Behavior and Transport of Microbial Pathogens and Indicator Organisms in Soils Treated with Organic Wastes

Reddy, K. R.; Khaleel, Raziuddin; Overcash, Michael

doi:10.2134/jeq1981.00472425001000030001x

Cited by 231 publications

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“…We found that decreasing soil moisture with increasing soil temperature substantially decreased survival of total and fecal coliform bacteria in all three soil depths examined. Reddy et al (1981) found that fecal coliform bacteria dieoff follow first order kinetics and that the two most important factors influencing survival were moisture a8d temperature. Soil moisture seems to be the most important of these factors (Sjogren, 1994;Crane and Moore, 1986).…”

Section: Discussionmentioning

confidence: 99%

“…Soil temperature also exerts a major influence on the survival of pathogenic bacteria. Extremely hot (>28°C) soil temperatures combined with drying will effectively decrease survival rates (Sjogren, 1994;Reddy et al, 1981). The objective of this study was to determine the survival of total and fecal coliform bacteria in soil growing three different types of riparian vegetation in different climatic conditions.…”

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confidence: 99%

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The Influence of Vegetation in Riparian Filterstrips on Coliform Bacteria: II. Survival in Soils

et al. 2000

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

The Influence of Vegetation in Riparian Filterstrips on Coliform Bacteria: II. Survival in Soils

et al. 2000

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“…), hydrodynamic profile (oxygen concentration, residence time in filter) and microbial niche control the fate of microbes when applied on to the soil (Reddy et al, 1981;Crane and Moore, 1984). Pathogen removal in CSF system is due to (i) property of media to retain pathogens in first phase of filtration, i.e.…”

Section: Pathogen Removalmentioning

confidence: 99%

Municipal wastewater treatment using novel constructed soil filter system

et al. 2008

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“…We assume that the function R(r) can be estimated from literature data on the probability distribution of E. coli O157 in fresh cattle faeces, combined with a deterministic estimate of total E. coli content of cattle faeces (we used the log value per gram faeces of 5.36 (Reddy et al, 1981)), and the value of R(r) is assumed to have an upper bound of 1. The E. coli O157 content of cattle faecal pats on 88 E. coli O157-positive Scottish farms (18% of farms sampled) has been quantified by Halliday et al (2006).…”

Section: Risk Of Infectionmentioning

confidence: 99%

Microbial pollution of water by livestock: approaches to risk assessment and mitigation

Vinten¹,

Potts

Avery³

et al. 2009

Animal

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In this study, we investigate the extent to which the incidence of Escherichia coli O157:H7 can be predicted in human faeces, from human intake and infection via water contaminated by livestock and carrying this zoonotic pathogen in North-East (NE) and South-West (SW) regions of Scotland. In SW Scotland, there is a risk of coastal recreational waters failing EU standards for faecal indicator organisms, and this is assumed to be the main potential waterborne route of infection. In NE Scotland, the main waterborne route is assumed to be the many private drinking water supplies; these are mainly derived from shallow groundwater and surveys show that there is potential for significant levels of microbial contamination from livestock. The risk to human health from these sources has been assessed using a combination of process models, epidemiological risk-assessment methods and survey data. A key assumption in the calculations is the amount of mixing of pathogenic and non-pathogenic E. coli between animal faecal sources and contaminated water intake by humans. Using the probability distributions of the E. coli O157 content of individual faecal pat material (which would imply no mixing between source and human intake), based on three recent surveys of animal faeces in Scotland, led to predicted annual risks of infection slightly higher than observed human infection incidence. Using the geometric mean to represent partial mixing (which theoretically may over-or underestimate incidence with a concave dose-response curve) gave infection rates similar to those observed for two of the three faecal surveys. Using the arithmetic mean led to over-prediction of risk. This is to be expected if the true dose-response curve is (such as the Beta-Poisson curve used here) concave. Other factors that may lead to over-prediction of incidence are discussed, including under-reporting, loss of infectivity as a result of environmental exposure, immunity and the appropriateness of the Beta-Poisson curve. It is concluded that better epidemiological data for calibration of the dose-response curve, better knowledge of the degree of mixing and understanding of immunity are key requirements for progress in process model-based predictions of infection rate. The paper also explores the potential of improved farm and catchment scale management to deliver cost-effective mitigation of pollution of bathing and drinking water by livestock zoonoses.

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Behavior and Transport of Microbial Pathogens and Indicator Organisms in Soils Treated with Organic Wastes

Cited by 231 publications

References 0 publications

The Influence of Vegetation in Riparian Filterstrips on Coliform Bacteria: II. Survival in Soils

The Influence of Vegetation in Riparian Filterstrips on Coliform Bacteria: II. Survival in Soils

Municipal wastewater treatment using novel constructed soil filter system

Microbial pollution of water by livestock: approaches to risk assessment and mitigation

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