Application of a membrane model to the sorptive interactions of humic substances

Humic substances, the dark-colored, natural organic polyelectrolytes that are found in practically all soils, sediments, and natural water, strongly interact with both inorganic and organic pollutants. Inorganic cationic species generally undergo complexation reactions with humic substances. The bin...

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Published in:Environmental health perspectives 1989-11, Vol.83, p.191-203
Main Author: Wershaw, R.L. (U.S. Geological Survey, Arvada, CO)
Format: Article
Language:English
Subjects:
540320 - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-)
Acid soils
Adsorption
ANIONS
CATIONS
CELL MEMBRANES
CHARGED PARTICLES
CHEMICOPHYSICAL PROPERTIES
CHEMISTRY
CONTAMINACION DEL SUELO
ENVIRONMENTAL SCIENCES
FULVIC ACIDS
GEOLOGY
GROUND WATER
Humans
HUMIC ACIDS
Humic Substances
HUMUS
HYDROGEN COMPOUNDS
HYDROLOGY
IONS
MATHEMATICAL MODELS
MEMBRANAS CELULARES
MEMBRANE CELLULAIRE
Metal ions
Micelles
MODELE
MODELOS
Models, Molecular
Molecules
Monograph on Groundwater Quality
ORGANIC ACIDS
ORGANIC COMPOUNDS
Organic pollution
Organic soils
OXYGEN COMPOUNDS
P branes
POLLUTION
POLLUTION DU SOL
PROPIEDADES FISICO-QUIMICAS
PROPRIETE PHYSICO-CHIMIQUE
Sedimentary soils
Soil biochemistry
SOIL CHEMISTRY
SOIL CONTAMINATION
Soil Pollutants
SOIL POLLUTION
SOIL SORPTION
SORCION DEL SUELO
SORPTION
SORPTION DU SOL
SORPTIVE PROPERTIES
SURFACE PROPERTIES
WATER
Water Movements
WATER POLLUTION
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description Humic substances, the dark-colored, natural organic polyelectrolytes that are found in practically all soils, sediments, and natural water, strongly interact with both inorganic and organic pollutants. Inorganic cationic species generally undergo complexation reactions with humic substances. The binding of cations, such as cupric ions, by humic substances often markedly reduces their toxicity to aquatic organisms. Some inorganic anionic species, in the presence of metal ions, are sorbed by humic substances. In these instances the metal ions appear to form bridges between the humic substances and the anions. Several different types of interactions take place between organic compounds and humic materials. Hydrophobic organic species partition into either insoluble or soluble humic substances. The insoluble humic substances will remove hydrophobic organic compounds from the aqueous phase, thereby rendering them less mobile. However, soluble humic substances will solubilize hydrophobic organics, increasing their mobility. Other types of interactions between humic substances and organic compounds, such as adsorption and ion exchange, also have been observed. These various interactions between humic substances and pollutants are important in governing their fate and movement in natural water systems, and, for this reason, a detailed understanding of the mechanisms of the interaction is important. A recently developed membrane model of the structure of humic substances is described; this model enables one to better understand the physical-chemical properties of these materials.
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The insoluble humic substances will remove hydrophobic organic compounds from the aqueous phase, thereby rendering them less mobile. However, soluble humic substances will solubilize hydrophobic organics, increasing their mobility. Other types of interactions between humic substances and organic compounds, such as adsorption and ion exchange, also have been observed. These various interactions between humic substances and pollutants are important in governing their fate and movement in natural water systems, and, for this reason, a detailed understanding of the mechanisms of the interaction is important. 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(U.S. Geological Survey, Arvada, CO)</creatorcontrib><title>Application of a membrane model to the sorptive interactions of humic substances</title><title>Environmental health perspectives</title><addtitle>Environ Health Perspect</addtitle><description>Humic substances, the dark-colored, natural organic polyelectrolytes that are found in practically all soils, sediments, and natural water, strongly interact with both inorganic and organic pollutants. Inorganic cationic species generally undergo complexation reactions with humic substances. The binding of cations, such as cupric ions, by humic substances often markedly reduces their toxicity to aquatic organisms. Some inorganic anionic species, in the presence of metal ions, are sorbed by humic substances. In these instances the metal ions appear to form bridges between the humic substances and the anions. Several different types of interactions take place between organic compounds and humic materials. 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identifier ISSN: 0091-6765
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language eng
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source Open Access: PubMed Central; JSTOR Archival Journals and Primary Sources Collection
subjects 540320 - Environment, Aquatic- Chemicals Monitoring & Transport- (1990-)
Acid soils
Adsorption
ANIONS
CATIONS
CELL MEMBRANES
CHARGED PARTICLES
CHEMICOPHYSICAL PROPERTIES
CHEMISTRY
CONTAMINACION DEL SUELO
ENVIRONMENTAL SCIENCES
FULVIC ACIDS
GEOLOGY
GROUND WATER
Humans
HUMIC ACIDS
Humic Substances
HUMUS
HYDROGEN COMPOUNDS
HYDROLOGY
IONS
MATHEMATICAL MODELS
MEMBRANAS CELULARES
MEMBRANE CELLULAIRE
Metal ions
Micelles
MODELE
MODELOS
Models, Molecular
Molecules
Monograph on Groundwater Quality
ORGANIC ACIDS
ORGANIC COMPOUNDS
Organic pollution
Organic soils
OXYGEN COMPOUNDS
P branes
POLLUTION
POLLUTION DU SOL
PROPIEDADES FISICO-QUIMICAS
PROPRIETE PHYSICO-CHIMIQUE
Sedimentary soils
Soil biochemistry
SOIL CHEMISTRY
SOIL CONTAMINATION
Soil Pollutants
SOIL POLLUTION
SOIL SORPTION
SORCION DEL SUELO
SORPTION
SORPTION DU SOL
SORPTIVE PROPERTIES
SURFACE PROPERTIES
WATER
Water Movements
WATER POLLUTION
title Application of a membrane model to the sorptive interactions of humic substances
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