부산대학교 도서관

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ecoenv.2009.01.011 Byline: Gretchen Loeffler Peltier (a), Meredith S. Wright (b), William A. Hopkins (b), Judy L. Meyer (a) Keywords: Corbicula fluminea; Coal-fired power plant; Selenium; Mercury; Glutathione; Condition index; Bioaccumulation Abstract: Lentic organisms exposed to coal-fired power plant (CFPP) discharges can have elevated trace element concentrations in their tissues, but this relationship and its potential consequences are unclear for lotic organisms. To explore these patterns in a lotic environment, we transplanted Corbicula fluminea from a reference stream to a stream receiving CFPP discharge. We assessed trace element accumulation and glutathione concentration in clam tissue, shell growth, and condition index at five sites along a contamination gradient. Clams at the most upstream and contaminated site had the highest growth rate, condition index, glutathione concentrations, and concentrations of arsenic (7.85[+ or -]0.25[mu]g/g [dry mass]), selenium (17.75[+ or -]0.80[mu]g/g), and cadmium (7.28[+ or -]0.34[mu]g/g). Mercury concentrations declined from 4.33[+ or -]0.83 to 0.81[+ or -]0.11[mu]g/g [dry mass] in clams transplanted into the selenium-rich environment nearest the power plant, but this effect was not as evident at less impacted, downstream sites. Even though dilution of trace elements within modest distances from the power plant reduced bioaccumulation potential in clams, long-term loading of trace elements to downstream depositional regions (e.g., slow moving, silty areas) is likely significant. Author Affiliation: (a) University of Georgia, Odum School of Ecology, Athens, GA 30602, USA (b) University of Georgia, Savannah River Ecology Laboratory, Aiken, SC 29802, USA Article History: Received 7 August 2008; Revised 23 January 2009; Accepted 26 January 2009