Ralph G. Smith scite author profile

Concentrations of total mercury and methyl mercury were determined in sediment and fish collected from estuarine waters of Florida to understand their distribution and partitioning. Total mercury concentrations in sediments ranged from 1 to 219 ng/g dry wt. Methyl mercury accounted for, on average, 0.77% of total mercury in sediment. Methyl mercury concentrations were not correlated with total mercury or organic carbon content in sediments. The concentrations of total mercury in fish muscle were between 0.03 and 2.22 (mean: 0.31) micrograms/g, wet wt, with methyl mercury contributing 83% of total mercury. Methyl mercury concentrations in fish muscle were directly proportional to total mercury concentrations. The relationship of total and methyl mercury concentrations in fish to those of sediments from corresponding locations was fish-species dependent, in addition to several abiotic factors. Among fish species analyzed, hardhead catfish, gafftopsail catfish, and sand seatrout contained the highest concentrations of mercury. Filtered water samples from canals and creeks that discharge into the Florida Bay showed mercury concentrations of 3-7.4 ng/L, with methyl mercury accounting for < 0.03-52% of the total mercury. Consumption of fish containing 0.31 microgram mercury/g wet wt, the mean concentration found in this study, at rates greater than 70 g/day, was estimated to be hazardous to human health.

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Effects of Exposure to Mercury in the Manufacture of Chlorine

Smith

Vorwald

Patil

et al. 1970

American Industrial Hygiene Association Journal

162

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Inadequacy of NASQAN data for assessing metal trends in the nation's rivers

Windom¹,

Byrd²,

Smith³

et al. 1991

Environ. Sci. Technol.

128

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Nanoparticle PEBBLE Sensors in Live Cells and In Vivo

Lee

Smith

Kopelman

2009

Annual Rev. Anal. Chem.

171

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Nanoparticle sensors have been developed for imaging and dynamic monitoring, in live cells and in vivo, of the molecular or ionic components, constructs, forces and dynamics, all in real time, during biological/chemical/physical processes. With their biocompatible small size and inert matrix, nanoparticle sensors have been successfully applied for non-invasive real-time measurements of analytes and fields in cells and rodents, with spatial, temporal, physical and chemical resolution. This review describes the diverse designs of nanoparticle sensors for ions and small molecules, physical fields and biological features, as well as the characterization, properties, and applications of these nanosensors to in vitro and in vivo measurements. Their floating as well as localization ability in biological media is captured by the acronym PEBBLE: photonic explorer for bioanalysis with biologically localized embedding.

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Ralph G. Smith

Natural trace metal concentrations in estuarine and coastal marine sediments of the southeastern United States

Distribution of Total Mercury and Methyl Mercury in Water, Sediment, and Fish from South Florida Estuaries

Effects of Exposure to Mercury in the Manufacture of Chlorine

Inadequacy of NASQAN data for assessing metal trends in the nation's rivers

Nanoparticle PEBBLE Sensors in Live Cells and In Vivo

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