projects > aquatic cycling of mercury in the everglades > abstract
Mercury Transfer Through an Everglades Aquatic Food WebWilliam F. Loftus, Joel C. Trexler, and Ronald Jones Aquatic animal and plant species accumulate mercury in body tissues, from which it is passed by consumption to higher trophic levels in the food web. Top-level carnivores may accumulate burdens at which toxic effects, such as nerve damage, convulsions, or death, become evident. Of the various forms of mercury,
Past studies of mercury in the biota have focused on the top-level predators in the Everglades, with little analytical emphasis being placed on the smaller fishes and invertebrates upon which the predatory fishes, wading birds, and small alligators feed. To understand the extent of the contamination problem, and to identify the most important routes by which mercury is being passed to the top levels in the system, mercury concentrations must be measured at lower trophic levels in the Everglades aquatic food web. It is not possible to obtain information on food web pathways and marsh hydropattern relationships from the extensive literature on mercury because few studies have taken the approach of examining an entire aquatic assemblage. In addition, most studies of mercury bioaccumulation and food web transfer have been done either in the laboratory, in temperate lakes and reservoirs, or in riverine or marine systems. Those results are not very transferable to a subtropical wetland like the Everglades. The need for research in non-temperate systems, particularly wetlands, is increasingly important to understand and deal with the mercury problem in the Everglades. This study examined the pathways of mercury (Hg) bioaccumulation and its relation to trophic position and hydroperiod in the Everglades by performing three related studies. The project was divided into three segments formulated to support and extend other State and Federal study plans intended to address the mercury contamination problem in Florida. Element I described the food habits and trophic positions of Everglades freshwater fishes at high-water and low-water periods from three habitats; Element II addressed total mercury concentrations in Everglades freshwater biota, as related to trophic position, at one study location; and Element III examined the effects of time-of-year and site hydroperiod on mercury levels of wild and caged mosquitofish at three pairs of Everglades locations. This study was conducted entirely within Everglades National Park (ENP), Florida, in spikerush marshes and alligator holes, where past sampling for mercury had demonstrated some of the highest Hg levels in Everglades aquatic biota. Detailed site descriptions are provided within the Element sections. The sampling for Elements I and II was done in northern Shark Slough, centering on a long-hydroperiod, central Everglades marsh complex designated as 1-L. The caged and wild mosquitofish studies in Element III were run at three pairs of long- and short-hydroperiod sites in northern Shark Slough, middle Shark Slough, and in Taylor Slough.
The diet data have been used to describe the structure of the aquatic food web and its changes with water level fluctuations. Statistical analyses indicate a strong positive correlation between the trophic position of both fishes and invertebrates and their mercury levels, demonstrating bioaccumulation with diet. The mosquitofish seems to be a good candidate for measuring in situ uptake of mercury in field cages. Patterns of mercury concentrations in wild and caged fishes at the same locations were similar across hydroperiod and season, but site hydroperiod did not explain much of the variation in mercury in the fishes. These data, combined with landscape-level studies of mercury geochemistry and patterns of concentrations in biota, will be useful as Performance Measures in the Restudy. The results were used in Phase 1 of the South Florida Mercury Program, in the development of the EPA BASS model of bioaccumulation, and in comparison with other studies in the Everglades.
(This abstract was taken from the Greater Everglades Ecosystem Restoration (GEER) Open File Report (PDF, 8.7 MB))
|
||||||
U.S. Department of the Interior, U.S. Geological Survey, Center for Coastal Geology This page is: http://sofia.usgs.gov /projects/evergl_merc/mertransabgeer00.html Comments and suggestions? Contact: Heather Henkel - Webmaster Last updated: 11 October, 2002 @ 09:29 PM (KP) |