Dikili İzmir, Türkiye Sahillerinde Gözlenen Deniz Çekilmesinin Biyoçeşitlilik Üzerine Etkileri

B u çalışmada, bir deniz gel-gitinin Dikili sahilindeki denizel biyoçeşitlilik üzerine etkileri sunulmaktadır. 2012 yılı kış mevsiminde ulusal bir proje için örneklem sırasında Dikili sahili boyunca bir gel-git gözlenmiştir. Gelgitin yaşandığı alanda, gel-git olayının anlık bir olay olmadığını gösterir biçimde pek çok deniz organizmasının çürümekte olduğu veya önceden çürüdüğü gözlenmiştir. Etkilenen türlerin bazıları, Holothuria sp. gibi, ekonomik öneme sahip olduklarından, bu türlerin bozunmadan toplanması yerel ekonomiye büyük katkı sağlayabilir

Effects of a Sea Tide on The Biodiversity along Dikili Coastline, İzmir, Turkey

This paper presents the effects of a sea tide on the marine biodiversity of Dikili coastline. A sea tide in winter season of 2012 was observed during sampling for a national project along Dikili coastline. In the sea tide area, many marine organisms were about to be decomposed or already decomposed indicating the sea tide was not an instant event. Since some of the affected species, such as Holothuria sp., has economic importance, collection of these species before their decomposition can contribute much to the local economy.

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  • B. Alpar, E. Dogan, H. Yuce, H. Altıok, Sea level changes along the Turkish coasts of the Black Sea, the Aegean Sea and the Eastern Mediterranean, Med. Mar. Sci., 1 (2000) 141.
  • T. Kuleli, City-Based Risk Assessment of Sea Level Rise Using Topographic and Census Data for the Turkish Coastal Zone, Estuaries Coasts, 33 (2010) 640.
  • M. Aydin, The commercial sea cucumber fishery in Turkey, SPC Beche de Mer Info. Bull., 28 (2008) 40.
  • B. Dinda, S. Debnath, B.C. Mohanta, Y. Harigaya, Naturally Occurring Triterpenoid Saponins, Chem. Biodivers., 7 (2010) 2327.
  • S.V. Dyck, G. Caulier, M. Todesco, P. Gerbaux, I. Fournier, M. Wisztorski, P. Flammang, The triterpene glycosides of Holothuria forskali: usefulness and efficiency as a chemical defense mechanism against predatory fish, J. Exp. Biol., 214 (2011) 1347.
  • S.V. Dyck, P. Gerbaux, P. Flammang, Elucidation of molecular diversity and body distribution of saponins in the sea cucumber Holothuria forskali (Echinodermata) by mass spectrometry, Comp. Biochem. Phys. B, 152 (2009) 124. 7. H. Han, Y.H. Yi, L. Li, BS. Liu, M.X. Pan, B. Yan, X.H. Wang, Triterpene Glycosides from Sea Cucumber Holothuria leucospilota, Chin. J. Nat. Med., 7 (2009) 346.
  • H. Han, Y.H. Yi, B.S. Liu, X.H. Wang, M.X. Pan, Leucospilotaside C, a new sulfated triterpene glycoside from sea cucumber Holothuria leucospilota, Chin. Chem. Lett., 19 (2008) 1462.
  • R.G. Kerr, Z. Chen, In vivo and in vitro biosynthesis of saponins in sea cucumbers, J. Nat. Prod., 58 (1995) 172.
  • P.L. Kiew, M.M. Don, Jewel of the seabed: sea cucumbers as nutritional and drug candidates, Int. J. Food Sci. Nutr., 63 (2012) 616.
  • G.Q. Sun, L. Li, Y.H. Yi, W.H. Yuan, B.S. Liu, Y.Y. Weng, S.L. Zhang, P. Sun, Z.L. Wang, Two New Cytotoxic Nonsulfated Pentasaccharide Holostane (20-Hydroxylanostan-18-oic Glycosides from the Sea Cucumber Holothuria grisea, Helv. Chim. Acta, 91 (2008) 1453. g-Lactone)
  • J. Wu, Y.H. Yi, H.F. Tang, H.M. Wu, Z.R. Zhou, Hillasides A and B, two new cytotoxic triterpene glycosides from the sea cucumber Holothuria hilla Lesson, J. Asian Nat. Prod., 9 (2007) 609.
  • J. Wu, Y.H. Yi, H.F. Tang, Z.R. Zou, H.M. Wu, Structure and Cytotoxicity of a New Lanostane-Type Triterpene Glycoside from the Sea Cucumber Holothuria hilla, Chem. Biodivers., 3 (2006) 1249.
  • S.Y. Zhang, Y.H. Yi, H.F. Tang, Bioactive Triterpene Glycosides from the Sea Cucumber Holothuria fuscocinerea, J. Nat. Prod., 69 (2006) 1492.
  • Q. Zhao, Z.D. Liu, Y. Xue, J.F. Wang, H. Li, Q.J. Tang, Y.M. Wang, P. Dong, C.H. Xue, Ds-echinoside A, a new triterpene glycoside derived from sea cucumber, exhibits antimetastatic activity via the inhibition of NF-κB-dependent MMP-9 and VEGF expressions, J. Zhejiang Univ-Sci. B, 12 (2011) 534.
  • Q. Zhao, Y. Xue, J.F. Wang, H. Li, T.T. Long, Z. Li, Y.M. Wang, P. Dong, C.H. Xue, In vitro and in vivo anti- tumour activities of echinoside A and ds-echinoside A from Pearsonothuria graeffei, J. Sci. Food Agr., 92 (2012) 965.
  • S. Chen, Y. Hu, X. Ye, G. Li, G. Yu, C. Xue, W. Chai, Sequence determination and anticoagulant and antithrombotic activities of a novel sulfated fucan isolated from the sea cucumber Isostichopus badionotus, Biochim. Biophys. Acta, 1820 (2012) 989.
  • F. Herencia, A. Ubeda, M.L. Ferrándiz, M.C. Terencio, M.J. Alcaraz, M. García-Carrascosa, R. Capaccioni, M. Payá, Anti-inflammatory activity in mice of extracts from Mediterranean marine invertebrates, Life Sci., 62 (1998) 115.
  • H.H. Liu, W.C. Ko, M.L. Hu, Hypolipidemic Effect of Glycosaminoglycans from the Sea Cucumber Metriatyla scabra in Rats Fed a Cholesterol- Supplemented Diet, J. Agr. Food Chem., 50 (2002) 3602.
  • K.A. Moore, F.T. Short, Zostera: Biology, Ecology, and Management, In: Seagrasses: Biology, Ecology and Conservation, A.W.D. Larkum, R.J. Orth and C.M. Duarte, Springer, Dordrecht, 361-386 (2006).
  • M.S. Fonseca, J.C. Zieman, G.W. Thayer, J.S. Fisher, The role of current velocity in structuring eelgrass Zostera marina meadows, Estuar. Coast. Shelf. S., 17 (1983) 367.
  • M.S. Fonseca, J.S. Fisher, A comparison of canopy friction and sediment movement between four species of seagrass with reference to their ecology and restoration, Mar. Eco.-Prog. Ser., 29 (1986) 15.
  • M.S. Fonseca, A preliminary evaluation of wave attenuation by four species of seagrass, Estuar. Coast. Shelf. S., 35 (1992) 565.
  • T.J. Fredette, R. Diaz, J.J. van Montfrans, R.J. Orth, Secondary production within a seagrass bed (Zostera marina-Ruppia maritima) in lower Chesapeake Bay, Estuaries, 13 (1990) 431.
  • J.W. Hansen, J.W. Udy, C.J. Perry, W.C. Dennison, B.A. Lomstein, Effect of the seagrass Zostera capricorni on sediment microbial processes, Mar. Eco.-Prog. Ser., 199 (2000) 83.
  • W.M. Heiss, A.M. Smith, P.P. Keith, Influence of the small intertidal seagrass Zostera novazelandica on linearwater flow and sediment texture, New Zeal. J. Mar. Fresh. Res., 34 (2000) 689.
  • E. Rasmussen, The wasting disease of eelgrass (Zostera marina) and its effects on environmental factors and fauna, In: Seagrass Ecosystems: A Scientific Perspective. C.P. McRoy and C. Helfferich, Marcel Dekker, New York, 1-52 (1977).
  • F.T. Short, Effects of sediment nutrients on seagrasses: Literature review and mesocosm experiments, Aquat. Bot., 27 (1987) 41.
  • S. Achamlale, B. Rezzonico, M. Grignon-Dubois, Evaluation of Zostera detritus as a potential new source of zosteric acid, J. Appl. Phycol., 21 (2009) 347.
  • M.E. Callow, J.A. Callow, Attachment of zoospores of the fouling alga Enteromorpha in the presence of zosteric acid, Biofouling, 13 (1998) 87.
  • T. Geiger, P. Delavy, Hany, R., J. Schleuniger, M. Zinn, Encapsulated Zosteric Acid Embedded in Poly[3- hydroxyalkanoate] Coatings - Protection against Biofouling, Polym. Bull., 52 (2004) 65.
  • J.L. Ram, S. Purohit, B.Z. Newby, T.J. Cutright, Evaluation of the natural product antifoulant, zosteric acid, for preventing the attachment of quagga mussels – a preliminary study, Nat. Prod. Res., 26 (2012) 580.
  • M.S. Stanley, M.E. Callow, R. Perry, R.S. Alberte, R. Smith, J.A. Callow, Inhibition of fungal spore adhesion by zosteric acid as the basis for a novel, nontoxic crop protection technology, Phytopathology, 92 (2002) 378.
  • H.W. Shin, C.M. Smith, E.G. Haslbeck, Minimum effective release rate of antifoulants. 1. Effects of Zosteric acid at Ford Island, Hawai’i (USA), J. Environ. Biol., 22 (2001) 243.
  • J.S. Todd, R.C. Zimmerman, P. Crews, R.S. Alberte,. The antifouling activity of natural and synthetic phenolic acid sulphate esters, Phytochemistry, 34 (1993) 401.
  • H. Alyuruk, Antifouling performances of eco-friendly secondary metabolite cocktails from marine plants. M.Sc. Thesis. Dokuz Eylül University, Graduate School of Natural and Applied Sciences, Turkey, (2012).
  • C.A. Barrios, Incorporation of zosteric acid into silicone coatings to deter fresh water bacteria attachment. M.Sc. Thesis. University of Akron, USA, (2004)
  • R.C. Zimmermann, R.S. Alberte, J.S. Todd, P. Crews, Phenolic acid sulfate esters for prevention of marine biofouling, US Patent 5 384 176.
  • L. Cavas, G. Pohnert, The Potential of Caulerpa spp. for Biotechnological and Pharmacological Applications, In: Seaweeds and their Role in Globally Changing Environments, A. Israel, R. Einav and J. Seckbach, Springer, 385 (2010).
  • J. Klein, M. Verlaque, The Caulerpa racemosa invasion: A critical review, Mar. Pollut. Bull., 56 (2008) 205.
  • C.F. Boudouresque, R. Lemée, X. Mari, A. Meinesz, The invasive alga Caulerpa taxifolia is not a suitable diet for the sea urchin Paracentrotus lividus, Aquat. Bot., 53 (1996) 245.
  • L. Cavas, Y. Baskin, K. Yurdakoc, N. Olgun, Antiproliferative and newly attributed apoptotic activities from an invasive marine alga: Caulerpa racemosa var. cylindracea, J. Exp. Mar. Biol. Ecol., 339 (2006) 111.
  • V. Jung, T. Thibaut, A. Meinesz, G. Pohnert, Comparison of the wound-activated transformation of Caulerpenyne by invasive and noninvasive Caulerpa species of the Mediterranean, J. Chem. Ecol., 28 (2002) 2091.
  • O.J. McConnell, P.A. Hughes, N.M. Targett, J. Daley, Effects of secondary metabolites from marine algae on feeding by the sea urchin, Lytechinus variegates, J. Chem. Ecol., 8 (1982) 1437.
  • J.L. Fischel, R. Lemee, P. Formento, C. Caldani, J.L. Moll, D. Pesando, A. Meinesz, P. Grelier, P. Pietra, A. Guerriero, Cell growth inhibitory effects of caulerpenyne, a sesquiterpenoid from the marine algae Caulerpa taxifolia, Anticancer Res., 15 (1995) 2155.
  • P. Barbier, S. Guise, P. Huitorel, P. Amade, D. Pesando, C. Briand, V. Peyrot, Caulerpenyne from Caulerpa taxifolia has an antiproliferative activity on tumor cell line SK-N-SH and modifies the microtubule network, Life Sci., 70 (2001) 415.
  • H. Alyuruk, E. Doner, Z. Karabay, L. Cavas, Antifouling performances and acute toxicities of eco-friendly biocides, Hacettepe J. Biol. Chem., 38 (2010) 277.
  • V. Smyrniotopoulos, D. Abatis, L.A. Tziveleka, C. Tsitsimpikou, V. Roussis, A. Loukis, C. Vagias, Acetylene Sesquiterpenoid Esters from the Green Alga Caulerpa prolifera, J. Nat. Prod., 66 (2003) 21.
  • A.M.S. Mayer, V.J. Paul, W. Fenical, J.N. Norris, M.S. Carvalho, R.S. Jacobs, Phospholipase A2 inhibitors from marine algae, Hydrobiologia, 260/261 (1993) 521.
  • N. Bitou, M. Ninomiya, T. Tsujita, H. Okuda, Screening of lipase inhibitors from marine algae, Lipids, 34 (1999) 441.
  • S. Cengiz, L. Cavas, Removal of methylene blue by using an invasive marine alga Caulerpa racemosa var. cylindracea, Bioresource Technol., 99 (2008) 2357.
  • Z. Bekci, Z. Seki, L. Cavas, Removal of malachite green by using an invasive marine alga Caulerpa racemosa var. cylindracea, J. Hazard. Mater., 161 (2009) 1454.
  • E. Ant-Bursali, L. Cavas, Y. Seki, S. Seyhan, M. Yurdakoc, Biosorption of boron by invasive marine seaweed Caulerpa racemosa var.cylindracea, Chem. Eng. J., 150 (2009) 385.
  • S. Cengiz, L. Cavas, K. Yurdakoc, A low cost immobilization agent from an invasive marine alga: Caulerpa racemosa var.cylindracea for bovine serum albumine, Turk. J. Biochem., 33 (2008) 64.
  • D. Caparkaya, L. Cavas, T. Kesercioglu, The biostimulating effects of invasive Caulerpa racemosa var.cylindracea on Vigna sinensis and Phaselus vulgaris (Fabaceae), Hacettepe J. Biol. Chem., 37 (2009) 123.
  • I. Kontiza, C. Vagias, J. Jakupovic, D. Moreau, C. Roussakis, V. Roussis, Cymodienol and cymodiene: new cytotoxic diarylheptanoids from the sea grass Cymodocea nodosa, Tetrahedron Lett., 46 (2005) 2845.
  • J.M. Ruiz, J. Romero, Effects of disturbances caused by coastal constructions on spatial structure, growth dynamics and photosynthesis of the seagrass Posidonia oceanica, Mar. Pollut. Bull., 46 (2003) 1523.
  • P. Sánchez-Jerez, A.A.R. Esplá, Detection of environmental impacts by bottom trawling on Posidonia oceanica (L) Delile meadows: sensitivitiy of fish and macroinvertebrate communities, J. Aquat. Ecosyst. Heal., 5 (1996) 239.
  • S.S. Bozkurt, L. Cavas, Can Hg(II) be Determined via Quenching of the Emission of Green Fluorescent Protein from Anemonia sulcata var. smaragdina?, Appl. Biochem. Biotech., 158 (2009) 51.
  • A.A. Pakhomov, Y.A. Tretyakova, V.I. Martynov, Posttranslational Reactions that Shift Spectra of asFP595, a Protein from Anemonia sulcata, Towards the Long-Wavelength Region, Russ. J. Bioorg. Chem., 36 (2010) 109.
  • B. Hereu, C. Linares, E. Sala, J. Garrabou, A. Garcia- Rubies, et al., Multiple Processes Regulate Long- Term Population Dynamics of Sea Urchins on Mediterranean Rocky Reefs, PLoS ONE, 7 (2012) 36901.
  • D. Privitera, V. Giussani, G. Isola, M. Faimali, V. Piazza, F. Garaventa, V. Asnaghi, E. Cantamessa, R. Cattaneo- Vietti, M. Chiantore, Toxic effects of Ostreopsis ovata on larvae and juveniles of Paracentrotus lividus, Harmful Algae, 18 (2012) 16.
Hacettepe Journal of Biology and Chemistry-Cover
  • ISSN: 2687-475X
  • Yayın Aralığı: Yılda 4 Sayı
  • Başlangıç: 1972
  • Yayıncı: Hacettepe Üniversitesi, Fen Fakültesi