Roger C. Bales Kimberley M. Maguire Charles P. Gerba Takashi Kinoshita 1993 <p><span>Effects of pH and hydrophobicity on attachment and detachment of PRD-</span><i>1</i><span> and MS-</span><i>2</i><span> in three different sandy soils were investigated in a series of laboratory-column experiments. Concentrations of the lipid-containing phage PRD-</span><i>1</i><span> decreased 3–4 orders of magnitude during passage through the 10–15-cm-long columns. Attachment of the lipid-containing phage PRD-</span><i>1</i><span> was insensitive to pH and was apparently controlled by hydrophobic interactions in soil media. The less-hydrophobic phage MS-2 acted conservatively; it was not removed in the columns at pH's 5.7–8.0. The sticking efficiency (α) in a colloid-filtration model was between 0.1 and 1 for PRD-</span><i>1</i><span>, indicating a relatively high removal efficiency. Phage attachment was reversible, but detachment under steady-state conditions was slow. An increase in pH had a moderate effect on enhancing detachment. Still, these soils should continue to release phage to virus-free water for days to weeks following exposure to virus-containing water. In sandy soils with a mass-fraction organic carbon as low as a few hundredths of a percent, pH changes in the range 5.7–8.0 should have little effect on retention of more-hydrophobic virus (e.g., PRD-</span><i>1</i><span>), in that retardation will be dominated by hydrophobic effects. Sharp increases in pH should enhance detachment and transport of virus previously deposited on soil grains. A more hydrophilic virus (e.g., MS-</span><i>2</i><span>) will transport as a conservative tracer in low-carbon sandy soil.</span></p> application/pdf 10.1016/0169-7722(93)90041-P en Elsevier Effect of pH on bacteriophage transport through sandy soils article