Bioaccumulation of newly deposited mercury by fish and invertebrates: an enclosure study using stable mercury isotopes. Paterson, M., J., Blanchfield, P., J., Podemski, C., L., Hintelmann, H., Gilmour, C., C., Harris, R., C., Ogrinc, N., Rudd, J., W., M., & Sandilands, K., A. Canadian Journal of Fisheries and Aquatic Sciences, 63(10):2213-2224, 2006.
Bioaccumulation of newly deposited mercury by fish and invertebrates: an enclosure study using stable mercury isotopes [pdf]Paper  abstract   bibtex   
Enriched stable mercury (Hg) isotopes were added to four 10 m diameter enclosures in Lake 239 at the Experimental Lakes Area to increase inorganic Hg loading. Our main objectives were to (i) follow low-level additions (spikes) of isotope-enriched Hg through the biogeochemical cycle and into the food web and (ii) determine the relative contribution of newly deposited Hg to methyl Hg (MeHg) accumulation by fish and other biota. The experiment ran for two summers (2000, 2001), with different enriched Hg isotopes being added each year. Within 1 month of beginning additions in 2000, spike Hg was detected in water, zooplankton, and benthic invertebrates as MeHg, and in fish as total Hg (THg; the sum of inorganic and organic Hg). In 2001, concentrations in water of inorganic spike Hg added in 2000 were near detection limits, but concentrations of 2000 spike MeHg in water and biota remained unchanged or greater. Despite comparatively large increases in inorganic Hg loading, accumulation of ambient, non-spike MeHg predominated in all organisms, and spike MeHg never comprised more than 15%, even after 1 year. Our results suggest that changes in Hg loading will affect MeHg concentrations in fish and other biota, but that steady state may not be achieved for at least 10-30 years under conditions similar to our enclosures. © 2006 NRC.

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