Sediments: Chemistry and toxicity of in-place pollutants

Baudo, R; Giesy, J P; Muntau, H

Title: Sediments: Chemistry and toxicity of in-place pollutants

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Abstract

Sediments have only recently been considered as non-point sources of environmental contaminants. While most researchers concentrate on a small number of elements including copper, cadmium, lead and mercury, few authors have considered rarer trace elements except in relation to specific sources. Examples of trace elements emanating from non-point sources include: boron and fluorine leaching from oil shale; silver from acid mine drainage; arsenic from urban retention basins; and many metals emitted during fossil fuel burning and ore smelting. In terms of residence times, the situations in rivers and lakes are very different. Following the abatement of chemical pollution into the rivers, elevated concentrations of pollutants continue for a period, depending on a number of physical factors. However, in lakes a number of processes cause contaminants to migrate to the sediments and have relatively long residence times. Not only are sediments a source of contaminants to the overlying water column, but toxicants associated with sediments can have direct, adverse effects on organisms that live in or near the sediments. One approach to studying contaminant releases from sediments is to measure both the species as well as total concentrations of the more common and less common metals in surficial sediments at amore »« less

Authors:

Baudo, R; Giesy, J P; Muntau, H ^[1]

eds.

Publication Date:: Mon Jan 01 00:00:00 EST 1990

OSTI Identifier:: 7014391

Resource Type:: Book

Country of Publication:: United States

Language:: English

Subject:: 54 ENVIRONMENTAL SCIENCES; 63 RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT.; METALS; TOXICITY; ORGANIC COMPOUNDS; SEDIMENTS; CONTAMINATION; BIODEGRADATION; BIOLOGICAL AVAILABILITY; LEADING ABSTRACT; MONITORING; WATER CHEMISTRY; WATER POLLUTION; ABSTRACTS; CHEMICAL REACTIONS; CHEMISTRY; DECOMPOSITION; DOCUMENT TYPES; ELEMENTS; POLLUTION; 540320* - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-); 560300 - Chemicals Metabolism & Toxicology

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                    Baudo, R, Giesy, J P, and Muntau, H. Sediments: Chemistry and toxicity of in-place pollutants.  United States: N. p., 1990. 
        Web.

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                    Baudo, R, Giesy, J P, & Muntau, H. Sediments: Chemistry and toxicity of in-place pollutants.  United States.

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                    Baudo, R, Giesy, J P, and Muntau, H. 1990.  
        "Sediments: Chemistry and toxicity of in-place pollutants".  United States.

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@article{osti_7014391,

  title        = {Sediments: Chemistry and toxicity of in-place pollutants},

  author       = {Baudo, R and Giesy, J P and Muntau, H},

  abstractNote = {Sediments have only recently been considered as non-point sources of environmental contaminants. While most researchers concentrate on a small number of elements including copper, cadmium, lead and mercury, few authors have considered rarer trace elements except in relation to specific sources. Examples of trace elements emanating from non-point sources include: boron and fluorine leaching from oil shale; silver from acid mine drainage; arsenic from urban retention basins; and many metals emitted during fossil fuel burning and ore smelting. In terms of residence times, the situations in rivers and lakes are very different. Following the abatement of chemical pollution into the rivers, elevated concentrations of pollutants continue for a period, depending on a number of physical factors. However, in lakes a number of processes cause contaminants to migrate to the sediments and have relatively long residence times. Not only are sediments a source of contaminants to the overlying water column, but toxicants associated with sediments can have direct, adverse effects on organisms that live in or near the sediments. One approach to studying contaminant releases from sediments is to measure both the species as well as total concentrations of the more common and less common metals in surficial sediments at a high enough density in a well-planned sampling grid to allow the construction of maps of the active sediment layers by kriging technique. Once contaminant inventories, distribution patterns and relative mobilities have been assessed, the next most critical steps are to determine the average net release rates and potential harmful effects on the biota.},

  doi          = {},

  url          = {https://www.osti.gov/biblio/7014391},
  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {Mon Jan 01 00:00:00 EST 1990},

  month        = {Mon Jan 01 00:00:00 EST 1990}

}

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