Abstract
As part of an assessment of land-based sources of pollution in Jobos Bay, Puerto Rico, sediment samples were collected at 43 sites to characterize concentrations of a suite of pollutants, including metals. Fifteen major and trace metals (Ag, Al, As, Cd, Cr, Cu, Fe, Hg, Mn Ni, Pb, Sb, Se, Sn, and Zn) were measured along with total organic carbon and grain size in surficial sediments. For most metals, maximum concentrations were seen in the eastern bay; however, values were still within concentration ranges found in other estuarine systems. In contrast, silver was higher in the western region. In general, metal distribution in the bay was positively correlated with grain size. Additionally, correlations between Al and other metals suggest natural sources for metals. The data presented here suggest that, although the Jobos Bay watershed contains both urban centers along with industrial and agricultural developments, anthropogenic inputs of metals may be negligible.
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Aldarondo-Torres, J. X., Samara, F., Mansilla-Rivera, I., Aga, D. S., & Rodriguez-Sierra C. J. (2010). Trace metals, PAHs, and PCBs in sediments from the Jobos Bay area in Puerto Rico. Marine Pollution Bulletin, 60, 1350–1358.
Altieri-Rijos, C. (2004). Determination of pesticides in surface and run-off discharge into the groundwater in the Jobos National Estuarine Research Reserve Graduate Research Fellow, MS Thesis, University of Puerto Rico/Medical Science Campus.
Apeti, D. A., Lauenstein, G. G., & Riedel G. F. (2009). Cadmium distribution in coastal sediments and mollusks of the US. Marine Pollution Bulletin, 58, 1016–1024.
Caccia, V.G., Millero, F.J., & Palanques A. (2003). The distribution of trace metals in Florida Bay sediments. Marine Pollution Bulletin, 46, 1420–1433.
Cantillo, A. Y., Lauenstein, G. G., O’Connor, T. P., & Johnson, W. E. (1999a). Status and trends of contaminant levels in biota and sediments of South Florida. NOAA Regional Report Series, 2, 40.
Cantillo, A. Y., Lauenstein, G. G., Johnson, W. E., & O’Connor, T. P. (1999b). Status and trends of contaminant levels in biota and sediments of Tampa Bay. NOAA Regional Report Series, 5, 43.
Carvalho, A., Shrap, S. J., & Sloane, G. M. (2002). Development of an interactive tool for assessment of metal enrichment in Florida freshwaters sediment. Tallahassee, FL: Florida Department of Environmental Protection, C2001–022.
Dieppa A., Field, R., Laboy, E. N., Capella, J., Robles, P. O., & Gonzalez, C. M. (2008). Jobos bay estuarine profile: A national estuarine research reserve (pp. 109). Puerto Rico: JBNERR.
Field, R., Robles, P. O., Gonzalez, C. M., Laboy, E. N., & Capella, J. (Eds.) (2002). Jobos Bay estuarine profile: A national estuarine research reserve (pp. 107). Puerto Rico: JBNERR.
Forstner, U., & Wittmann, G. T. W. (1981). Metal Pollution in the aquatic environment. New York: Springer
Gioda, A., Perez, U., Rosa, Z., & Jimenez-Velez, N. D. (2005). Concentration of trace elements in airborne PM10 from Jobos Bay national estuary, Puerto Rico. Water, Air, and Soil Pollution, 174, 141–159. http://www.ngdc.noaa.gov/mgg/bathymetry/hydro.html/.
Jimenez-Velez, B. D., Rosa, Z., Perez, U., & Gioda, A. (2003). Evaluating heavy metal concentrations in airborne PM10 from the Jobos Bay National Estuary, at Salinas, Puerto Rico. Final Report. Center for Environmental and toxicological Research, University of Puerto Rico, Medical Science Campus, School of Medicine.
Jimenez-Velez, B. D., Detres, Y., Armstrong, R. A., & Gioda, A. (2009). Characterization of African dust (PM2.5) across the Atlantic Ocean during AEROSE 2004. Atmospheric Environment, 43, 2659–2664.
Kimbrough, K. L., & Lauenstein, G. G. (2006). Trace Metal Analytical Methods of the National Status and Trends Program: 2000–2006. US Dept. Comm., NOAA Tech. Memo. 29. Silver Spring: NOS NCCOS.
Kimbrough, K. L., Johnson, W. E., Lauenstien, G. G., Christensen, J. D., & Apeti, D. A. (2008). An assessment of tow decades of contaminant monitoring in the Nation’s Coastal Zone. Silver Spring: NOAA Technical Memorandum NOS NCCOS 74. 105 pp.
Lauenstein, G. G., & Cantillo, A. Y. (1998). Sampling and Analytical Methods of the National Status and Trends Program Mussel Watch Project: 1993–1996 Update. U.S. Dept. Comm., NOAA Tech. Memo. 130. Silver Spring: NOS ORCA.
Lewis, R. R., III, Clark, P. A., Fehring, W. K., Greening, H. S., Johanson, R. O., & Paul, R. T. (1998). The rehabilitation of the Tampa Bay estuary, Florida, USA, as an example of successful integrated coastal management. Marine Pollution Bulletin, 37(8–12), 468–473.
Long, E. R., & Morgan, L. G. (1990). The potential for biological effects of sediment-sorbed contaminants tested in the national status and trends program. NOAA Tech. Memo NOS OMA 52. NOAA, Seattle, WA. 175 pp.
Long, E. R., Robertson, A., Wolfe, D. A., Hameedi, J., & Sloane, G. M. (1996). Estimates of the spatial extent of sediment toxicity in major U.S. estuaries. Environmental Science and Technology, 30(12), 3585–3592.
MacDonald, D. D. (1994). Approach to the Assessment of Sediment Quality in Florida Coastal Waters. Vol. 2—Application of the Sediment Quality Assessment Guidelines. Tallahassee: Florida Department of Environmental Protection, Office of Water Policy.
McBride, J. P., Moore, R. E., Witherspoon, J. P., & Blanco, R. E. (1978). Radiological impact of airborne effluents of coal and nuclear plants. Science, 202(4372), 1045–1050.
McDonald, S. J., Frank, D. S., Ramirez, J. A., Wang, B., & Brooks, J. M. (2006). Ancillary Methods of the National Status and Trends Program: 2000–2006 Update. U.S. Dept. Comm., NOAA Tech. Memo. 28. Silver Spring: NOS NCCOS.
NERRS (National Estuarine Research Reserve System) (2008). Centralized data management office. http://cdmo.baruch.sc.edu/. Accessed 2008 March 14.
NGDC (National Geophysical Data Center) (2007). NOS hydrographic survey data.
NOAA (National Oceanic and Atmospheric Administration) (2007). Conservation effects assessment project: Jobos Bay, Puerto Rico special emphasis watershed study, plan of work. Online at: http://ccma.nos.noaa.gov/ecosystems/coralreef/CEAP_POW.pdf/.
NS&T (National Status and Trends) data portal online (2011). The National Status and Trend data download. http://ccma.nos.noaa.gov/about/coast/nsandt/download.html.
Orescanin, V., Lulic, S., Pavlovic, G., & Mikelic, L. (2004). Granulometric and chemical composition of the Sava River sediments upstream and downstream of the Krsko nuclear power plant. Environmental Geology, 46, 605–613.
Pait, A. S., Whitall, D. R., Jeffrey, C. F. G., Caldow, C., Mason, A. L., Lauenstein, G. G. , et al. (2008). Chemical contamination in southwest Puerto Rico: An assessment of trace and major elements in nearshore sediments. Marine Pollution Bulletin, 56, 1949–1956.
PRNC (Puerto Rico Nuclear Center) (1972). Aguirre power project environmental studies 1972 Annual Report. PRNC-162, 464 pp.
PRNC (Puerto Rico Nuclear Center) (1975). Aguirre environmental studies Jobos Bay, PR, Final Report. PRNC-196. 95 pp.
Reinfelder, J. R., Fisher, N. S., Luoma, S. N., Nichols, J. W., & Wang, W. -X., (1998). Trace element trophic transfer in aquatic organisms: A critique of the kinetic model approach. The Science of the Total Environment, 219, 117–135.
Rosenthal, Y., Lam, P., Boyle, E. A., & Thomson, J. (1995). Authigenic cadmium enrichment in suboxic sediments: Precipitation and postdepositional mobility. Earth and Planetary Science Letters, 132, 99–111.
Ross, P., & DeLorenzo, M. E. , (1997). Sediment contamination problems in the Caribbean islands: Research and regulation. Environmental Toxicolology and Chemistry, 16, 52–58.
Sauve, S., Brousseau, P., Pellerin, J., Morin, Y., Senecal, L., Goudreau, P., et al. (2002). Phagocytic activity of marine and freshwater bivalves: In vitro exposure of hemocytes to metals (Ag, Cd, Hg, and Zn). Aquatic Toxicology, 58, 189–200.
Schropp, S. J., & Windom, H. L. (1987). A guide to the interpretation of metal concentrations in estuarine sediments. Florida Department of Environmental Regulation, Coastal Zone Management Section.
Schropp, S. J., Lewis, F. G., Windom, H. L., & Ryan, J. D. (1990). Interpretation of metal concentrations in estuarine sediments of Florida using aluminum as a reference element. Estuaries, 13(3), 227–235.
Simpson, S. J., Fett, J. D., Long, D. T., & Patino, L.C. (2000). Understanding processes influencing patterns of chemical loadings to the environment: Sources, pathways and environmental regulations. In: 11th Annual International Conference on Heavy Metals in the Environment (J. Nriagu, Editor), Contribution # 1171. University of Michigan, School of Public Health, Ann Arbor, MI (CD-ROM).
Theis, T. L., Westrick, J. D., Hsu, C. L., & Marley, J. J. (1978). Field investigation of trace metals in groundwater from fly ash disposal. Water Pollution Control Federation, 50(11), 2457–2469.
Ujevic, I., Odzak, N., & Baric, A. (2000). Trace metal accumulation in different grain size fractions of the sediment from a semi-enclosed bay heavily contaminated by urban and industrial wastewaters. Water Research, 34(11), 3055–3061.
Windom, H. L., Schropp, S. J., Calder, F. D., Ryan, J. D., Smith Jr., R. G., Burney, et al. (1989). Natural trace metal concentrations in estuarine and coastal marine sediments of the southeastern United States. Environmental Science and Technology, 23, 314–320.
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Apeti, D.A., Whitall, D.R., Pait, A.S. et al. Characterization of land-based sources of pollution in Jobos Bay, Puerto Rico: status of heavy metal concentration in bed sediment. Environ Monit Assess 184, 811–830 (2012). https://doi.org/10.1007/s10661-011-2003-0
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DOI: https://doi.org/10.1007/s10661-011-2003-0