"Attachment of Escherichia coli to fine sediment particles within construction sediment basins"
written by Elizabeth A. Kunkel, Charles V. Privette, Calvin B. Sawyer, John C. Hayes,
published by Advances in Bioscience and Biotechnology, Vol.4 No.3A, 2013
has been cited by the following article(s):
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[1] An Integrated Hydrological-CFD Model for Estimating Bacterial Levels in Stormwater Ponds
[2] Effect of the particle size and surface area on Escherichia coli attachment to mineral particles in fresh water
[3] Study on the Attachment of Escherichia coli to Sediment Particles at a Single-Cell Level: The Effect of Particle Size
[4] Evaluating E. Coli Particle Attachment and the Impact on Transport During High Flows
[5] Simulation of the fate of faecal bacteria in estuarine and coastal waters based on a fractionated sediment transport model
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[6] Reductions in turbidity and Escherichia coli density using passive polymer treatment in simulated stormwater runoff.
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[7] Reductions in turbidity and Escherichia coli density using passive polymer treatment
[8] Tracking the hydrodynamic behavior of fine sediment using particle image velocimetry
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[9] Hydrodynamic behaviours of fine sediment in retention structure using particle image velocimetry
[10] Uncertainty in monitoring E. coli concentrations in streams and stormwater runoff
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[11] Riverbed sediments in the Apies River, South Africa: recommending the use of both Clostridium perfringens and Escherichia coli as indicators of faecal pollution
Journal of Soils and Sediments, 2015
[12] Impact of seasonal variation on Escherichia coli concentrations in the riverbed sediments in the Apies River, South Africa
Science of The Total Environment, 2015
[13] Transport and Fate of Escherichia coli in Sediment Layer and Water Column of Basins on Active Construction Sites
Transactions of the ASABE, 2013