An assessment of sediment contamination in Presque Isle Bay, PA, with historical comparisons
Keywords:
Great Lakes, heavy metals, PAHs, Erie Harbor, bioavailability, extracted metals hypothesisAbstract
The harbor at Erie, Pennsylvania, known as Presque Isle Bay (the 43rd Great Lakes Area of Concern), has been designated by the United States Environmental Protection Agency as being in a stage of recovery. The impaired beneficial uses include the high incidence of fish tumors and restrictions on dredging. The goal of this study was to assess the level of chemical contamination in Bay sediments, and to some extent its tributaries, and to compare the findings to prior studies. Parameters investigated were the previously identified contaminants of concern: selected heavy metals and polycyclic aromatic hydrocarbons. The acid volatile sulfide/simultaneously extracted metals ratio was used to estimate bioavailability of metals.
It appeared that the deepest sediments and the most recent sediments were less contaminated with heavy metals and polycyclic aromatic hydrocarbons than those sediments in the middle region studied, that is, from about 10 cm below the surface to about 30 cm below the surface. These more highly contaminated sediments are estimated to represent deposition during the second half of the 20th century.
The most recent results for the most superficial sediments are encouraging for stakeholders because there were fewer cases of heavy metals exceeding their respective probable effects concentrations. The metals of greatest concern continued to be Cd, Ni and Pb, in that order. The sites most contaminated with heavy metals were those off Cascade Creek and the site least contaminated with heavy metals was the one nearest the mouth of Mill Creek. Data on stream sediments suggest that more work must be done within the watershed, especially the Cascade Creek and Myrtle Street drainages, to reduce the level of metal contamination reaching the Bay via sediment particles. In the most recently studied sediments certain metals continued to exist at levels approaching or exceeding their probable effects concentrations. However, the acid volatile sulfide/simultaneously extracted metals hypothesis suggests that those metals are not bioavailable.
The pattern of polycyclic aromatic hydrocarbon contamination is similar to that of the metals, with the most highly contaminated sites being those along the city's waterfront and in the center of the Bay. The hydrocarbons measured in the most recent sediments were all lower than those measured in 1994, and were well below the probable effects concentration for total polycyclic aromatic hydrocarbons. While there may be other important factors not studied or reviewed in this paper, these findings suggest that heavy metals and polycyclic aromatic hydrocarbons, as of 2003, likely exert only a moderate adverse impact on the aquatic ecosystem of Presque Isle Bay.
References
ACOE (Army Corps of Engineers). 1982. Chemical, physical and bioassay analysis of sediment samples, Erie Harbor, Erie, Pennsylvania, Prepared for the U.S. ACOE Buffalo District by Applied Biology, Inc..
ACOE. 1986. The analysis of sediments from Erie Harbor, Erie, PA, Prepared for the U.S. ACOE, Buffalo District by AquaTech Environmental Consultants, Inc. (Technical Report #G0176-07; Contract #DACW49-86-D-001)
Allen, H. E., Fu, G. and Deng, B. 1993. Analysis of acid-volatile sulfide (AVS) and simultaneously extracted metals (SEM) for the estimation of potential toxicity in aquatic sediments. Environ. Toxicol. Chem., 12: 1–13.
Bard, A. J. 1966. Chemical Equilibrium, New York: Harper and Row.
Battelle. 1994a. Presque Isle Bay sediment quality evaluation report for May 1994 study, Final Report prepared by D. E. West, H. Tulli, and J. Neff, Battelle Ocean Sciences, Duxbury, MA, for EPA Region III under Work Assignment 1-107. Contract No. 68-C2-0134. September 29, 1994.
Battelle. 1994b. Evaluation of polycyclic aromatic hydrocarbons in Presque Isle Bay sediment cores for May 1994 Study, Data report prepared by D. E. West, Battelle Ocean Sciences, Duxbury, MA, for EPA Region III under Work Assignment 1-107. Contract No. 68-C2-0134. September 29, 1994.
Battelle. 1995. Evaluation of Lead-210 in Presque Isle Bay sediment cores for May 1994 study, Data report prepared by V. Cullinan and E. Crecelius, Battelle Marine Science Laboratory, Sequim, WA, for EPA Region III under Work Assignment 2-107. Contract No. 68-C2-0134. August 30, 1995.
Battelle. 1997. Presque Isle Bay sediment study-data review, Final report prepared by G. Durell and J. Neff, Battelle Ocean Sciences, Duxbury, MA, for EPA Region III under Work Assignment 4-456. Contract No. 68-C2-0134. April 30, 1997
DiToro, D. M., Mahony, J. D., Hansen, D. J., Scortt, K. J., Carlson, A. R. and Ankley, G. T. 1992. Acid volatile sulfide predicts the acute toxicity of cadmium and nickel in sediments. Environ. Sci. Technol., 26: 96–101. [CSA]
FWS (United States Fish and Wildlife Service). 1991. Chemical analysis of sediments from Presque Isle Bay, Erie, Pennsylvania. U.S, Fish and Wildlife Service, State College, PA Field Office (C. Rice and C. Kulp). Special Project Report 91-2.
Gannet Fleming, Inc. 1993. Special study: Presque Isle Bay sediment quality evaluation, Prepared for U. S. Environmental Protection Agency Region III. Harrisburg, PA.-368.
Hansen, D. J., Berry, W. J., Mahony, J. D., Boothman, W. S., DiToro, D. M., Robson, D. L., Ankley, G. T., Ma, D., Yan, Q. and Pesch, C. E. 1996. Predicting the toxicity of metal-contaminated field sediments using interstitial concentrations of metals and acid-volatile sulfide normalizations. Environ. Toxicol. Chem., 15(12): 2080–2094. [CSA]
Ingersoll, C. G., MacDonald, D. D., Wang, N., Crane, J. L., Field, L. J., Haverland, P. S., Kemble, M. E., Lindskoog, R. A., Severn, C. and Smorong, D. E. 2000. Prediction of sediment toxicity using consensus-based freshwater sediment quality guidelines, USEPA 905/R-00/007
MacDonald, D. D., Ingersoll, C. G. and Berger, T. A. 2000. Development and evaluation of consensus-based sediment quality guidelines for freshwater ecosystems. Arch. Environ. Contam. Toxicol., 39: 20–31. [PUBMED][INFOTRIEVE][CROSSREF][CSA]
PADER (Pennsylvania Department of Environmental Resources). 1991. Trophic State Analysis, Presque Isle Bay, Erie County., Meadville, PA.: Northwest Pennsylvania Region.
PADER. 1992. “Presque Isle Bay Remedial Action Plan”. In Pennsylvania Department of Environmental Resources, Meadville, PA.: Northwest Pennsylvania Region.
PADER. 1993. Presque Isle Bay brown bullhead tumor study, Conducted from March 29, 1992 to October 7, 1993, Prepared by E. C. Obert, Pennsylvania Department of Environmental Protection
PADER. 1995. “Update to the Presque Isle Bay Remedial Action Plan”. In Pennsylvania Department of Environmental Resources, Meadville, PA.: Northwest Pennsylvania Region.
PADER. 1996. A study of tumors in fish of Presque Isle Bay, 1995, Prepared by M.K. Walter, Pennsylvania Department of Agriculture and D.M. Dambach, University of Pennsylvania, for Pennsylvania Department of Environmental Resources. June, 1996
Potomac-Hudson Engineering. 1991. Presque Isle Bay Ecosystem Study—Background Report, Meadville, PA: Prepared for the Pennsylvania Department of Environmental Resources.
USEPA. 1994. ARCS Assessment Guidance Document, EPA 905-B94-002 Chicago, IL.: Great Lakes National Program Office.
USEPA. 2002a. A Guidance Manual to Support the Assessment of Contaminated Sediments in Freshwater Ecosystems: Volume III-Interpretation of the Results of Sediment Quality Investigations, EPA-905-B02-001-C
USEPA. 2002b. Equilibrium Partitioning Sediment Guidelines (ESGs) for the Protection of Benthic Organisms: Metal Mixtures (Cadmium, Copper, Lead, Nickel, Silver, and Zinc) (DRAFT), EPA-822-R-02-045 Washington, DC.: U.S. Environmental Protection Agency.
USEPA. 2002c. Procedures for the Determination of Equilibrium Partitioning Sediment Benchmarks (ESBs) for the Protection of Benthic Organisms: PAH Mixtures, EPA-600-R-02-013 Washington, DC.: U.S. Environmental Protection Agency.
USEPA and USACE. 1998. Great Lakes Dredged Material Testing & Evaluation Manual, Washington, DC.: Final Draft. U.S. Environmental Protection Agency.
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