Abstract
Incorporation of manures into soil can add nutrients, improve soil structure and enhance biodiversity, thereby improving the sustainability of vegetable production systems. Unfortunately, manures can also potentially contain human enteric pathogens. To reduce the risk of contamination, Australian guidelines recommend a withholding period of 90 days between manure application and harvest for high-risk products such as leafy salad greens. Our study examined the appropriateness of these guidelines under conditions replicating those on a commercial vegetable farm. Cow manure and poultry litter with/without addition of non-pathogenic strains of Escherichia coli (E. coli), Listeriainnocua and Salmonella sv. sofia were added to sandy and clay loam soils typical of those used to grow vegetables. Bacterial populations were monitored in the soil and on crops of cos lettuce during spring (A), summer (B) and autumn (C) trials, with testing conducted by a commercial laboratory. Significant declines in E. coli occurred within 6 to 16 days in all trials. Modelling indicated that E. coli populations would be at or close to the limit of detection within 50 days for all of the combinations tested. A 2–3 log die-off of Salmonella spp. occurred within three weeks. However, occasional detections continued throughout trial A. As a result, the probability of detection after 50 days fell from 1.0 to 0.1 and 0.02 in trials B and C, respectively, but remained at 0.44 in trial A. Listeria spp. was the most persistent in soil but was not detected on lettuce at commercial maturity. While this study was limited in scope, the results suggest that a 90 day withholding period between application of manure and harvest significantly reduces risk from enteric pathogens under Australian field conditions.
Highlights
Animal manure has been used to improve agricultural soil fertility for over 7000 years [1]
Many other factors including moisture, UV intensity, soil type, manure source, incorporation method, aeration, presence of roots and endogenous microflora can influence persistence of human pathogens in soil [2,12,13,14] contributing to the observed variability
Initial testing of the manures used in all three trials for E. coli, Listeria spp. and Salmonella spp. was negative, with the exception of a single positive result of E. coli log 3.3 CFU/g in trial B (Table 2)
Summary
Animal manure has been used to improve agricultural soil fertility for over 7000 years [1]. The die-off rates of human pathogens once added to soils has been widely studied. The authors observe that persistence times tend to be longer in laboratory than field based studies, a finding confirmed in a recent meta-analysis of 42 published papers [11]. This analysis revealed that temperature was the most important factor affecting die-off rates, with population declines significantly faster when weather is warm or hot compared to cool conditions. Many other factors including moisture, UV intensity, soil type, manure source, incorporation method, aeration, presence of roots and endogenous microflora can influence persistence of human pathogens in soil [2,12,13,14] contributing to the observed variability
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