Comparison of Three Air Sampling Methods for the Quantification of Salmonella , Shiga-toxigenic Escherichia coli (STEC), Coliforms, and Generic E. coli from Bioaerosols of Cattle and Poultry Farms

Recent fresh produce outbreaks potentially associated with bioaerosol contamination from animal operations in adjacent land highlighted the need for further study to better understand the associated risk. The purpose of this research was to evaluate three sampling methods for quantifying target bacterial bioaerosols from animal operations. A dairy cattle and poultry farm located in Georgia, U.S. were visited six times each. Air was collected for 10 min using: 2-stage Andersen impactor with and without mineral oil overlay and impingement samplers. Sampling devices were run concurrently at 0.1, 1, and 2 m heights (n = 36). Andersen samplers were loaded with CHROMagar (TM) Salmonella, CHROMagar (TM) STEC, or Brilliance (TM) coliforms/E. coli. The impingement sampler contained buffered peptone water (20 mL) which was vacuum filtered through a 0.45 mu m filter and placed onto the respective media. Plates were incubated at 37 degree celsius for 48 h. PCR confirmation followed targeting ttr for Salmonella and stx(1), stx(2), and eae genes for STEC. No significant differences were found among methods to quantify coliforms and E. coli. Salmonella and STEC bioaerosols were not detected by any of the methods (Limit of detection: 0.55 log CFU/m(3)). E. coli bioaerosols were significantly greater in the poultry (2.76- 5.00 log CFU/m(3)) than in the cattle farm (0.55-2.82 log CFU/m(3)) (p < 0.05), and similarly distributed at both stages in the Andersen sampler (stage 1:>7 | |m; stage 2: 0.65-7 | |m particle size). Sampling day did not have a significant effect on the recovery of coliforms/E. coli bioaerosols in the poultry farm when samples were taken at the broiler house exhaust fan (p > 0.05). A greater and constant emission of coliforms and E. coli bioaerosols from the poultry farm warrants further investigation. These data will help inform bioaerosol sampling techniques which can be used for the quantification of bacterial foodborne pathogens and indicator organisms for future research.