Bacterial attachment in porous media
Colloid filtration theory was utilized to estimate the sticking coefficient (α) of bacteria in filter media. Determination of bacterial cell numbers was facilitated by incorporation of [³H] leucine into cells prior to filtration. Large changes in retention of bacteria within porous material correlat...
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The University of Arizona.
1992
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| Online Access: | http://hdl.handle.net/10150/291433 |
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ndltd-arizona.edu-oai-arizona.openrepository.com-10150-291433 |
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ndltd-arizona.edu-oai-arizona.openrepository.com-10150-2914332015-10-23T05:15:25Z Bacterial attachment in porous media Hilbert, Thomas Adams, 1961- Logan, Bruce E. Environmental Sciences. Colloid filtration theory was utilized to estimate the sticking coefficient (α) of bacteria in filter media. Determination of bacterial cell numbers was facilitated by incorporation of [³H] leucine into cells prior to filtration. Large changes in retention of bacteria within porous material correlated with different stages in the bacterial growth cycle. This was due primarily to changes in cell size and not due to a change in α. The effects of ionic strength, pH, nutrient status, surfactant concentration and filter material on α were also evaluated. Various filtration models predicted similar trends in the magnitude of bacterial α with changes in experimental conditions. Experiments were performed with two gram negative and one gram positive bacterial species, Pseudomonas fluorescens, Pseudomonas JS6, and Bacillus pumilus. Small reductions in α were observed in cultures that were carbon-limited. Oxygen limitation produced no change in alpha. Bacterial α's were a function of ionic strength and filter material. 1992 text Thesis-Reproduction (electronic) http://hdl.handle.net/10150/291433 1350943 .b26422529 en_US Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona. |
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NDLTD |
| language |
en_US |
| sources |
NDLTD |
| topic |
Environmental Sciences. |
| spellingShingle |
Environmental Sciences. Hilbert, Thomas Adams, 1961- Bacterial attachment in porous media |
| description |
Colloid filtration theory was utilized to estimate the sticking coefficient (α) of bacteria in filter media. Determination of bacterial cell numbers was facilitated by incorporation of [³H] leucine into cells prior to filtration. Large changes in retention of bacteria within porous material correlated with different stages in the bacterial growth cycle. This was due primarily to changes in cell size and not due to a change in α. The effects of ionic strength, pH, nutrient status, surfactant concentration and filter material on α were also evaluated. Various filtration models predicted similar trends in the magnitude of bacterial α with changes in experimental conditions. Experiments were performed with two gram negative and one gram positive bacterial species, Pseudomonas fluorescens, Pseudomonas JS6, and Bacillus pumilus. Small reductions in α were observed in cultures that were carbon-limited. Oxygen limitation produced no change in alpha. Bacterial α's were a function of ionic strength and filter material. |
| author2 |
Logan, Bruce E. |
| author_facet |
Logan, Bruce E. Hilbert, Thomas Adams, 1961- |
| author |
Hilbert, Thomas Adams, 1961- |
| author_sort |
Hilbert, Thomas Adams, 1961- |
| title |
Bacterial attachment in porous media |
| title_short |
Bacterial attachment in porous media |
| title_full |
Bacterial attachment in porous media |
| title_fullStr |
Bacterial attachment in porous media |
| title_full_unstemmed |
Bacterial attachment in porous media |
| title_sort |
bacterial attachment in porous media |
| publisher |
The University of Arizona. |
| publishDate |
1992 |
| url |
http://hdl.handle.net/10150/291433 |
| work_keys_str_mv |
AT hilbertthomasadams1961 bacterialattachmentinporousmedia |
| _version_ |
1718104513972273152 |