Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Organometallic compounds are widely used in almost all sectors of industry. Some organometallic compounds are very potent toxins. Human activity releases organometallic compounds into the natural environment where they undergo various changes through compoundenvironment interactions. These compounds have a negative impact on living organisms. The most widespread, man-made organometallic compounds present in the natural environment are those of tin, mercury and lead.
Czasopismo
Rocznik
Tom
Strony
43--71
Opis fizyczny
Bibliogr. 53 poz., tab., wykr.
Twórcy
autor
- University of Gdańsk, Department of Marine Chemistry and Marine Environmental Protection, Gdynia
autor
- Gdańsk University of Technology, Chemistry Department, Analytical Chemistry Faculty, Gdańsk
autor
- University of Gdańsk, Department of Marine Chemistry and Marine Environmental Protection, Gdynia
Bibliografia
- [1]. Albanis T.A., Lambropoulou D.A., Sakkas V.A., Konstantinou I.K., 2002. Antifoulingpaint booster biocide contamination in Greek marine sediments. Chemosphere, 48, 475-485.
- [2]. Alzieu C., 2000. Environmental impact of TBT: the French experience. Sci. Total. Environ., 258, 99-102.
- [3]. Biselli S., Bester K., Hhnerfuss H., Fent K., 2000. Concentrations of the antifouling compound Irgarol 1051 and of organotin in water and sediments of German North and Baltic Sea marinas. Mar. Pollut. Bull., 3, 233-243.
- [4]. Champ M., A., 2000. A review of organotin regulatory strategies pending actions, related costs and beneflts. Sci. Total. Environ., 258, 21-71.
- [5]. Diez S., Abalos M., Bayona J.M., 2002. Organotin contamination in sediments from the Western Mediterranean enclosures following 10 years of TBT regulation. Water Res., 36, 905-918.
- [6]. Dojlido J., 1987. Chemia wody. Arkady, Warszawa, 107-112, 119-124.
- [7]. Dutkiewicz T., 1968. Chemia toksykologiczna. Zakład Wydawnictw Lekarskich, Warszawa, 282-292.
- [8]. Fent K., Looser P.W.1995. Bioaccumulation and bioavailability of tributyltin chloride: influence of pH and humic acids. Environ. Sci. Technol., 29, 1631-1637.
- [9]. Forsyth D.S., Weber D., Barlow L., 1999. The determination of organotin compounds in fruit juices using gas chromatography - atomic absorption spectrometry. Appl. Organometal. Chem., 6, 579-585.
- [10]. Gomez-Ariza J.L., E. Morale E., Giraldez L., 1999. Uptake and elimination of tributyltin in clams, Venerupis decussata. Mar. Environ. Res., 47, 399-413.
- [11]. Gadd G.M., 2000. Microbial interactions with tributyltin compounds: detoxification, accumulation, and environmental fate. Sci. Total. Environ., 258, 119-127.
- [12]. Hakanson L., 1988. Metal monitoring in coastal environments [w:] Seelinger U., de Lacerda L.D., Patchineelam S.R., 1988. Metals in Coastal Environments of Latin America, Springer - Verlag, Berlin 297, 239-137.
- [13]. Halino H., Fukushima M., Kurokawa Y., Kawai S., 1997. Susceptibility of bacterial populations to organotin compounds and microbial degradation of organotin compounds in environmental water. Environ. Pollut., 98, 157¬162.
- [14]. Halino H., Fukushima M., Tanaka M., 1992. Simultaneous determination of butyltin and phenyltin compounds in the aquatic environment by gas chromatography. Anal. Chim. Acta., 264, 91-96.
- [15]. Hoch M., Alonso-Zacarate J., Lischick M., 2002. Adsorption behavior of toxic tributyltin to clay rich - sedimetns under various environmental conditions. Environ. Toxicol. Chem., 21, 1390-1397.
- [16]. Hoch M., 2001. Organotin compounds in the environment — an overview. Appl. Geochem. 16, 719-743.
- [17]. Hong H.K, Takahashia S., Min B.Y., Tanabe S., 2002. Butyltin residues in blue mussels (Mytilus edulis) and arkshells (Scapharca broughtonii) collected from Korean coastal waters. Environ. Pollut., 117, 475-486.
- [18]. Kabata-Pendias A., Pendias H., 1993. Biochemia pierwiastków śladowych. Wyd. PWN, 159.
- [19]. Kania C., 1999. Szkodliwe skutki stosowania farb przeciwporostowych w budownictwie okrętowym. Ochrona przed korozją, 42, 588-592.
- [20]. Kawai S., Kurokawa Y., Halino H., Fukushima M., 1998. Degradation of tributyltin by a bacterial strain isolated from polluted river water. Environ. Pollut. 102, 259-263.
- [21]. Korzeniewski K., 1998. Ochrona środowiska morskiego. Wyd. UG, 78-85.
- [22]. Kot A., Namieśnik J, 2000. The role of speciation in analytical chemistry. Trends Anal. Chem. 19, 69-79.
- [23]. Krachler M., Emons H., 2000. Potential of high performance liquid chromatography coupled to flow injection hydride generation atomic absorption spectrometry for the speciation of inorganic or organic antimony compounds. J. Anal. At. Spectrom., 15, 281-285.
- [24]. Laughlin Jr. R.B., Guard H.E., Coleman III W.M, 1986. Tributyltin in seawater: speciation and octanol-water partition coefficient. Environ. Sci. Technol., 20, 201-204 [w:] Fent K., Looser P.W.1995. Bioaccumulation and bioavailability of tributyltin chloride: influence of pH and humit acids. Environ. Sci. Technol., 29, 1631-1637.
- [25]. Lespes G., Carlier - Pinasseau C., Potin - Gautier M., Astruc M., 1996. Direct determination of butyl - and phenyltin compounds as chlorides using gas Chromatography and flame photometric detection. Analyst., 121, 1969-1973.
- [26]. Mastalerz P., 1996. Podręcznik chemii organicznej. Wyd. Chemiczne, Wrocław, 209-216.
- [27]. Michel P., Averty B., Andral B., Chiffoleau J., Galgani F., 2001. Tributyltin along the Coasts of Corsica (Western Mediterranean): A persistent problem. Mar. Pollut. Bull., 42, 1128-1132.
- [28]. Morcillo Y., Porte C., 2000. Evidence of endocrine disruption in calms - Ruditapes decussata- transplanted to a tributyltin - polluted environmental. Environ. Pollut. 107, 47-52.
- [29]. Namieśnik J., 2001. Modern trends in monitoring and analysis of environmental pollutants. Pol. J. Environ. Stud., 10, 6405-413.
- [30]. Namieśnik J., Górecki T., 2001. Preparation of environmental samples for the determination of trace constituents. Pol. J. Environ.Stud., 10, 77-84.
- [31]. Namieśnik J., Górecki T., 2001a. Quality of analytical results. Rev. Roum. Chem. 46, 953-962.
- [32]. Namieśnik J., Jamrógiewicz Z., Pilarczyk M., Torres L., 2000. Przygotowanie próbek środowiskowych do analizy. WNT, Warszawa, 15 -91.
- [33]. Obiols J., Devesa R., Garcia-Berro J., Serra J., 1987. Specjaction of chromium in waters by coprecipitation - AAS. Inter. J. Environ. Anal. Chem., 30, 197-207.
- [34]. Pannier F., Astruc A., Astruc M., 1996. Determination of butyltin compounds in marine biological samples by enzymatic hydrolysis and HG-GC-QFAAS detection., Anal. Chim. Acta., 327, 287-293.
- [35]. Pempkowiak J., 1997. Zarys geochemii morskiej. Wyd. UG, 155-158.
- [36]. Pereiro I.R., Diaz A. C., 2002. Speciation of mercury, tin, and lead compounds by gas chromatography with microwave - induced plasma and atomic - emission detection (GC-MIP-AED). Anal. Bioanal. Chem., 372, 74-90.
- [37]. Pruchnik F., 1993. Preparatyka związków metaloorganicznych: metale przejściowe. PWN, Warszawa, 15-47.
- [38]. Pruchnik F., 1991. Chemia metaloorganiczna. PWN, Warszawa, 17-39.
- [39]. Rajendran R.B, Tao H., Miyazaki A., Ramesh R., Ramachandran S., 2001. Determination of butyl-, phenyl-, octyl- and tributylmonomethyltin compounds in marine environment (Bay of Bengal, India) using gas chromatography - inductively coupled plasma mass spectrometry. J. Environ. Monit., 3, 627-634.
- [40]. Randall L., Weber J.H, 1986. Adsorptive behavior of butyltin compounds under simulated estuarine conditions. Sci. Total. Environ., 57, 191-203.
- [41]. Ritsema R., de Smaele T., Moens L., de Jong A.S., Donard O.F.X., 1998. Determination of butyltins in harbour sediment and water by aqueous phase ethylation GC-ICP-MS and hydride generation GC-AAS., Environ. Pollut., 99, 271-277.
- [42]. Smedes F., de Jong A. S., Davies I. M., 2000. Determination of (mono-, di-and) tributyltin in sediments. Analytical methods. J. Environ. Monit., 2, 541-549.
- [43]. Shim W.J, Hong S.H, Yim U.H., Yim N.S., Kim N.S., Oh J.R., 2002. Horizontal and vertical distribution of butyltin compounds in sediments from Shipyards in Korea. Environ. Contam. Toxicol., 43, 277-283.
- [44]. Shim W., Oh J.R., Kahng S.H., Shim J.H, Lee S.H, 1999. Horizontal distribution of butyltins in surface from an enclosed bay system, Korea. Environ. Pollut., 106, 351-357.
- [45]. Shoukry M.M, 1993. Equilibrium study of tibutyltin (IV) complexes with amino acids and related compounds. Bull. Soc. Chim. Fr. 1230, 117-120 [w:] Fent K., Looser P.W.1995. Bioaccumulation and bioavailability of tributyltin chloride: influence of pH and humit acids. Environ. Sci. Technol., 29, 1631-1637.
- [46]. Steward C., De Mora S.J., 1990. A review of the degradation of tri(n-butyl)tin in marine environmental. Environ. Technol., 11, 565-570.
- [47]. Tobias R.S., 1978. The chemistry of organometallic cations in aqueous media. [w:] Organometals and organometalloids. Occurrence and fate in the environment. (Edited by Brinckman P.E and Bellama J.M)., ACS Symposium Sedes, pp. 130-148 [w:] Fent K., Looser P.W.1995. Bioaccumulation and bioavailability of tributyltin chloride: influence ofpH and humit acids. Environ. Sci. Technol., 29, 1631-1637.
- [48]. Tsang C.k., Lau P.S., Tam N.F.Y., Wong Y.S., 1999. Biodegradation capacity of tributyltin by two Chlorella species. Environ. Pollut., 105, 289-297.
- [49]. Tselentis B.S., Tzannatos E.S., 2000. Butyltin compounds in coastal sediments of areas associated with maritime facilities in Greece. Fresenius Envir. Bull., 9, 499-507.
- [50]. Tsuda T., Aoki S., Kojima M., Harada H., 1990. The influence of pH on the accumulation of tri-n-butyltin chloride and triphenyltin chloride in carp. Comp. Biochem. Physiol. 95, 151-153 [w:] Fent K., Looser P.W.1995. Bioaccumulation and bioavailability of tributyltin chloride: influence of pH and humit acids. Environ. Sci. Technol., 29, 1631-1637.
- [51]. Wasik A., Namieśnik J., 2001. Speciation of organometallic compounds of tin, lead and mercury. Pol. J. Environ. Stud., 10, 405-413.
- [52]. Vella A.J, Vassallo R., 2001. Emission to air of volatile organotins from tributyltin contaminated harbour sediments. Environ. Biol. Toxicol., 16, 239-244.
- [53]. Vella A. J., Mintoff B., Axiak V., Agius D., Cassone R., 1998. Organotin pollution in Malta Coastal zone. Toxicol. Environ. Chem., 67, 491-510.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0013-0047