Abstract
Properly managed biopiles can be used for slaughterhouse-residual degradation and bacterial pathogen inactivation, which otherwise represent a major health risk in the environment. Biopiles were used to dispose of slaughterhouse-residuals and determine the occurrence and persistence patterns of indicators of pathogenic bacteria. The indicator bacteria included the family Enterobacteriaceae, total coliforms, Escherichia coli, nalidixic acid-resistant E. coli, and Streptococcus fecalis. The slaughterhouse-residual biopiles remained static for 164 d in 2006 and 141 d in 2007. In biopile effluent samples, exponentially decreasing populations of the indicator bacteria were observed. Indicator bacteria presence in biopile and soil samples suggested their retention and persistence in, but not migration from, the media. Though the family Enterobacteriaceae, total coliforms, and Escherichia coli shared behavioral correlations, they exhibited different fates in all media compared to S. fecalis, which was observed to persist and re-grow. The behavior of inoculated nalidixic acid-resistant E. coli suggested that inactivation was the primary process in the biopiles. However, the biopiles constituted continual sources of the indicator bacteria due to their persistence in isolated and protected locations, and changes in dominant species. While biopiling slaughterhouse-residuals was effective to inactivate >99% (log reductions) of indicator bacteria, tertiary methods and biopiling phases should be employed to ensure inactivation of pathogenic bacteria in animal waste biopiles. The fate of bacterial indicators in this system exhibited trends not-as-yet observed for animal waste biopiling activities, which generates numerous questions for further research.
Highlights
In a milliliter of freshwater or a gram of soil, bacteria can number in the billions [1]
1, occurring In Experiment 2 (E2), a maximum count of 3000 cfu·100 mL 1 was detected twice in effluent samples from Cell 1, on successive days after it was inoculated on calendar days (CD) 200
At other times in E2, low and sporadic detection occurring on successive days after it was inoculated on CD 200
Summary
In a milliliter of freshwater or a gram of soil, bacteria can number in the billions [1]. Pathogenic bacteria that survive a composting process can leach into upper soil zones [12]. Canadian compost standards require low levels of fecal coliforms and Salmonellae sp. This research intended to quantify the occurrence and persistence (over time and in space) of indicators of bacterial pathogens in solid and liquid media during the biopiling of slaughterhouse-residuals (SLRs). To study this topic, a facility was constructed that allowed for analysis of physical, biological, chemical, and hydrological biopile parameters (Michitsch et al, 2010) [26]. Five indicators of pathogenic bacteria were monitored: the family Enterobacteriaceae (EB), TC bacteria, Escherichia coli (EC), nalidixic acid-resistant E. coli (EC NAR), and Streptococcus fecalis (SF)
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