Oyster (Crassostrea virginica,Gmelin) spat settlement and copper in aufwuchs |
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Authors: | Harriette L Phelps Joseph A Mihursky |
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Institution: | 1. Biology Department, University of the District of Columbia, 4200 Connecticut Ave. N.W., 20008, Washington, D.C. 2. Chesapeake Biological Laboratory, University of Maryland, 20688, Solomons, Maryland
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Abstract: | Oysters from paired sites of high and low spatfall at three mid-Chesapeake Bay locations were analyzed for tissue copper and tissue zinc as well as copper in aufwuchs scraped from the upper (right valve) shell surface. Paired sites had no significant differences in oyster tissue copper, aufwuchs copper or oyster tissue copper-zinc ratio. In the laboratory, natural aufwuchs material on oyster shell rapidly concentrated copper up to 10× from copper-enriched estuarine water, with a partition coefficient (Ka) of 0.640 I kg?1. Aufwuchs-sorbed copper resisted depuration, suggesting a strong metal-binding substance in aufwuchs material. Eyed veliger oyster larvae (setting stage) exposed to oyster shell fragments having copper-enriched aufwuchs showed normal setting preference for bottoms and edges of shell surfaces but a slight decrease in total set with increasing aufwuchs copper concentration. Settled oyster spat died or failed metamorphosis with LD50=534 μg Cu g?1 aufwuchs. Since mid-Bay aufwuchs copper concentrations averaged 35.5 μg?1, ranging up to 103 μg g?1, oyster spatfall probably is not affected solely by present natural aufwuchs copper concentrations, but the potential for problems exists. |
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