Abstract
Fe, Mn, Cu, Pb and Cd concentration distribution in six green macroalgae species from the Bulgarian Black Sea coast were determined. The measurement of these metals was carried out during six seasons from 1996 to 2002 using atomic absorption spectrometry (AAS). Samples were collected from eight different sites–Shabla, Kaliakra, Tuzlata, Ravda, Ahtopol and Sinemoretz. The obtained heavy metal (HM) data (mean values μ g/g) for all algae are: 650 ± 100 for Fe, 184 ± 15 for Mn, 5.6 ± 0.5 for Cu, 3.3 ± 0.3 for Pb and 1.1 ± 0.2 for Cd. The obtained HM contents indicate that different species demonstrate various degree of metal accumulation and the obtained higher values in the northern sector of the studied zone can be attributed to the discharge influence of the big rivers, entering the Black Sea–Danube, Dnyepr, Dnester and local pollutant emissions. All data show that there is no serious contamination in green macroalgae with heavy and toxic metals along the whole Bulgarian Black Sea coast.
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References
Babich, H., Devaris, M. and Stotzki, G.: 1985, ‘The mediation of mutagenicity and clastogenicity of heavy metals by physiochemical factors’, Environ. Res. 37, 325–331.
Brix, H., Lyngby, J. and Schierup, H.: 1983, ‘Eelgrass (Zostera marina L.) as an indicator organism of trace metals in Limfjord, Denmark’, Mar. Environ. Res. 8, 165–181.
Carpenter, S. R. and Lodge, D. M.: 1986, ‘Effects of submersed macrophytes on ecosystem processes’, Aquatic Bot. 26, 341–370.
Favero, N., Cattalini, F., Bertaggia, D. and Albergoni, V.: 1996, ‘Metal accumulation in a biological indicator (Ulva rigida) from the Lagoon of Venice (Italy)’, Arch. Environ. Contam. Toxicol. 31, 9–18.
Forsberg, A., Soderlund, S., Frank, A., Petersson, L. and Pedersen, M.: 1988, ‘Studies of metal content in the brown seaweed , Fucus vesiculosus, from the Archipelago of Stockholm’, Environ. Pollut. 49, 245–263.
Güven, K. C., Topcuoglu, S., Kut, D., Esen, N., Erentürk, N., Saygi, N., Cevher, E., Güvener, B. and Öztürk, B.: 1992, ‘Metal uptake by Black Sea Algae’, Bot. Marina 35, 337–340.
Haritonidis, S. and Malea, P.: 1995, ‘Seasonal and local variation of Cr, Ni and Co concentration in Ulva rigida, C. agardh and Enteromorpha linza (Linnaeus) from Thermaikos Gulf, Greece’, Environ. Pollut. 89, 319–327.
Haritonidis, S. and Malea, P.: 1999, ‘Bioaccumulation of metals by the green alga Ulva rigida from Thermaikos Gulf, Greece’, Environ. Pollut. 104, 365–372.
Ho, Y. B.: 1981, ‘Mineral element content in Ulva lactuca L. with reference to eutrophication in Hong Kong coastal waters’, Hydrobiology 77, 43–47.
Ho, Y. B.: 1990, ‘ Ulva lactuca as bioindicator of metal contamination in intertidal waters in Hong Kong’, Hydrobiology 203, 73–81.
Kalugina-Gutnik, A. A.: 1975, in: Greze W. N. (ed), Phytobentos of the Black Sea, Naukova dumka, p. 16.
Kilgore, J., Dibble, E. D. and Hoover, J. J.: 1993, ‘Relationships between fish and aquatic plants: A plan of study’, Miscellaneous paper A-93–1, U.S. Army Corps of Engineers WES, Vicksburg, MS.
McFarren, E., Lishka, R. and Parker, J.: 1970, ‘Criterion for judging the acceptability of analytical methods’, Anal. Chem. 42, 358–360.
Mee, L. D.: 1992, ‘The Black Sea in crisis: A need for concerted international action’ AMBIO 2, 278–286.
Muse, J. O., Stripeikis, J. D., Fernandez, F. M., d’Huicque, L., Tudino, M. B., Carducci, C. N. and Troccoli, O. E.: 1999, ‘Seaweeds in the assessment of heavy metal pollution in the Gulf San Jorge, Argentina’, Environ. Pollut. 104, 315–322.
Polikarpov, G. G., Kulebakina, L. G., Timoshchuk, V. I. and Stokozov, N. A., 1991. ‘90Sr and 137Cs in surface waters of the Dniepr River, the Black Sea and the Aegean Sea in 1987 and 1988’, J. Environ. Radioact. 13, 25–34.
Rainbow, P. S. and Phillips, D. J. H.: 1993, ‘Cosmopolitian biomonitors of trace metals’, Mar. Pollut. Bull. 26, 593–601.
Rainbow, P. S.: 1995, ‘Biomonitoring of heavy metal availability in the marine environment’, Mar. Pollut. Bull. 31, 183–192.
Roeva, N. N., Rovinski, F. and Kononov, E.: 1996, ‘Specific features of heavy metal behavior in different nature media’, Zhurnal Analytichnoy Khimii 51, 384–391.
Topcuoglu, S. and Gungor, N.: 1999, ‘Radionuclide concentrations in macroalgae and sediment samples from the Bosphorus’, Turk. J. Mar. Sci. 5, 19.
Topcuoŭlu, S., Esen, N., Egilli, E., Gündör, N. and Kut, D.: 1998, ‘Trace elements and 137-Cs in macroalgae and mussels from the kilyos in Black Sea’, in: International Symposium of Marine Pollution, Monaco, IAEA SM-354, pp. 283–284.
Topcuoglu, S., Kut, D., Esen, N., Gungor, N., Olmez (Egilli) E. and Kirbasoglu, C.: 2001, ‘137Cs in biota and sediment samples from Turkish coast of the Black Sea, 1997–1998’, J. Radioan. Nucl. Chem. 250(4), 381.
Tuncer, G., Karakas, T., Balkas, T. I., Gokcay, C. F., Aygun, S., Yurteri, C. and Tuncel, G.: 1998, ‘Land-based sources of pollution along the Black Sea coast of Turkey: Concentrations and annual loads to the Black Sea’, Mar. Pollut. Bull. 36, 409–423.
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Strezov, A., Nonova, T. Environmental Monitoring of Heavy Metals in Bulgarian Black Sea Green Algae. Environ Monit Assess 105, 99–110 (2005). https://doi.org/10.1007/s10661-005-3158-3
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DOI: https://doi.org/10.1007/s10661-005-3158-3