Methylation of mercury and tin by estuarine microbial mats

After tin and mercury salts were added to estuarine microbial mats increasing amounts of methyltin and methylmercury, respectively, were formed over a 30 to 100 hour time period. Inhibition of the methylation by molybdate, a metabolic inhibitor of sulfate reduction, stimulation by pyruvate addition and lack of methylation by sterilized mats, were evidence that sulfate reducing bacteria within the mats were responsible for the tin and mercury methylation. Methyl mercury was formed from mercuric chloride and mercuric cysteine, but not from mercuric sulfide. We suggest that mercury bound to organic complexes in anoxic sediments is likely methylated by microbial mats. Since estuarine meiofauna and macrofauna fed on microbial mats, the methylmercury and methyltin formed by microbial mats could be an important avenue for the entrance of these compounds into the marine food web.