Metal methylation has been studied in estiiarine waters by directly
coupled GC-AAS/llquid nitrogen trapped hydride generation systems
and determined accurately. Surveys were carried out in the estuaries
of the River Tamar, Camon and Beaulieu (S. England) over a seasonal
cycle.
Methylated forms of Fb were only observed in rain, drain and estuarine
water samples collected in the Tamar. In estuarine waters (GH«)«Fb*''
(<2-10 ng Fb 1"^) was the predominant methylated Fb species. Monomethylarsenic and dimethylarsenic species were observed in the
water column in a ll3 estuaries studied. In the Tamar, Beaulieu and
Carnon concentrations of methylated As species were similar with
concentrations ranging from <0.02-0.7 pg As 1"^. In Tamar porewaters
concentrations of methylated As species ranged from< 0.02-0.7 As 1"-^.
Methylated forms of Se {Se(CH^)^, 0.5ug Se l"""-) were detected on
an occasion in the Carnon.
Modelling studies on Pb methylation suggest that conversion of
trimethyllead acetate to Ti-IL proceeds by a chemical sulphide-mediated
pathway (maximum 2.8% conversion occurred for a biological sediment
system). Methylation of inorganic Pb ( H ) salts was not reproducible
(maximum conversion of 0,OZQ% for PbGl^) but when observed a biologically
mediated methylation process was invoked. From laboratory modelling
studies temporal variations in As speciation observed in the Tamar
were attributed to seasonal contributions of methylated As species from
3 sources: (i) macro-algae; ( ii ) diatoms; ( iii ) porewaters. The
predominance of dimethylarsenic species over monomethylarsenic species
in summer reflects the importance of plankton sources. In winter
a transition takes place where the predominance of methylated As
species occur and concentrations of monomethylarsenic species exceeds
that of dimethylarsenic species. This transition is attributed to the
increased importance of the porewater source in winter.
The significance of metal methylation in the cycling of Pb, As and
Se in estuarine waters appears to follow the order Asj>Se>^Fb. The
biomethylation of As being highly significant in the transportation
of As in the environment.
Date of Award | 1986 |
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Original language | English |
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Awarding Institution | |
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METAL METHYLATION IN ESTUARINE WATERS
WALTON, A. P. (Author). 1986
Student thesis: PhD