Abstract
Mediterranean (blue) mussels (Mytilus galloprovincialis) collected from a reference site were transplanted to 15 stations in coastal areas around Ulsan and Onsan Bays, an extensively metal polluted area in Korean coastal waters, to assess metal contamination in the coastal oceans of Korea. During the biomonitoring periods (June 30 to July 20, 2003; 21 days), transplanted mussels, seawater, and particulate materials were collected for analysis of 15 metals (Ag, As, Cd, Co, Cr, Cu, Fe, Hg, Mn, Ni, Pb, Sb, Se, Sn, and Zn). Transplanted mussels showed metal enrichment compared to initial concentrations and spatial gradients consistent with dissolved and/or particulate metal concentrations in seawaters. Based on Q mode factor analysis, stations were clustered into three groups. The first group, located on Onsan Bay, showed high Ag, Cd, Cu, Hg, Pb, Sb and Zn enrichment, presumably arising from non-ferrous metal refineries and chemical industries in this area. The second group was located near the mouth of the Oehwang River and was enriched in Co from petrochemical industries. The third group comprised a site intermediate between Group 1 and Group 2, an isolated station with independent metal sources located in Jangsaengpo harbor, where a number of ship repairing and building companies operate, and a less contaminated station near a small fishing village. Metal accumulation rates (%·day-1) in mussels were estimated to be between 8% (Cr) and 281% (Pb), based on accumulated metal concentrations over 21 days. The active biomonitoring technique using M. galloprovincialis demonstrated here is a useful monitoring method because it reflects the present status of seawaters; furthermore, physiological factors can be standardized, and bioavailable and time-integrated metal concentrations can be obtained. Furthermore, this method can be applied even in coastal seawaters so heavily contaminated that living organisms would not normally survive.
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References
Andral B, Stanisiere JY, Sauzade D, Damier E, Thebault H, Galgani F, Boissery P (2004) Monitoring chemical contamination levels in the Mediterranean based on the use of mussel caging. Mar Pollut Bull 49:704–712
Bebianno MJ, Machado LM (1997) Concentrations of metals and metallothioneins in Mytilus galloprovincialis along the South Coast of Portugal. Mar Pollut Bull 34(8):666–671
Beiras R, Bellas J, Fernandez N, Lorenzo JI, Cobelo-Garcia A (2003) Assessment of coastal marine pollution in Galicia (NW Iberian Peninsula); metal concentrations in seawater, sediments and mussels (Mytilus galloprovincialis) versus embryo-larval bioassays using Paracentrotus lividus and Ciona intestinalis. Mar Environ Res 56:531–553
Besada V, Fumega J, Vaamonde A (2002) Temporal trends of Cd, Cu, Hg, Pb and Zn in mussel (Mytilus galloprovincialis) from the Spanish North-Atlantic coast 1991–1999. Sci Total Environ 288:239–253
Chae JS, Choi MS, Song YH, Um IK, Kim JG (2014) Source identification of heavy metal contamination using metal association and Pb isotopes in Ulsan Bay sediments, East Sea, Korea. Mar Pollut Bull 88:373–382
Chafik A, Cheggour M, Cossa D, Sifeddine SBM (2001) Quality of Moroccan Atlantic coastal waters: water monitoring and mussel watching. Aquat Living Resour 14:239–249
Clark RB (2001) Marine pollution, 5th edition. Oxford University Press, Oxford, 237 p
Conti ME, Cecchetti G (2003) A biomonitoring study: metals in algae and mollusks from Tyrrhenian coastal areas. Environ Res 93:99–112
De Kock WC, Kramer KJM (1994) Active biomonitoring (ABM) by translocation of bivalve molluscs. In: Kramer KJM (ed) Biomonitoring of coastal waters and estuaries. CRC Press, Boca Raton, pp 51–84
Favretto L, Campisi B, Reisenhofer E, Adami G (1997) Terrigenous debris and mussel pollution-a differentiation based on trace element concentration by means of multivariate analysis. Anal Chim Acta 344:251–259
Goldberg ED, Koide M, Hodge V, Flegal AR, Martin J (1983) U.S. mussel watch: 1977–1978 results on trace metals and radionuclides. Estuar Coast Shelf S 16:69–93
Kang SG, Choi MS, Oh IS, Wright DA, Koh CH (1999) Assessment of metal pollution on Onsan Bay, Korea using asian periwinkle Littorina brevicula as a biomonitor. Sci Total Environ 234: 127–137
Kim CK, Choi MS, Lee CB (2004) Accumulation and release of heavy metals (Cu, Zn, Cd and Pb) in the mussel, mytilus galloprovincialis; reciprocal transplantation experiment. J Korean Soc Oceanogr 39(3):197–206
Koh CH, Khim JS, Villeneuve DL, Kannan K, Giesy JP (2002) Analysis of trace organic contaminants in sediment, pore water, and water samples from Onsan Bay, Korea: instrumental analysis and in vitro gene expression assay. Environ Toxicol Chem 21(9):1796–1803
KICOX (2001) Korea industrial complex directory. Korea Industrial Complex Corp (KICOX), 1493 p
Kwon YA (2012) Physical environmental characteristics in Ulsan coastal seawaters. M.D. Thesis, Chonnam National University, 73 p
Lee BK, Duong TT (2006) Characteristics of heavy metals in road dust in Ulsan city, Korea. In: Proceeding of the 43rd meeting of korean society for atmospheric environment, Mokpo, Korea, 26–28 Oct, pp 117–120
Lee SH (1994) Marine environmental pollution studies using bivalves as a bioindicator. Korean J Malacol 10(2):24–40
MOE (2002) Environmental statistics yearbook 2002. Ministry of Environment (MOE), Seoul, 647 p
O’Connor TP (2002) National distribution of chemical concentrations in mussels and oyster in the USA. Mar Environ Res 53(2): 117–143
Papatheodorou G, Lyberis E, Ferentinos G (1999) Use of factor analysis to study the distribution of metalliferous bauxitic tailings in the seabed of the gulf of corinth, Greece. Nat Resour Res 8(4):277–286
Phillips DJH, Rainbow PS (1994) Biomonitoring of trace aquatic contaminants. Chapman & Hall, New York, 371 p
Rüdel H (2003) Case study: bioavailability of tin and tin compounds. Ecotox Environ Safe 56:180–189
Shim WJ, Hong SH, Yim UH, Kim NS, Oh JR (2002) Horizontal and vertical distribution of butyltin compounds in sediments from Shipyards in Korea. Arch Environ Con Tox 43:277–283
Shine JP, IKA RV, Ford TE (1995) Multivariate statistical examination of spatial and temporal patterns of metals concentration in New Bedford harbor marine sediments. Environ Sci Technol 29:1781–1788
Struck BD, Pelzer R, Ostapczuk P, Emons H, Mohl C (1997) Statistical evaluation of ecosystem properties influencing the uptake of As, Cd, Co, Cu, Hg, Mn, Ni, Pb and Zn in seaweed (Fucus vesiculosus) and common mussel (Mytilus edulis). Sci Total Environ 207(1):29–42
Szefer P, Kim BS, Kim CK, Kim EH, Lee CB (2004) Distribution and coassociations of trace elements in soft tissue and byssus of Mytilus galloprovincialis relative to the surrounding seawater and suspended matter of the southern part of the Korean peninsula. Environ Pollut 129:209–228
Ugur S (2002) Comparison of heavy metal levels in native and cultured mussel Mytilus galloprovincialis (L, 1758) from the Bay of Izmir (Aegean Sea/Turkey). In: CIESM Workshop series, no.15, Marseilles, 18–20 April 2002, pp 101–103
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Kim, CK., Choi, M.S. Biomonitoring of trace metals using transplanted mussels, Mytilus galloprovincialis, in coastal areas around Ulsan and Onsan Bays, Korea. Ocean Sci. J. 52, 31–42 (2017). https://doi.org/10.1007/s12601-017-0017-4
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DOI: https://doi.org/10.1007/s12601-017-0017-4