchi, A. (1992) Marine heterotrophic bacteria associated with enrichment culture of nitrifying bacteria planned for closed aquaculture systems. Aquatic Living Resources 5, 137144.CrossRefGoogle Scholar
Bilecenoglu, M., Taskavak, E., Mater, S. and Kaya, M. (2002) Checklist of the marine fishes of Turkey. Zootaxa 113, 1194.CrossRefGoogle Scholar
Buckland, S.T., Anderson, D.R., Burnham, K.P. and Laake, J.L. (1993) Distance sampling: estimating abundance of biological populations. London: Chapman & Hall, 446 pp.Google Scholar
Caroppo, C., Turicchia, S. and Margheri, M.C. (2006) Phytoplankton assemblages in coastal waters of the northern Ionian Sea (eastern Mediterranean), with special reference to cyanobacteria. Journal of the Marine Biological Association of the United Kingdom 86, 927937.CrossRefGoogle Scholar
Cupp, E.E. (1943) Marine plankton diatoms of the west coast of North America. Berkeley: University of California Press, 237 pp. [Reprint 1977 by Otto Koeltz Science Publishers.]Google Scholar
Deniz, N. and Tas, S. (2009) Seasonal variations in the phytoplankton community in the north-eastern Sea of Marmara and a species list. Journal of the Marine Biological Association of the United Kingdom 89, 269276.CrossRefGoogle Scholar
Erenturk, N., Saygı, N., Kut, D., Esen, N., Bassarı, A., Seddigh, E. and Topcuoglu, S. (1990) Halkımızın en cok tukettigi balıklardan olan Istavrit, Kolyos ve Luferde toksik element miktarı. III. Ulusal Nukleer Bilimler Kongresi Bildiri Kitabı 2, 716721. [In Turkish.]Google Scholar
Ergen, Z., Kocatas, A., Katagan, T. and Cınar, M.E. (1994) Benthic fauna of Engeceli Harbour (Aliaga–Izmir). Journal of the Faculty of Science, Ege University B 16/2, 10471059.Google Scholar
Esen, N., Topcuoglu, S., Egilli, E. and Kut, D. (1999) Comparison of trace metal concentrations in sediments and algae samples from the Kucukcekmece Lagoon and Marmara Sea. Journal of Radioanalytical and Nuclear Chemistry 240, 673676.CrossRefGoogle Scholar
Gomez, F. (2003) Checklist of Mediterranean free-living dinoflagellates. Botanica Marina 46, 215242.CrossRefGoogle Scholar
Gunn, B.A., Keiser, J.F. and Colwell, R.R. (1983) Numerical taxonomy of staphylococci isolated from clinical sources. International Journal of Systematic Bacteriology 33, 738750.CrossRefGoogle Scholar
Hartley, B., Barber, H.G., Carter, J.R. and Sims, P.A. (eds) (1996) An atlas of British diatoms. Bristol: Biopress Ltd, 601 pp.Google Scholar
Hendey, N.I. (1964) An introductory account of the smaller algae of British coastal waters. Part 5, Bacillariophyceae. London: HM Stationery Office, 317 pp.Google Scholar
Ignatiades, L., Psarra, S., Zervakis, V., Pagou, K., Souvermezoglou, E., Assimakopoulou, G. and Gottis-Skretas, O. (2002) Phytoplankton size-based dynamics in the Aegean Sea (Eastern Mediterranean). Journal of Marine Systems 36, 1128.CrossRefGoogle Scholar
Isari, S., Psarra, S., Pitta, P., Mara, P., Tomprou, M.O., Ramfos, A., Somarakis, S., Tselepides, A., Koutsikopoulos, C. and Fragopoulu, N. (2007) Differential patterns of mesozooplankters' distribution in relation to physical and biological variables of the northeastern Aegean Sea (eastern Mediterranean). Marine Biology 151, 10351050.CrossRefGoogle Scholar
Isinibilir, M. (2009a) Annual crustacean zooplankton succession (Copepoda and Cladocera) in the upper layer of Ahirkapi coastal waters (northeastern Sea of Marmara). Crustaceana 82, 669678.CrossRefGoogle Scholar
Isinibilir, M. (2009b) Summer mesozooplankton communities in the Turkish coastal waters of North Aegean Sea. Journal of FisheriesScience.com 3, 237242.Google Scholar
Isinibilir, M., Kideys, A.E., Tarkan, A.N. and Yilmaz, I.N. (2008) Annual cycle of zooplankton abundance and species composition in Izmit Bay (the northeastern Marmara Sea). Estuarine, Coastal and Shelf Science 78, 739747.CrossRefGoogle Scholar
Jefferson, T.A., Leatherwood, S. and Webber, M.A. (1993) FAO species identification guide: marine mammals of the world. Rome: UNEP/FAO, 319 pp.Google Scholar
Joux, F. and Lebaron, P. (1997) Ecological implications of an unproved direct viable count method for aquatic bacteria. Applied and Environmental Microbiology 63, 36433647.CrossRefGoogle Scholar
Keskin, C., Ordines, F., Guijarro, B. and Massuti, E. (2011) Comparison of fish assemblages between the Sea of Marmara and the Aegean Sea (north-eastern Mediterranean). Journal of the Marine Biological Association of the United Kingdom. doi:10.1017/S0025315410002213CrossRefGoogle Scholar
Keskin, C. and Ünsal, N. (1998) The fish fauna of Gökçeada Island, NE Aegean Sea, Turkey. Italian Journal of Zoology 65, Supplement 1, 299302.CrossRefGoogle Scholar
Kramer, K. and Lange-Bertalot, H. (1986) Süsswasserflora von Mitteleuropa, Bacillariophyceae, Band 2/3. 3. Teil. Berlin: Gustav Fisher Verlag, 576 pp.Google Scholar
Kut, D., Topcuoglu, S., Esen, N., Kucukcezzar, R. and Guven, K.C. (2000) Trace metal in marine algae and sediment samples from the Bosphorus. Water, Air and Soil Pollution 118, 2733.CrossRefGoogle Scholar
Morri, C., Bianchi, C.N., Cocito, S., Peirano, A., De Biase, A.M., Aliani, S., Pansini, M., Boyer, M., Ferdeghini, F., Pestarino, M. and Dando, P. (1999) Biodiversity of marine sessile epifauna at an Aegean island subject to hydrothermal activity: Milos, eastern Mediterranean Sea. Marine Biology 135, 729739.CrossRefGoogle Scholar
Öztürk, B. (1996) Whales and dolphins. İstanbul: Anahtar Kitaplar Yayınevi, 120 pp. [In Turkish.]Google Scholar
Öztürk, B. (2002.) The Marmara Sea, a link between the Mediterranean and the Black Sea. In Leppekoski, E., Gollasch, S. and Olenin, S. (eds) Invasive aquatic species of Europe: distribution, impact and management. Dordrecht, The Netherlands: Kluwer Academic Publishers., Netherlands; pp. 337340.CrossRefGoogle Scholar
Öztürk, B. and Öztürk, A.A. (1996) On the biology of the Turkish Strait Systems. In Briand, F. (ed.) Dynamics of Mediterranean straits and channels. CIESM Science Series No. 2. Bulletin de l'Institut Océanographique, Monaco, No. Special 17, pp. 205217.Google Scholar
Öztürk, B. and Öztürk, A.A. (1997) Preliminary study on dolphin occurrence in the Turkish Straits System. In Proceedings of the Eleventh Annual Conference of the European Cetacean Society, Stralsund, Germany, p. 79.Google Scholar
Öztürk, B. and Öztürk, A.A. (1998) Cetacean strandings in the Aegean and Mediterranean coast of Turkey. Rapports Commission Intérnationale Mer Méditerranée 35, 476477.Google Scholar
Öztürk, B., Dede, A. and Komut, O. (1999) Cetacean strandings in the Marmara Sea. In Thirteenth Annual Conference of European Cetacean Society, Valencia, p. 258.Google Scholar
Papaconstantinou, C. (1992) General remarks on the Greek Seas fish fauna. Doriana. Volume VI-N. 274.Google Scholar
Papaconstantinou, C. and Tortonese, E. (1980) On a collection of fishes from Termaikos Gulf (NE Greece). Thalassographica 3, 1542.Google Scholar
Papaconstantinou, C. and Tsimenidis, N. (1979) Some uncommon fishes from the Aegean Sea. Cybium 3, 314.Google Scholar
Papaconstantinou, C. and Tsimenidis, N. (1985) The fish fauna of the Pagassitikos Gulf (Greece). Biologia Gallo—Hellenica, volume 10.Google Scholar
Pazi, I. (2008) Water mass properties and chemical characteristics in the Saros Gulf, northeast Aegean Sea (Eastern Mediterranean). Journal of Marine Systems 74, 698710.CrossRefGoogle Scholar
Pinhassi, J., Zweifel, U.L. and Hagström, Å. (1997). Dominant marine bacterioplankton species found among colony-forming bacteria. Applied Environmental Microbiology 63, 33593366.CrossRefGoogle ScholarPubMed
Reeves, R.R. and Notarbartolo di Sciara, G. (2006) The status and distribution of cetaceans in the Black Sea and Mediterranean Sea. ACCOBAMS Workshop Report—Monaco 5–7 March 2006. IUCN Centre for Mediterranean Cooperation, Malaga, Spain, pp. 137.Google Scholar
Rehnstam, A.S., Bäckman, S., Smith, D.C., Azam, F. and Hagström, Å. (1993) Blooms of sequence-specific culturable bacteria in the sea. FEMS Microbiology Ecology 102, 161166.CrossRefGoogle Scholar
Salman, A., Katagan, T. and Benli, H.A. (1997) Bottom trawl teuthofauna of the Aegean Sea. Archive of Fishery and Marine Research 15, 183196.Google Scholar
Sarı, E. and Çağatay, M.N. (2001) Distributions of heavy metals in the surface sediments of the Gulf of Saros, NE Aegean Sea. Environment International 26, 169173.CrossRefGoogle ScholarPubMed
Siokou-Frangou, I., Shiganova, T., Christou, E.D., Kamburska, L., Gubanova, A., Konsulov, A., Musaeva, E., Skryabin, V. and Khoroshilov, V. (2004) Mesozooplankton communities in the Aegean and Black Seas: a comparative study. Marine Biology 144, 11111126.CrossRefGoogle Scholar
Svetlichny, L., Kideys, A.E., Hubareva, E.S., Isinibilir, M. and Shmeleva, A. (2006) Zooplankton community state in the northeastern Marmara Sea during early autumn with comments on mass mortality of the Black Sea species due to the salinity gradient. Journal of the Black Sea/Mediterranean Environment 12, 213231.Google Scholar
Tarkan, A.N. and Erguven, H. (1988) The main copepod species of Marmara Sea. Journal of Aquatic Products 2, 7172.Google Scholar
Tarkan, A.N., Isinibilir, M. and Tarkan, A.S. (2005) Seasonal variations of the zooplankton composition and abundance in the Istanbul Strait. Pakistan Journal of Biological Sciences 8, 13271336.Google Scholar
Theocharis, A. and Georgopoulos, D. (1993) Dense water formation over the Samothraki and Limnos plateaux in the North Aegean Sea (Eastern Mediterranean Sea). Continental Shelf Research 13, 919939.CrossRefGoogle Scholar
Tokat, E. (2006) Saros Körfezi Hidrolojik ve Biyolojik Su Özellikleri (Hydrological and Biological Water Properties of the Saros Bay). MSc thesis. Dokuz Eylül University, İzmir, Turkey. [In Turkish.]Google Scholar
Tomas, C. (1996) Identifying marine diatoms and dinoflagellates. London: Academic Press, 598 pp.Google Scholar
Topcuoglu, S. (2000) Heavy metal concentrations in sediments and organisms of the Marmara Sea. The Marmara Sea Symposium 2000. TUDAV.Google Scholar
Ulutürk, T. (1987) Fish fauna, back-ground radioactivity of the Gökçeada marine environment. Istanbul University Journal of Fisheries 1, 95119.Google Scholar
Ünlüata, U., Oğuz, T., Latif, M.A. and Özsoy, E. (1990) On the physical oceanography of the Turkish Straits. In Pratt, L.J. (ed.) The physical oceanography of sea straits. Dordrecht, The Netherlands: Kluwer Academic Publishers, pp. 2560.CrossRefGoogle Scholar
Uthermöl, H. (1958) Zur vervolkommnung der quantitativen phytoplankton methodic. Mitteilungen Internationale Vereiningung für Theoretische und Angewandte Limnologie 9, 138.Google Scholar
Uysal, Z. and Ünsal, M. (1996) Spatial distribution of net diatoms along adjacent water masses of different origin. Turkish Journal of Botany 20, 519525.CrossRefGoogle Scholar
Voultsiadou, E. (2005) Demosponge distribution in the eastern Mediterranean: a NW–SE gradient. Helgoland Marine Research 59, 237251.CrossRefGoogle Scholar
Whitehead, P.J.P., Bouchot, M.-L., Hureau, J.-C., Nielsen, J. and Tortonose, E. (1986) Fishes of the north-eastern Atlantic and the Mediterranean. Volumes I, II, III. Paris: UNESCO.Google Scholar