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Trace metal mobilization in soil by bacterial polymers.

Enhanced transport of trace metal in porous media can occur in the presence of a ligand or "carrier" that has a high affinity for binding the pollutant, is dispersed and mobile in the soil environment, is recalcitrant with respect to microbial degradation, and is acceptable to the public....

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Detalles Bibliográficos
Autores principales: Chen, J H, Czajka, D R, Lion, L W, Shuler, M L, Ghiorse, W C
Formato: Texto
Lenguaje:English
Publicado: 1995
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1519318/
https://www.ncbi.nlm.nih.gov/pubmed/7621800
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author Chen, J H
Czajka, D R
Lion, L W
Shuler, M L
Ghiorse, W C
author_facet Chen, J H
Czajka, D R
Lion, L W
Shuler, M L
Ghiorse, W C
author_sort Chen, J H
collection PubMed
description Enhanced transport of trace metal in porous media can occur in the presence of a ligand or "carrier" that has a high affinity for binding the pollutant, is dispersed and mobile in the soil environment, is recalcitrant with respect to microbial degradation, and is acceptable to the public. These aspects of the facilitated transport to trace metals are discussed with respect to a naturally occurring carrier: extracellular polymers of bacterial origin. The literature is reviewed regarding the production and composition of bacterial extracellular polymers, the processes relevant to the facilitated transport of trace metals in soil by bacterial polymers, and potential for transformation of polymers in soils by microbial degradation. Model calculations of contaminant retardation are presented for the case of polymer-mediated transport of cadmium in a sandy aquifer material. The available information suggests that extracellular polymers can bind metal ions and are mobile in the soil environment. Extracellular polymers also appear to be relatively slowly degraded by soil microorganisms. These properties and the supporting model calculations indicate that extracellular polymers of bacterial origin merit consideration as agents that may be applied to contaminated soils to enhance trace metal mobility.
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spelling pubmed-15193182006-07-28 Trace metal mobilization in soil by bacterial polymers. Chen, J H Czajka, D R Lion, L W Shuler, M L Ghiorse, W C Environ Health Perspect Research Article Enhanced transport of trace metal in porous media can occur in the presence of a ligand or "carrier" that has a high affinity for binding the pollutant, is dispersed and mobile in the soil environment, is recalcitrant with respect to microbial degradation, and is acceptable to the public. These aspects of the facilitated transport to trace metals are discussed with respect to a naturally occurring carrier: extracellular polymers of bacterial origin. The literature is reviewed regarding the production and composition of bacterial extracellular polymers, the processes relevant to the facilitated transport of trace metals in soil by bacterial polymers, and potential for transformation of polymers in soils by microbial degradation. Model calculations of contaminant retardation are presented for the case of polymer-mediated transport of cadmium in a sandy aquifer material. The available information suggests that extracellular polymers can bind metal ions and are mobile in the soil environment. Extracellular polymers also appear to be relatively slowly degraded by soil microorganisms. These properties and the supporting model calculations indicate that extracellular polymers of bacterial origin merit consideration as agents that may be applied to contaminated soils to enhance trace metal mobility. 1995-02 /pmc/articles/PMC1519318/ /pubmed/7621800 Text en
spellingShingle Research Article
Chen, J H
Czajka, D R
Lion, L W
Shuler, M L
Ghiorse, W C
Trace metal mobilization in soil by bacterial polymers.
title Trace metal mobilization in soil by bacterial polymers.
title_full Trace metal mobilization in soil by bacterial polymers.
title_fullStr Trace metal mobilization in soil by bacterial polymers.
title_full_unstemmed Trace metal mobilization in soil by bacterial polymers.
title_short Trace metal mobilization in soil by bacterial polymers.
title_sort trace metal mobilization in soil by bacterial polymers.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1519318/
https://www.ncbi.nlm.nih.gov/pubmed/7621800
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