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Sediment budget-based estimates of trace metal inputs to a Chesapeake estuary

Journal Article · · Environmental Geology and Water Sciences
 [1];  [2];  [3]
  1. Montana State Univ., Bozeman, MT (United States)
  2. Nielsen, Inc. Environmental Services, Pasadena, MD (United States)
  3. Univ. of Maryland, Canbridge, MD (United States)
+ Show Author Affiliations
This article evaluates whether a sediment budget for the South River, Maryland, can be coupled with metals data from sediment cores to identify and quantify sources of historic metal inputs to marsh and subtidal sediments along the estuary. Metal inputs to estuarine marsh sediments come from fluvial runoff and atmospheric deposition. Metal inputs to subtidal sediments come from atmospheric deposition, fluvial runoff, coastal erosion, and estuarine waters. The metals budget for the estuary indicates that metal inputs from coastal erosion have remained relatively constant since 1840. Historical variations in metal contents of marsh sediments have probably resulted primarily from increasing atmospheric deposition in this century, but prior to 1900 may reflect changing fluvial sources, atmospheric inputs, or factors not quantified by the budget. Residual Pb, Cu, and Zn in the marsh sediments not accounted for by fluvial inputs was low to moderate in 1840, decreased to near zero circa 1910, and by 1987 had increased to levels that were one to ten times greater than those of 1840. Sources of variability in subtidal cores could not be clearly discerned because of geochemical fluxes, turbulent mixing, and bioturbation within the cores. The sediment-metal budgeting approach appears to be a viable method for delineating metal sources in small, relatively simple estuarine systems like the South River and in systems where recent deposition (for example, prograding marshes) prevents use of deep core analysis to identify {open_quotes}background{close_quotes} levels of metal. In larger systems or systems with more variable sources of sediment and metal input, however, assumptions and measurement errors in the metal budgeting approach suggest that deep core analysis and normalization techniques are probably preferable for identifying anthropogenic impacts. 25 refs., 4 figs., 5 tabs.
Sponsoring Organization:
USDOE
OSTI ID:
86441
Journal Information:
Environmental Geology and Water Sciences, Journal Name: Environmental Geology and Water Sciences Journal Issue: 1 Vol. 22; ISSN EGWSEI; ISSN 0177-5146
Country of Publication:
United States
Language:
English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
CHESAPEAKE BAY
CONTAMINATION
DEPOSITION
ECOLOGICAL CONCENTRATION
ESTUARIES
HISTORICAL ASPECTS
METALS
SEDIMENTS
VARIATIONS