2018
DOI: 10.1002/clen.201800042
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Proportion of Sewage Sludge to Soil Influences the Survival ofSalmonellaDublin andEscherichia coli

Abstract: The survival of enteric pathogens in sewage sludge can lead to their transferral into the soil environment and subsequent contamination of crops and water courses. This, in turn, can increase the potential spread of gastrointestinal disease. This work aims to determine the persistence of several microorganisms, co‐introduced with sewage sludge, when exposed to varying proportions of sewage sludge to soil. Three microcosm‐based studies are established, inoculated with Salmonella Dublin or an environmentally per… Show more

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Cited by 11 publications
(11 citation statements)
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“…Also, Salmonella is one of the most-studied bacteria in WWTP sludge (Jr Krzyzanowski et al, 2016). These bacteria can survive once released into the environment in part through sludge spreading on agricultural plots (Jr Krzyzanowski et al, 2016;Bloem et al, 2017;Ellis et al, 2018). Thus, the consumption of food from these lands could be a way of contamination.…”
Section: Pathogenic Organismsmentioning
confidence: 99%
“…Also, Salmonella is one of the most-studied bacteria in WWTP sludge (Jr Krzyzanowski et al, 2016). These bacteria can survive once released into the environment in part through sludge spreading on agricultural plots (Jr Krzyzanowski et al, 2016;Bloem et al, 2017;Ellis et al, 2018). Thus, the consumption of food from these lands could be a way of contamination.…”
Section: Pathogenic Organismsmentioning
confidence: 99%
“…The heterogeneous nature of the above five categorized materials and their diverse treatment conditions like moisture level, seasonality, application dose, and condition were also considered to cover the wide range of data set. Data were obtained from tables or log-linear regression equations where available (Himathongkham et al, 1999;Oliver et al, 2006;Lang and Smith, 2007;Martinez et al, 2013;Hodgson et al, 2016;Roberts et al, 2016); otherwise, data were extracted from digitized figures to derive log-linear regression equation by plotting Log 10 CFU g −1 dw vs. Time (days) (Avery et al, 2004(Avery et al, , 2005Oliver et al, 2010;Schwarz et al, 2014;Biswas et al, 2018;Ellis et al, 2018). The die-off pattern of pathogens can be described by the first-order kinetics Equation 1, which upon integration gives the linear Equation 2 (Mubiru et al, 2000;Martinez et al, 2013).…”
Section: Empirical Data On E Coli Concentration and Decay Ratementioning
confidence: 99%
“…The risk model input parameters i.e., initial E. coli concentration (C 0 ) and decay rate (k) were used from the Table 1 as presented in Table 2. In scenario 1, the values of C 0 (i.e., concentration of E. coli at day 0) and k were taken as the average for soil to sludge mixture matrix of un-amended soil (Lang and Smith, 2007), 100% soil (E. coli spiked) (Oliver et al, 2006;Ellis et al, 2018), 75% soil to 25% sludge (Ellis et al, 2018), 50% soil to 50% sludge (Ellis et al, 2018), 25% soil to 75% sludge (Ellis et al, 2018), and 100% sludge (Avery et al, 2005;Ellis et al, 2018). In scenario 2, C 0 was considered as the average of biosolids associated E. coli from five different studies and the k value was considered individually from the respective study and also, as an average value of those studies (Table 1, 2).…”
Section: Risk Assessment and Uncertainty Analysismentioning
confidence: 99%
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