Abstract
Samples of stream sediments were collected along two streams adjacent to a sanitary landfill. One of the streams drained the landfill directly. In addition, control of background samples were also analyzed from a stream not affected by the landfill. All samples were analyzed for Ag, Zn, Cu, Cd, and Pb content using atomic adsorption techniques. The pH of the three streams were monitored since pH differences in the streams may affect the quantities of metals adsorbed or precipitated on the sediments. The comparison between the content of Ag, Zn, and Cu in the sediments of the two study streams and the same metals in the control sediments indicated the landfill emitted these metals into the two adjacent streams. However, since the Cd and Pb contents in the sediments of both streams were similar to that of the control stream sediments, these metals may not be emitted into the two study streams from the landfill and they represent only background quantities. The comparisons of each metal in the sediments of each stream were made by the use of a metal trend chart, the individual calculated mean metal content values, and by the statistical two sample t-test. No decreasing trends of the quantities of Ag, Zn, or Cu as a function of increasing distance from the landfill was present in the sediments along the stream that drained the landfill directly. These sediments might have been affected by stream action and became mixed with other sediments downstream.
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References Cited
Bloom, H., and G. M. Ayling, 1977, Heavy metals in the Derwent Estuary: Environmental Geology, v. 2, p. 3–22.
Castaing, P., R. Assor, J. M. Jouanneau, and O. Weber, 1986, Heavy metal origin and concentration in the sediments of the Pointe a' Pitre Bay (Guadeloupe—Lesser Antilles): Environmental Geology, v. 8, no. 4, p. 174–184.
Gibbs, R. J., 1973, Mechanisms of trace metal transport in rivers: Science, v. 180, p. 71–73.
Griffin, R. A., K. Cartwright, N. F. Shimp, J. O. Steele, R. R. Ruch, W. A. White, G. M. Hughes, and R. H. Gilkeson, 1976, Attenuation of pollutants in municipal landfill leachate by clay minerals: Illinois State Geological Survey, Environmental Geology Notes, no. 78.
Harding, S. C., and H. S. Brown, 1978, Distribution of selected trace elements in sediments of Pamlico River Estuary, North Carolina: Environmental Geology, v. 1, no. 2, p. 181–191.
Moore, J. W., and S. Ramamoorthy, 1984, Heavy metals in natural waters—applied monitoring and impact assessment: New York, Springer-Verlag, Inc. 268 p.
Ramamoorthy, S., and B. R. Rust, 1978, Heavy metal exchange processes in sediment water systems: Environmental Geology, v. 2, no. 3, p. 165–172.
Reece, D. E., J. R. Felkey, and C. M. Wai, 1978, Heavy metal pollution in the sediments of the Coeur d' Alene River, Idaho: Environmental Geology, v. 2, no. 5, p. 289–293.
Rule, Joseph, 1986, Assessment of trace element geochemistry of Hampton Roads Harbor and Lower Chesapeake Bay area sediments: Environmental Geology, v. 8, no. 4, p. 209–219.
Sinex, S. A., and G. R. Helz, 1981, Regional geochemistry of trace elements in Chesapeake Bay sediments: Environmental Geology, v. 3, p. 315–323.
Trefry, John H., and Bob J. Presley, 1976, Heavy metals in sediments from San Antonio Bay and the Northwest Gulf of Mexico: Environmental Geology, v. 1, p. 283–294.
Yim, W. W., 1981, Geochemical investigations on fluvial sediments contaminated by tin-mine tailings, Cornwall, England: Environmental Geology, v. 3, no. 5, p. 245–256.
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Mantei, E.J., Coonrod, D.D. Heavy metal content in the stream sediments adjacent to a sanitary landfill. Environ. Geol. Water Sci 13, 51–58 (1989). https://doi.org/10.1007/BF01666572
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DOI: https://doi.org/10.1007/BF01666572
Keywords
- Heavy Metal
- Metal Content
- Heavy Metal Content
- Stream Sediment
- Atomic Adsorption