Ronald W. Harvey Robert Anders Donald O. Rosenberry Donald Seymour Jay Jasperse David W. Metge 2007 <div id="35d9ca18-265e-4501-9038-4105e95a4b7d" class="widget pageBody none widget-none widget-compact-all"><div class="wrapped "><div class="widget-body body body-none body-compact-all"><div class="page-body pagefulltext"><div data-pb-dropzone="main"><div id="f4a74f7a-9ba2-4605-86b1-8094cb1f01de" class="widget responsive-layout none publicationContentBody widget-none"><div class="wrapped "><div class="widget-body body body-none "><div class="container"><div class="row row-md "><div class="col-md-7-12 "><div class="contents" data-pb-dropzone="contents1"><div id="d29f04e9-776c-4996-a0d8-931023161e00" class="widget literatumPublicationContentWidget none widget-none widget-compact-all"><div class="wrapped "><div class="widget-body body body-none body-compact-all"><div class="publication-tabs ja publication-tabs-dropdown"><div class="tabs tabs-widget"><div class="tab-content "><div class="tab tab-pane active"><div class="hlFld-Abstract"><div class="abstractSection abstractInFull"><p>Carboxylated microspheres were employed as surrogates to assess the transport potential of<span>&nbsp;</span><i>Cryptosporidium parvum</i>oocysts during forced- and natural-gradient tests conducted in July and October 2004. The tests involved poorly-sorted, near-surface sediments where groundwater is pumped from an alluvial aquifer underlying the Russian River, Sonoma County, CA. In an off channel infiltration basin and within the river, a mixture (2-, 3-, and 5- μm diameters) of fluorescently-labeled carboxylated microspheres and bromide tracers were used in two injection and recovery tests to assess sediment removal efficiency for the microspheres. Bottom sediments varied considerably in their filtration efficiency for<span>&nbsp;</span><i>Cryptosporidium</i>.</p></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div></div> application/pdf 10.1080/01490450701456867 en Use of carboxylated microspheres to assess transport potential of Cryptosporidium parvum oocysts at the Russian River water supply facility, Sonoma County, California article