Clayey materials in river basin enhancing microbial contamination of river water

•Biofilm formation at the shore of river is likely to promote accumulation of microorganisms.•Clayey materials collected at the river shore contained minerals such as muscovite, kaolinite and goethite.•Microorganisms in the biofilms mainly attached to the mineral muscovite.•Microorganisms accumulate...

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Veröffentlicht in:	Physics and chemistry of the earth. Parts A/B/C 2014, Vol.67-69, p.236-241
Hauptverfasser:	Fosso-Kankeu, E., Mulaba-Bafubiandi, A.F., Barnard, T.G.
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Sprache:	eng
Schlagworte:	Bacteria Biofilm Biofilms Clayey materials Contamination Escherichia coli Freshwater Mica Microorganisms Muscovite Pseudomonas Rain events River water Rivers Soils
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creator	Fosso-Kankeu, E. Mulaba-Bafubiandi, A.F. Barnard, T.G.
description	•Biofilm formation at the shore of river is likely to promote accumulation of microorganisms.•Clayey materials collected at the river shore contained minerals such as muscovite, kaolinite and goethite.•Microorganisms in the biofilms mainly attached to the mineral muscovite.•Microorganisms accumulated in the clayey materials and were washed off during rain season.•Clayey materials obviously promote biofilm formation and accumulation of microorganisms, increasing water contamination. Mineral constituents of clay materials may promote interaction, adsorption and attachment of microorganisms, often resulting in biofilms’ formation. In this study investigation is made to determine how littoral clayey materials on the shores of a river promote accumulation of bacteria and increase contamination of river water. Clayey samples were collected at various points along the shore of a river around Mondeor in Johannesburg and the mineralogical composition was determined using XRD and XRF. Microorganisms in clay-biofilm and river water were identified by DNA sequencing and plate count. Results showed that total coliforms, Escherichia coli, Pseudomonas sp. and presumptive indigenous microorganisms attached to littoral clayey materials containing the mineral muscovite (characterising argillaceous soils). Bacteria number on clayey materials was significantly higher than on overlying water especially before rainy season. However a decrease of the number of bacteria in clayey materials concurrent with an increase in the number of suspended bacteria after rain events, was the result of the action of high and fast flows in the basin, eroding the biofilms. Attachment of microorganisms in clayey material as observed in this study could be ascribed to the glue-like aspect of soil (due to muscovite) that facilitates adhesion. It therefore demonstrates the potential of clayey materials to encourage biofilm formation and enhance microbial contamination of river water as shown here.
doi_str_mv	10.1016/j.pce.2013.10.001
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Mineral constituents of clay materials may promote interaction, adsorption and attachment of microorganisms, often resulting in biofilms’ formation. In this study investigation is made to determine how littoral clayey materials on the shores of a river promote accumulation of bacteria and increase contamination of river water. Clayey samples were collected at various points along the shore of a river around Mondeor in Johannesburg and the mineralogical composition was determined using XRD and XRF. Microorganisms in clay-biofilm and river water were identified by DNA sequencing and plate count. Results showed that total coliforms, Escherichia coli, Pseudomonas sp. and presumptive indigenous microorganisms attached to littoral clayey materials containing the mineral muscovite (characterising argillaceous soils). Bacteria number on clayey materials was significantly higher than on overlying water especially before rainy season. 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Parts A/B/C</title><description>•Biofilm formation at the shore of river is likely to promote accumulation of microorganisms.•Clayey materials collected at the river shore contained minerals such as muscovite, kaolinite and goethite.•Microorganisms in the biofilms mainly attached to the mineral muscovite.•Microorganisms accumulated in the clayey materials and were washed off during rain season.•Clayey materials obviously promote biofilm formation and accumulation of microorganisms, increasing water contamination. Mineral constituents of clay materials may promote interaction, adsorption and attachment of microorganisms, often resulting in biofilms’ formation. In this study investigation is made to determine how littoral clayey materials on the shores of a river promote accumulation of bacteria and increase contamination of river water. Clayey samples were collected at various points along the shore of a river around Mondeor in Johannesburg and the mineralogical composition was determined using XRD and XRF. Microorganisms in clay-biofilm and river water were identified by DNA sequencing and plate count. Results showed that total coliforms, Escherichia coli, Pseudomonas sp. and presumptive indigenous microorganisms attached to littoral clayey materials containing the mineral muscovite (characterising argillaceous soils). Bacteria number on clayey materials was significantly higher than on overlying water especially before rainy season. However a decrease of the number of bacteria in clayey materials concurrent with an increase in the number of suspended bacteria after rain events, was the result of the action of high and fast flows in the basin, eroding the biofilms. Attachment of microorganisms in clayey material as observed in this study could be ascribed to the glue-like aspect of soil (due to muscovite) that facilitates adhesion. 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In this study investigation is made to determine how littoral clayey materials on the shores of a river promote accumulation of bacteria and increase contamination of river water. Clayey samples were collected at various points along the shore of a river around Mondeor in Johannesburg and the mineralogical composition was determined using XRD and XRF. Microorganisms in clay-biofilm and river water were identified by DNA sequencing and plate count. Results showed that total coliforms, Escherichia coli, Pseudomonas sp. and presumptive indigenous microorganisms attached to littoral clayey materials containing the mineral muscovite (characterising argillaceous soils). Bacteria number on clayey materials was significantly higher than on overlying water especially before rainy season. 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subjects	Bacteria Biofilm Biofilms Clayey materials Contamination Escherichia coli Freshwater Mica Microorganisms Muscovite Pseudomonas Rain events River water Rivers Soils
title	Clayey materials in river basin enhancing microbial contamination of river water
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