Abstract
There are spatial differences in methyl mercury (MeHg) concentrations in biota in Water Conservation Areas 2 and 3 in the Everglades, with higher concentrations generally found in the southern areas. Fish and hemipterans had the most MeHg on a wet weight basis, with levels exceeding 30 ng g-1. The magnitude of MeHg accumulation in biota varies seasonally and does not always appear to be associated with changes in water column concentration. This is exemplified by periphyton, the base of the foodweb in the Everglades, at a high nutrient sampling site. Although limited in scope, MeHg concentrations presented for biota provide insight into beginning to understand the dynamic nature of Hg transfer in the Everglades foodweb on a spatial and temporal basis.
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References
Back R, Vissman V & Watras CJ (1995) Microhomogenization of individual zooplankton species improves mercury and methylmercury determinations. Can. J. Fish. Aquat. Sci. 52: 2470–2475
Beverly A-H, Jagoe CH & Winger P (1996) Biomagnification of mercury in the Okefenokee Swamp: Abstract. Mercury as a Global Pollutant. Hamburg, Germany
Bodaly RA, Paterson MJ, Rosenberg DM, Fudge RJP, Hall BD, Wiens AP, Rudd JWM & St. Louis VL (1996) Increases in mercury in fish and invertebrates in an experimental boreal reservoir: Abstract. Mercury as a Global Pollutant. Hamburg, Germany
Browder JA, Gleason PJ & Swift DR (1994) Periphyton in the Everglades: Spatial variation, environmental correlates, and ecological implications. In The Everglades (pp 379–419). St. Lucie Press, Delray Beach, FL
Driscoll C, Yan C, Schofield CL, Munson R & Holsapple R (1994) Environ. Sci. Technol. 28: 136–143
Fitzgerald WF & Gill GA (1979) Sub-nanogram determination of mercury by two-stage gold amalgamation and gas-phase detection applied to atmospheric analysis. Anal. Chem. 51: 1714–1720
Fitzgerald WF & Watras CJ (1989) Mercury in surficial waters of rural Wisconsin lakes. Sci. Tot. Environ. 28: 223–232
Gilmour CC, Riedel GS, Ederington MC, Bell JT, Benoit JM, Gill GA & Stordal MC (1997) Mercury methylation and sulfur cycling across a trophic gradient in the Northern Everglades. Biogeochem. This issue
Hall BD, Rosenberg DM, Wiens AP, Bodaly RA, Kelly CA & Rudd JWM(1996) Bioaccumulation of methylmercury by aquatic insects in an experimental reservoir: Abstract. Mercury as a Global Pollutant. Hamburg, Germany
Horvat M, Liang L & Bloom NS (1993) Comparison of distillation with other current isolation methods for the determination of methyl mercury compounds in low level environmental samples. Anal. Chim. Acta 2982: 153–168
Hudson RJM, Gherini SA, Watras CJ & Porcella DB (1994) Modeling the biogeochemical cycle of mercury in lakes: The mercury cycling model (MCM) and its application to the MTL study lakes. In: Watras CJ & Huckabee JW (Eds) Mercury Pollution Integration and Synthesis (pp 473–526). Lewis, Boca Raton
Hurley JP & Watras CJ (1991) Identification of bacteriochlorophylls in lake waters via reverse-phase HPLC. Limnol. Oceanogr. 36: 307–315
Hurley JP, Krabbenhoft DP, Cleckner LB, Olson ML, Aiken G & Rawlik Jr PS (1997) System controls on aqueous mercury distribution in the Northern Everglades. Biogeochem. This issue
Jackson TA (1988) Accumulation of mercury by plankton and benthic invertebrates in riverine lakes of Northern Manitoba (Canada): Importance of regionally and seasonally varying environmental factors. Can. J. Fish. Aquat. Sci. 45: 1744–1757
Krabbenhoft DP (1996) Mercury Studies in the Florida Everglades. U.S. Geological Survey fact sheet, FS-166-96
Krabbenhoft DP, Hurley JP, Olson ML & Cleckner LB (1997) Diel variability of mercury phase and species distributions in the Florida Everglades. Biogeochem. This issue
Liang L, Horvat M & Bloom NS (1994) An improved speciation method for mercury by GC/CVAFS afer aqueous phase ethylation and room temperature pre-collection. Talanta. 41: 371–379
Lodge TE (1994) The Everglades Handbook: Understanding the Ecosystem. St. Lucie Press, Delray Beach, FL
Loftus WF & Eklund A-M(1994) Long-termdynamics of an Everglades small-fish assemblage. In: The Everglades (pp 461–483). St. Lucie Press, Delray Beach, FL
Mason RP, Reinfelder JR & Morel FMM (1996) Uptake, toxicity and trophic transfer of mercury in a coastal diatom. Environ. Sci. Technol. 30: 1835–1845
McCormick PV, Rawlik PS, Lurding K, Smith EP & Sklar FH (in press) Periphyton-water quality relationships along a nutrient gradient in the Northern Everglades. Journal of the N. American Benthological Society
Olson ML, Cleckner LB, Hurley JP & Krabbenhoft DP (1997) Resolution of matrix effects on analysis of total and methyl mercury in aqueous samples from the Florida Everglades. Fresenius J. Anal. Chem. 358: 392–396
Parkman H & Meili M (1993) Mercury in macroinvertebrates from Swedish forest lakes: Influence of lake type, habitat, life cycle, and food quality. Can. J. Fish. Aquat. Sci. 50: 521–534
Patterson CC & Settle DM (1976) The reduction of orders of magnitude errors in lead analyses of biological materials and natural waters by evaluating and controlling the extent and sources of industrial lead contamination introduced during sample collection, handling and analysis. In: LaFleur PD (Ed) Accuracy in Trace Analysis: Sampling, Sample Handling, and Analysis (pp 321–351). U.S. National Bureau of Standards Special Publication 422
Rask M, Metsala T-R & Salonen K (1994) Mercury in the food chains of a small polyhumic forest lake in Southern Finland. Sources and fates of mercury and methylmercury in Wisconsin lakes. In: Watras CJ & Huckabee JW (Eds) Mercury Pollution Integration and Synthesis (pp 409–416). Lewis, Boca Raton
Roelke ME, Schultz DP, Facemire CF, Sundlof SF & Royals HE (1991) Mercury contamination in Florida panthers, Report of the Florida Panther Technical Subcommittee to the Florida Panther Interagency Committee, Gainesville, FL
Sepulveda MS, Spalding MG, Frederick PC, Williams Jr GE, Lorzel SM & Samuelson DA (1995) Effects of Elevated Mercury on the Reproductive Success of Long-legged Wading Birds in the Everglades, Florida DEP Annual Report
Simmons H (1994) Measurement of periphyton mercury levels in Lake Vernon: Abstract. Mercury as a Global Pollutant. Whistler, British Columbia
Spalding MG, Bjork RD, Powell GVN & Sundlof SF (1994) Mercury and cause of death in great white herons (1994) J. Wildl. Manage. 58: 735–739
Stober QJ, Jones RD & Scheidt DJ (1995) Ultra trace level mercury in the Everglades ecosystem, a multi-media canal pilot study. WASP 80: 991–1001
Stober QJ, Jones RD, Scheidt DJ & Thornton K (1996) Multi-media monitoring of mercury and associated parameters in the Everglades canal system: Abstract. Mercury as a Global Pollutant. Hamburg, Germany
Stokes PM, Drier SI, Farkas MO & McLean RAN (1983) Mercury accumulation by filamentous algae: A promising biological monitoring system for methyl mercury in acid-stressed lakes. Environ. Pollut. Ser. B. 5: 255–271
Suchanek TH, Richerson PJ, Holts LJ, Lamphere BA, Woodmansee CE, Slotton DG, Harner EJ & Woodward LA (1995) Impacts of mercury on benthic invertebrate populations and communities within the aquatic ecosystem of Clear Lake, California. WASP 80: 951–960
Sundlof SF, Spalding MG, Wentworth JD & Steible CK (1994) Mercury in livers of wading birds (Ciconiiformes) in Southern Florida. Arch. Environ. Contam. Toxicol. 27: 299–305
Tremblay A, Lucotte M & Rheault (1996) Methylmercury in a benthic food web of two hydroelectric reservoirs and a natural lake of Northern Quebec (Canada). WASP 91: 255–269
Van Huekelem L, Lewitus AJ, Kana TM & Craft NE (1994) Improved separations of phytoplankton pigments using temperature-controlled high performance liquid chromatography. Mar. Ecol. Progr. Ser. 114: 303–314
Ware FJ, Royals H & Lange T (1990) Mercury contamination in Florida largemouth bass. Proceedings of the Annual Conference of the Southeastern Association of Fish and Wildlife Agencies 44: 5–12
Watras CJ, Bloom NS, Hudson RJM, Gherini S, Munson R, Claas SA, Morrison KA, Hurley J, Wiener JG, Fitzgerald WF, Mason R, Vandal G, Powell D, Rada R, Rislov L, Winfrey M, Elder J, Krabbenhoft D, Andren AW, Babiarz C, Porcella DB & Huckabee JW (1994) Sources and fates of mercury and methylmercury in Wisconsin lakes. In: Watras CJ & Huckabee JW (Eds) Mercury Pollution Integration and Synthesis (pp 153–180). Lewis, Boca Raton
Zillioux EJ, Porcella DB & Benoit JM (1993) Mercury cycling and effects in freshwater wetland ecosystems. Environ. Toxicol. Chem. 12: 2245–2264
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Cleckner, L.B., Garrison, P.J., Hurley, J.P. et al. Trophic transfer of methyl mercury in the northern Florida Everglades. Biogeochemistry 40, 347–361 (1998). https://doi.org/10.1023/A:1005918101773
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DOI: https://doi.org/10.1023/A:1005918101773