Abstract
Tributyltin (TBT) is accumulated by all taxa that have been examined. Typical tissue burdens range from undetectable levels to as high as 7 µg g-1 (wet weight). Molluscs, as a group, exhibit the highest tissue burdens and also the highest bioaccumulation factors (BAF). Some microorganisms are also notable accumulators, but in this case adsorption to the biofilm (predominantly polysaccharides) rather than sequestration within cells is an important mechanism of uptake. Crustaceans and fish generally accumulate lower burdens of TBT, probably because they possess enzymatic capability to degrade and excrete TBT. Bioaccumulation factors (BAF) as high as 50 000 have been reported, but the route of uptake (e.g. from water or food) was not necessarily differentiated during the experiment. Experimental studies have specifically examined uptake from water, where calculation of a bioconcentration factor (BCF) is appropriate. BCF values range up to 10 000. Both BAF and BCF values are higher than would be caused by partitioning processes alone. Binding is thus proposed as a mechanism that explains enhanced accumulation. A scheme to explain bioaccumulation is presented that proposes a role for (a) chemical speciation of butyltin with major anions in natural waters, (b) routes of exposure, (c) role for partitioning and binding to control both the kinetics of uptake and burdens in tissues, and (d) contribution of depuration mechanisms to control tissue burdens. Findings presented in this review support the use of biomonitors for TBT contamination, but the tissue burdens of TBT in biomonitors likely reflect a steady-state distribution of TBT in all compartments of the ecosystem rather than concentration in a single compartment (e.g. water). While the topical issue of tributyltin use diminished due to restrictions on its use, this compound provides several important opportunities as a model compound to increase understanding of bioaccumulation processes and environmental compartmentalization, in general. Some further studies may thus be warranted.
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References
Alzieu, C., M. Heral, Y. Thibaud, M.J. Dardignac and M. Feuillet. 1982. Influence des peintures antisalissures à base d’organostanniques sur la calcification de la coquille de l’huître Crassostrea gigas. Rev. Trav. Inst. Pêches Marit., 45, 100–116.
Alzieu, C.L., J. Sanjuan, J.P. Deltriel and M. Borel. 1986. Tin contamination in Arcachon Bay: effects on oyster shell anomalies. Mar. Pollut. Bull., 17, 494–498.
Alzieu, C., J. Sanjuan, P. Michel, M. Borel and J.P. Dréno. 1989. Monitoring and assessment of butyltins in Atlantic coastal waters. Mar. Pollut. Bull., 20, 22–26.
Blair, W.R., G.J. Olson, F.E. Brinckman and W.P. Iverson. 1982. Accumulation and fate of tri-n-butyltin cation in estuarine bacteria. Microbiol. Ecol., 8, 241–251.
Bryan, G.W., P.E. Gibbs, G.L. Hummer s tone and G.R. Burt. 1986. The decline of the gastropod Nucella lapillus around south-west England: evidence for the effect of tributyltin from antifouling paints. J. Mar. Biol. Ass. UK, 66, 611–640.
Bryan, G.W., P.E. Gibbs, G.R. Burt and L.G. Hummerstone. 1987. The effects of tributyltin (TBT) accumulation on adult dog-whelks, Nucella lapillus: long-term field and laboratory experiments. J. Mar. Biol. Ass. UK, 67, 525–544.
Bryan, G.W., P.E. Gibbs, R.J. Huggett, L.A. Curtis, D.S. Bailey and D.M. Dauer. 1989. Effects of tributyltin pollution on the mud snail, Ilyanassa obsoleta, from the York River and Sarah Creek, Chesapeake Bay. Mar. Pollut. Bull., 20, 458–462.
Chiles, T.C., P.E. Pendoley and R.B. Laughlin, Jr. 1989. Mechanisms of tri-n-butyltin bioaccumulation by marine phytoplankton. Can. J. Fish. Aquat. Sci., 46, 859–862.
Clark, T., K. Clark, S. Peterson, D. Mackay and R.J. Norstrom. 1988. Wildlife monitoring, modeling and fugacity. Environ. Sci. Technol., 22, 120–127.
Cooney, J.J. and S. Wuertz. 1989. Toxic effects of tin compounds on microorganisms. J. Indust. Microbiol., 4, 375–402.
Davies, I.M., J.C. McKie and J.D. Paul. 1986. Accumulation of tin and tributyltin from antifouling paint by cultivated scallops (Pecten maximus) and Pacific oysters (Crassostrea gigas). Aquaculture, 55, 103–114.
Donard, O.F.X., F.T. Short and J.W. Weber. 1987. Regulation of tin and methyltin compounds by the green alga Enteromorpha under simulated estuarine conditions. Can. J. Fish. Aquat. Sci., 44, 140–145.
Francois, R., F.T. Short and J.H. Weber. 1989. Accumulation and persistence of tributyltin in eelgrass (Zostera marina L.) tissue. Environ. Sci. Technol., 23, 191–196.
Evans, D.W. and R.B. Laughlin, Jr. 1984. Accumulation of bis(tributyltin) oxide by the mud crab, Rhithropanopeus harrisii. Chemosphere, 13, 213–219.
Gardea-Torresdey, J., M.K. Becker-Hapak, J.M. Hoses and D.W. Darnall. 1990. Effect of chemical modification of algal carboxyl groups on metal ion binding. Environ. Sci. Technol., 24, 1372–1378.
Gristina, A.G., M. Oga, L.X. Webb and C.D. Hobgood. 1985. Adherent bacterial colonization in the pathogenesis of osteomyelitis. Science, 228, 990–993.
Hansch, C., J.E. Quinlan and G.L. Lawrence. 1968. The linear free-energy relationship between partition coefficients and the aqueous solubility of organic liquids. J. Org. Chem., 33, 347–350.
Hansch, C. and A.J. Leo. 1979. Substituent Constants for Correlation Analysis in Chemistry and Biology. John Wiley & Sons, New York.
Jackson, J.A., W.R. Blair, F.E. Brinckman and W.P. Iverson. 1982. Gas chromatographic speciation of methylstannanes in the Chesapeake Bay using purge and trap sampling with a tin selective detector. Environ. Sci. Technol., 16, 110–119.
Langston, W.J. and G.R. Burt. 1991. Bioavailability and effects of sediment-bound TBT in deposit-feeding clams, Scrobicularia plana. Mar. Environ. Res., 32, 61–77.
Laughlin, R.B., Jr, W. French, R.B. Johannesen, H.E. Guard and F.E. Brinckman. 1984. Predictive structure-activity relationships for triorganotin compounds using computed topological values. Chemosphere, 13, 575–584.
Laughlin, R.B., Jr, R.B. Johannesen, W. French, H. Guard and F.E. Brinckman. 1985. Structure-activity relationships for organotin compounds. Environ. Toxicol. Chem., 4, 343–351.
Laughlin, R.B., Jr, W. French and H.E. Guard. 1986a. Accumulation of bis(tributyltin) oxide by the marine mussel Mytilus edulis. Environ. Sci. Technol., 20, 884–390.
Laughlin, R.B., Jr, H.E. Guard and W.M. Coleman, III. 1986b. Tributyltin in seawater: speciation and octanol-water partition coefficient. Environ. Sci. Technol., 20, 201–204.
Laughlin, R.B., Jr, A.B. Cobet and H.E. Guard. 1987. Mechanisms of triorganotin toxicity to macroinvertebrates and the role of the biofilm as a controlled release medium. In: Marine Biodeterioration. Advanced Techniques Applicable to the Indian Ocean, M.-F. Thompson, R. Sarojini and R. Nagabhushanam (Eds). Oxford & IBH Co, New Delhi, pp. 757–767.
Laughlin, R.B., Jr and W. French. 1988. Concentration dependence of bis(tributyltin) accumulation in the marine mussel, Mytilus edulis. Environ. Toxicol. Chem., 7, 1021–1026.
Laughlin, R.B., Jr, P.D. Pendoley and H.E. Guard. 1990. Concentration dependence of tributyltin bioaccumulation by the hard shell clam, Mercenaria mercenaria. NOSC Progress Report, Naval Ocean Systems Command, San Diego.
Lee, R.F. 1985. Metabolism of tributyltin oxide by crabs, oysters and fish. Mar. Environ. Res., 7, 145–149.
Lee, R.F. 1986. Metabolism of bis(tributyltin) oxide by estuarine animals. In: Oceans ‘86 Conference Record, Vol. 4, IEEE Service Center, 445 Hoes Lane, Piscataway, New Jersey, pp. 1182–1188.
Mackay, D. 1982. Correlation of bioconcentration factors. Environ. Sci. Technol., 16, 274–278.
Mackay, D. and A.I. Hughes. 1984. Three-parameter equation describing the uptake of organic compounds by fish. Environ. Sci. Technol., 18, 439–444.
Maguire, R.J. and R.J. Tkacz. 1983. Analysis of butyl tin compounds by gas chromatography. J. Chromatog., 268, 99–101.
Maguire, R.J., J.H. Carey and E.J. Hale. 1983. Degradation of tri-n-butyltin species in water. J. Agr. Food Chem., 31, 1060–1065.
Maguire, R.J., P.T.S. Wong and J.S. Rhamey. 1984. Accumulation and metabolism of tri-n-butyltin cation by a green alga, Ankistrodesmus falcatus. Can. J. Fish. Aquat. Sci., 41, 337–540.
Majidi, V., D.A. Laude, Jr and J.A. Holcombe. 1990. Investigation of the metal-algae binding site with 113Cd nuclear magnetic resonance. Environ. Sci. Technol., 24, 1309–1312.
Martin, R.C., D.G. Dixon, RJ. Maguire, P.V. Hodson and R.J. Tkacz. 1990. Acute toxicity, uptake, depuration and tissue distribution of tri-n-butyltin in rainbow trout, Salmo gairdneri. Aquat. Toxicol., 15, 37–52.
Matthias, C., J.M. Bellama, G.J. Olson and F.E. Brinckman. 1986. A comprehensive method for the determination of aquatic butyltin and butyl-methyltin species at ultra-trace levels using simultaneous hybridization/extraction with GC-FPD. Environ. Sci. Technol., 20, 609–615.
Okoshi, K., K. Mori and T. Nomura. 1987. Characteristics of shell chamber formation between the two local races in the Japanese oyster, Crassostrea gigas. Aquaculture, 67, 313–320.
Rice, CD., F.A. Espourteille and R.J. Huggett. 1987. Analysis of tributyltin in estuarine sediments and oyster tissue, Crassostrea virginica. Appl. Organometal. Chem., 1, 541–544.
Salazar, S.M., B.M. Davidson, M.H. Salazar, P.M. Stang and K.J. Meyers-Schulte. 1987. Effects of TBT on marine organisms: field assessment of a new site-specific bioassay system. In: Oceans ‘87 Conference Record, Vol. 4, IEEE Service Center, 445 Hoes Lane, Piscataway, New Jersey, pp. 1461–1470.
Salazar, M.H. and S.H. Salazar. 1988. Tributyltin and mussel growth in San Diego Bay. In: Ocean ‘88 Conference Record, Vol. 4, IEEE Service Center, 445 Hoes Lane, Piscataway, New Jersey, pp. 1188–1195.
Sasaki, K., T. Suzuke and Y. Saito. 1988a. Determination of tri-n-butyltin and di-n-butyltin compounds in yellowtails. Bull. Environ. Contam. Toxicol., 41, 888–895.
Sasaki, K., T. Ishizaka, T. Suzuke and Y. Saito. 1988b. Determination of tri-n-butyltin and di-n-butyltin compounds in fish by gas chromatography with flame photometric detection. J. Assoc. Off. Anal. Chem., 71, 360–365.
Short, J.W. and F.P. Thrower. 1986. Accumulation of butyltins in muscle tissue of Chinook salmon reared in sea pens treated with tri-n-butyltin. Mar. Pollut. Bull., 17, 542–545.
Short, J.W. and F.P. Thrower. 1987. Tri-n-butyltin caused mortality of Chinook salmon, Oncorhynchus tshawytscha, on transfer to a TBT-treated marine net pen. In: Oceans ‘86 Conference Record, Vol. 4, IEEE Service Center, 445 Hoes Lane, Piscataway, New Jersey, pp. 193–197.
Slesinger, A.E. and I. Dressier. 1978. Degradation of TBT by bacteria. In: Report of the Organotin Workshop, M.L. Good (Ed.), New Orleans, Louisiana.
Soracco, R.J. and D.H. Pope. 1983. Bacteriostatic and bactericidal modes of action of bis(tributyltin) oxide on Legionella pneumonophila. Appl. Environ. Microbiol., 45, 48–57.
Sullivan, J.J., J.D. Torkelson, M.M. Wekell, T.A. Hollingworth, W.L. Saxton and G.A. Miller. 1988. Determination of tri-n-butyltin and di-n-butyltin in fish as hydride derivatives by reaction gas chromatography. Anal. Chem., 60, 626–631.
Takami, K., H. Yamamoto, T. Okumura, A. Sugimae and M. Nakamoto. 1987. Application of ‘clean-up’ cartridge for gas chromatographic determination of di- and tri-n-butyltin in fish. Anal. Sci., 3, 63–70.
Tsuda, T., H. Nakanishi, S. Aoki and J. Takebayashi. 1986. Bioconcentration of butyltin compounds by round crucian carp. Toxicol. Environ. Chem., 12, 137–138.
Tsuda, T., M. Wada, S. Aoki and Y. Matsui. 1987. Excretion of bis(tri-n-butyltin) oxide and triphenyltin chloride from carp. Toxicol Environ. Chem., 16, 17–25.
Tsuda, T., H. Nakanishi, S. Aoki and J. Takebayashi. 1988a. Bioconcentration and metabolism of butyltin compounds in carp. Water Res., 22, 647–655.
Tsuda, T., M. Wada, S. Aoki and Y. Matsui. 1988b. Bioconcentration, excretion and metabolism of bis (tri-n-butyltin) oxide and triphenyltin chloride by gold fish. Toxicol. Environ. Chem., 18, 11–20.
Unger, M.A., W.G. Maclntyre, J. Greaves and R.J. Huggett. 1986. GC determination of butyltins in natural waters by flame photometric detection of hexyl derivatives with mass spectrometric confirmation. Chemosphere (UK), 15, 461–468.
Valkirs, A.O., P.F. Seligman, G. Vafa, P.M. Stang, V. Homer and S.H. Lieberman. 1985. Speciation of Butyltins and Methylbutyltins in Seawater and Marine Sediments by Hydride Derivatization and Atomic Absorption Detection. Technical Report 1087, Naval Oceans System Center, San Diego, California, 25 pp.
Valkirs, A.O., P.F. Seligman, P.M. Stang, V. Homer, S.H. Lieberman, G. Vafa and CA. Dooley. 1986. Measurement of butyltin compounds in San Diego Bay. Mar. Pollut. Bull., 17, 319–324.
Wade, T.L., B. Garcia-Romero and J.M. Brooks. 1988. Tributyltin contamination in bivalves from United States Coastal Estuaries. Environ. Sci. Technol., 22, 1488–1493.
Waldock, M.J. and J.E. Thain. 1983. Shell thickening in Crassostrea gigas: organotin antifouling or sediment induced? Mar. Pollut. Bull., 14, 411–415.
Waldock, M.J., J. Thain and D. Miller. 1983. The accumulation and depuration of bis (tributyltin) oxide in oysters: a comparison between the Pacific oyster (Crassostrea gigas) and the European flat oyster (Ostrea edulis). International Council for the Exploration of the Sea CM1983/E:52.
Ward, G.S., G.C. Cramm, P.R. Parrish, H. Trachman and A. Slesinger. 1981. Bioaccumulation and chronic toxicity of bis(tributyltin) oxide (TBT): tests with a saltwater fish. In: Aquatic Toxicology and Hazard Assessment: Fourth Conference, D.R. Branson and K.L. Dickson, (Eds). American Society for Testing and Materials, Philadelphia, ASTM STP 737, pp. 183–200.
Wieth, J.O. and T. Tosteson. (1979). Organotin-mediated exchange diffusion of anions in human red cells. J. Gen. Physiol., 73, 765–788.
Widdows, J, S.L. Moore, K.R. Clarke and P. Donkin. 1983. Uptake, tissue distribution and elimination of [14-C]naphthalene in the mussel, Mytilus edulis. Mar. Biol., 76, 109–114.
Wolniakowski, K.U., M.D. Stephenson and G.S. Ichikawa. 1987. Tributyltin concentrations and Pacific oyster deformation in Coos Bay, Oregon. In: Oceans ‘87 Conference Record, Vol. 4, IEEE Service Center, 445 Hoes Lane, Piscataway, New Jersey, pp. 1438–1442.
Wong, P.T.S., Y.K. Chau, O. Kramar and G.A. Bengert. 1981. Structure-toxicity relationship of tin compounds on algae. Can. J. Fish. Aquat. Sci., 39, 483–488.
Wulf, R.G. and K.H. Byington. 1975. On the structure-activity relationships and mechanisms of organotin induced, non energy dependent swelling of liver mitochondria. Arch. Biochem. Biophys., 167, 176–185.
Zuolian, C. and A. Jensen. 1989. Accumulation of organic and inorganic tin in blue mussel, Mytilus edulis, under natural conditions. Mar. Pollut. Bull., 20, 281–286.
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Laughlin, R.B. (1996). Bioaccumulation of TBT by Aquatic Organisms. In: Champ, M.A., Seligman, P.F. (eds) Organotin. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-1507-7_16
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