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Article

Differential E-coli die-off patterns associated with agricultural matrices

Details

Citation

Oliver D, Haygarth PM, Clegg CD & Heathwaite AL (2006) Differential E-coli die-off patterns associated with agricultural matrices. Environmental Science and Technology, 40 (18), pp. 5710-5716. https://doi.org/10.1021/es0603249

Abstract
The investigation of fecal bacterial die-off in various agricultural and catchment related matrices remains important because of the growing concern over pathogens in agricultural environments and watercourses. The aim of this research was to investigate the die-off of Escherichia coli within cattle manure (both slurry [liquid mix of excrement and urine produced by housed livestock] and feces), soil, and runoff water and to determine if cell numbers would be influenced by the presence of cattle manure within soil and runoff water. E. coli survived better within feces than in slurry; cells within feces declined from 7.5 to 3.3 log CFU g-1 in 76 days. Within slurry, cells fell from 8.5 log CFU g-1 to below levels of detection by day 42. E. coli died off more quickly within manure and slurry than in soil amended with the same fecal material, and declined significantly faster within microcosms when introduced to the soil via sterile water rather than cattle manure. E. coli was found to decline more rapidly within wet (50% moisture w/w), rather than dry (25% moisture w/w), soil. Conversely, in runoff water, die-off of E. coli was increased in the presence of feces. Overall, E. coli die-off was most rapid in water incorporated with cattle manure > unincorporated cattle manure > soil incorporated with cattle manure. The derived die-off characteristics including half-life and decimal reduction times can now provide (i) input for predictive models and (ii) information upon which to consider mitigation strategies associated with both manure and land management.

Journal
Environmental Science and Technology: Volume 40, Issue 18

StatusPublished
Publication date15/09/2006
PublisherACS Publications
ISSN0013-936X
eISSN1520-5851

People (1)

Professor David Oliver

Professor David Oliver

Professor, Biological and Environmental Sciences