<i>Salmonella enterica</i> Serovar Typhimurium and <i>Escherichia coli</i> Contamination of Root and Leaf Vegetables Grown in Soils with Incorporated Bovine Manure

<jats:title>ABSTRACT</jats:title> <jats:p> Bovine manure, with or without added <jats:italic>Salmonella enterica</jats:italic> serovar Typhimurium (three strains), was incorporated into silty clay loam (SCL) and loamy sand (LS) soil beds (53- by 114-cm surface area, 17.5 cm deep) and maintained in two controlled-environment chambers. The <jats:italic>S. enterica</jats:italic> serovar Typhimurium inoculum was 4 to 5 log CFU/g in manure-fertilized soil. The conditions in the two environmental chambers, each containing inoculated and uninoculated beds of manure-fertilized soil, simulated daily average Madison, Wis., weather conditions (hourly temperatures, rainfall, daylight, and humidity) for a 1 March or a 1 June manure application and subsequent vegetable growing seasons ending 9 August or 28 September, respectively. Core soil samples were taken biweekly from both inoculated and uninoculated soil beds in each chamber. Radishes, arugula, and carrots were planted in soil beds, thinned, and harvested. Soils, thinned vegetables, and harvested vegetables were analyzed for <jats:italic>S. enterica</jats:italic> serovar Typhimurium and <jats:italic>Escherichia coli</jats:italic> (indigenous in manure). After the 1 March manure application, <jats:italic>S. enterica</jats:italic> serovar Typhimurium was detected at low levels in both soils on 31 May, but not on vegetables planted 1 May and harvested 12 July from either soil. After the 1 June manure application, <jats:italic>S. enterica</jats:italic> serovar Typhimurium was detected in SCL soil on 7 September and on radishes and arugula planted in SCL soil on 15 August and harvested on 27 September. In LS soil, <jats:italic>S. enterica</jats:italic> serovar Typhimurium died at a similar rate ( <jats:italic>P</jats:italic> ≥ 0.05) after the 1 June manure application and was less often detected on arugula and radishes harvested from this soil compared to the SCL soil. Pathogen levels on vegetables were decreased by washing. Manure application in cool (daily average maximum temperature of <10°C) spring conditions is recommended to ensure that harvested vegetables are not contaminated with <jats:italic>S. enterica</jats:italic> serovar Typhimurium. Manure application under warmer (daily average maximum temperature >20°C) summer conditions is not recommended when vegetable planting is done between the time of manure application and late summer. A late fall manure application will not increase the risk of contaminating vegetables planted the next spring, since further experiments showed that repeated freeze-thaw cycles were detrimental to the survival of <jats:italic>S. enterica</jats:italic> serovar Typhimurium and <jats:italic>E. coli</jats:italic> in manure-fertilized soil. The number of indigenous <jats:italic>E. coli</jats:italic> in soil was never significantly lower ( <jats:italic>P</jats:italic> < 0.05) than that of <jats:italic>S. enterica</jats:italic> serovar Typhimurium, suggesting its usefulness as an indicator organism for evaluating the risk of vegetable contamination with manure-borne <jats:italic>S. enterica</jats:italic> serovar Typhimurium. </jats:p>