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Mercury levels in marine and estuarine fishes of Florida (2021)

Adams, Douglas H. ; McMichael, Robert H., Jr.

Florida Marine Research Institute | St. Petersburg, FL

In: http://aquaticcommons.org/id/eprint/26026 | 20978 | 2018-10-15 00:08:23 | 26026 | Florida Fish and Wildlife Conservation Commission

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Publication Date: 2021-07-24

Description: Because mercury, a toxic metallic element, has been shown to bioaccumulate in fish tissue, humans consuming fish can potentially consume significant levels of mercury. Limited information is available on mercury levels in Florida’s marine and estuarine fish species. We examined the concentration of mercury in 2,832 fish representing 81 species from 32 families. Species represented all major trophic groups, from primary consumers to apex predators. Mercury concentrations in individual fish varied greatly within and among species. However, the majority of individuals we examined contained low concentrations. Species with very low mean or median mercury concentrations tended to be planktivores, detritivores, species that feed on invertebrates, or species that feed on benthic invertebrates and small fish. Apex predators typically had the highest mercury concentrations. In most species, mercury concentration increased as fish size increased. Sampling in Florida waters is continuing, and future research relating mercury levels to fish age, feeding ecology, and the trophic structure of Florida’s marine and estuarine ecosystems will help us to further identify important sources of variation.

Keywords: Biology ; Fisheries ; Pollution ; mercury ; fishes ; Florida

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 35

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Response of estuarine nekton to the regulated discharge of treated phosphate-production process water (2021)

Switzer, Theodore S. ; Tyler-Jedlund, Amanda J. ; Rogers, Kristen R. ; [et al.]

Florida Fish and Wildlife Conservation Commission, Fish and Wildlife Research Institute | St. Petersburg, FL

In: http://aquaticcommons.org/id/eprint/26941 | 9413 | 2019-11-27 23:48:35 | 26941 | Florida Fish and Wildlife Conservation Commission

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Publication Date: 2021-07-24

Description: Florida is one of the world’s leading producers of phosphate. The mining and processing of phosphate produce a large volume of nutrient-rich, highly acidic process water that must either be stored or be treated and then discharged into the environment. Environmental effects of the regulated discharge of treated phosphate-production process water have not been well studied; however, eutrophication has been shown to negatively affect estuarine systems. We characterized the nekton community in Bishop Harbor during the discharge of treated process water (November 2003–October 2004) and compared these data with data collected during a nondischarge period (January 1993–December 1993) to identify possible effects of the discharged water on nekton communities. Overall fish community structure and species composition during the nondischarge and discharge time periods did not markedly differ. Several taxa exhibited subtle shifts in spatial distribution in Bishop Harbor; these shifts may be partially attributable to altered salinity from the combined effects of wastewater discharge and enhanced precipitation during the active 2004 hurricane season. Although we did not discern any effects of the discharge of treated process water on nekton communities, regulated discharges might have contributed to a large macroalgal bloom, which was harvested to reduce the possibility of decomposition-related hypoxia. Such an approach was practical only because Bishop Harbor is relatively small (~ 200 ha), and would not have been cost-effective for a larger system. Given the importance of Florida’s phosphate industry, it is critical that better alternatives to the treatment and disposal of process water be developed.

Keywords: Environment ; Pollution ; estuarine nekton ; nekton ; phosphate ; phosphate-production ; Bishop Harbor ; Florida

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 22

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Mercury Levels in Marine and Estuarine Fishes of Florida 1989–2001. 2nd edition revised (2021)

Adams, Douglas H. ; McMichael, Robert H., Jr. ; Henderson, George E

Florida Marine Research Institute | St. Petersburg, FL

In: http://aquaticcommons.org/id/eprint/120 | 3 | 2011-09-29 22:33:26 | 120 | Florida Fish and Wildlife Conservation Commission

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Publication Date: 2021-06-26

Description: The Florida Fish and Wildlife Conservation Commission’s Florida Marine Research Institute (FWC-FMRI) hasexamined total mercury levels in muscle tissue from a variety of economically and ecologically important speciesas part of an ongoing study to better understand mercury contamination in marine fishes.The FWC-FMRI MercuryProgram is one of the most comprehensive programs in the United States for monitoring mercury levels inmarine and estuarine fishes. Because mercury, a toxic metallic element, has been shown to bioaccumulate in fishtissue, humans consuming fish can potentially consume significant levels of mercury.We examined the concentrationof total mercury in 6,806 fish, representing 108 species from 40 families. Species represented all major trophicgroups, from primary consumers to apex predators.The majority of individuals we examined contained low concentrationsof mercury, but concentrations in individual fish varied greatly within and among species. Specieswith very low mean or median mercury concentrations tended to be planktivores, detritivores, species that feedon invertebrates, or species that feed on invertebrates and small fish prey.Apex predators typically had the highestmercury concentrations. In most species, mercury concentration increased as fish size increased. Samplingin Florida waters is continuing, and future research relating mercury levels to fish age, feeding ecology, and thetrophic structure of Florida’s marine and estuarine ecosystems will help us better understand concentrations ofthis element in marine fishes. (64pp.)

Keywords: Pollution ; Fisheries ; Biology ; mercury ; Florida ; fishes

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

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