An Overview of the Control of Bacterial Pathogens in Cattle Manure

Manyi-Loh, Christy E.; Mamphweli, Sampson; Meyer, Edson L.; Makaka, Golden; Simon, Michael; Okoh, Anthony I.

doi:10.3390/ijerph13090843

Cited by 178 publications

(113 citation statements)

References 106 publications

(157 reference statements)

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“…Calculated rate of decline for E. coli and Salmonella between sampling dates was within 12.5-21.6 days for one log reduction reported by Goss et al (2013), for September 2010 sampling when manure was relatively warm. Decline rates were higher during the remainder of the study and overall survival rates during storage exceeded those reviewed by Manyi-Loh et al (2016). Nicholson et al (2005) found E. coli O157, Salmonella and Campylobacter survived up to three months in slurry storage compared to 11 mo storage in this study.…”

Section: Agronomic Aspects: Nutrient Contents and Transformationsmentioning

confidence: 45%

“…From soil, pathogens may be transferred into waterways to become a human health hazard (Goss and Richards 2008;Jacobsen and Bech 2012). However, results of pathogen survival in laboratory condition are known to differ from those under field condition (Manyi-Loh et al 2016), thus, knowledge of the type and amounts of pathogens and their survival rates in farm storages is needed to improve estimates of risks from land application of manure.…”

mentioning

confidence: 99%

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Impact of manure storage conditions and time on decomposition and losses from liquid dairy manure stored in a temperate climate

et al. 2017

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Large volumes of generated animal manures necessitate knowledge of how its production and storage affects composition, losses, and utilization potential. Stratification of liquid dairy manure was the main source of observed variability within outdoor uncovered manure storage, during a yearlong monitoring of 24 physicochemical manure parameters. Coefficient of variation (CV) ranged from 4-24% for plant nutrients and 33-89% for biogas feedstock parameters. Nitrogen (N) volatilization losses during storage between manure additions were ~10% mo -1 of total Kjeldahl nitrogen (TKN). Acetic acid was up to 100% of total volatile fatty acid (tVFA) concentration. Bioavailability and solubility of manure parameters, reflected in ratios of volatile solids to total solids (VS:TS), total ammoniacal nitrogen to total Kjeldahl nitrogen (TAN:TKN), and dissolved phosphorus to total phosphorus (O-PO 4 :TP) ratios was high. There was substantial pathogen survival during the study with an increased count with added manure. Manure temperature changes and precipitation levels likely played a major role in mineralization and volatilization rates of nutrients and reduction of solids, especially in surface levels of manure in storage. Study results underline the importance of sampling method, timing, and location within stored manure to obtain representative samples unless thorough mixing is previously applied. Further work related to manure properties might benefit from a higher number of farms sampled, provided that consistency in sampling method and analysis is maintained to minimize errors and provide reliable results.

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Section: Agronomic Aspects: Nutrient Contents and Transformationsmentioning

confidence: 45%

mentioning

confidence: 99%

Impact of manure storage conditions and time on decomposition and losses from liquid dairy manure stored in a temperate climate

et al. 2017

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“…more resistant to the condition and temperature of the digester. Factors affecting the hygiene of the digester depend on the pathogens present in the feed material, their amount, the temperature of the biogas process, retention time, process type and available nutrients [24,25]. The reduction of endoparasites in CBM formation process reached 77.08%, whereas in the previous study the reduction of endoparasites in the biogas formation process reached 93.7% [26].…”

Section: Total Number Of Bacteriamentioning

confidence: 79%

The quality of microorganism on coal bed methane processing with various livestock waste in laboratory scale

Marlina

Kurnani

Hidayati

et al. 2018

AIP Conference Proceedings

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“…These are known as manure-borne pathogens (Pachepsky et al 2006, Manyi-Loh et al 2016. A minimum of three months is needed when the air is more than 0°C to properly kill microbes in untreated, dry manure (Manyi-Loh et al 2016). This is problematic in Mongolia where during much of the year the ambient temperature is below 0°C.…”

Section: Zoonotic Risks: Fuel and Water Sourcesmentioning

confidence: 99%

“…A review of zoonotic pathogens associated with cattle manure found that Salmonella spp., Campylobacter spp., Listeria monocytogenes, Yersinia enterocolitica, Escherichia coli, Cryptosporidium parvum, and Giardia lamblia were all spread in manure. These are known as manure-borne pathogens (Pachepsky et al 2006, Manyi-Loh et al 2016. A minimum of three months is needed when the air is more than 0°C to properly kill microbes in untreated, dry manure (Manyi-Loh et al 2016).…”

Section: Zoonotic Risks: Fuel and Water Sourcesmentioning

confidence: 99%

Potential risk factors for zoonotic disease transmission among Mongolian herder households caring for horses and camels

Sack

Daramragchaa²,

Chuluunbaatar³

et al. 2018

Pastoralism

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Mongolia has more than ten times as many livestock as people. Herders are dependent on their livestock for their livelihood, and seasonal movement is driven by the livestock's grazing needs. The daily, seasonal interactions between Mongolian herders and their livestock put herders at risk for several zoonotic diseases. The goals of this pilot study were to describe potential risk factors for zoonotic disease transmission and note how they differed for herder families between provinces (aimags). As part of a larger study, a household survey was administered to 131 households in Arkhangai, Uvurkhangai, and Umnugobi provinces aimags during 2016 and 2017. The study was limited due to its self-reported survey data and its convenience sample design. We did not capture specific disease data. All households cared for either or both horses (Equus ferus caballus) and Bactrian camels (Camelus bactrianus). All households had a cell phone and access to a power source, primarily solar panels (93.1%). Families reported spending on average 3.9 h a day with their horses or camels. As all five of the most prevalent zoonotic pathogens in Mongolia have horses as reservoirs, and three of the five may also reservoir in Bactrian camels, herder families with horses or camels potentially experience daily risks from zoonotic diseases. Our pilot study data demonstrated that zoonotic disease transmission could occur through a number of ways, such as directly from contact with livestock or manure or from contaminated food, milk, or water. Sixty-four percent of herder households reported using dried manure for fuel. Unprocessed river water was often the primary source (52.7%) of drinking water, which is potentially contaminated with manure-borne pathogens. Fuel and water sources varied by herder household location. A unifying finding was the ubiquity of cellphones in all surveyed herder households, providing a potentially efficient method for public health communication.

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An Overview of the Control of Bacterial Pathogens in Cattle Manure

Cited by 178 publications

References 106 publications

Impact of manure storage conditions and time on decomposition and losses from liquid dairy manure stored in a temperate climate

Impact of manure storage conditions and time on decomposition and losses from liquid dairy manure stored in a temperate climate

The quality of microorganism on coal bed methane processing with various livestock waste in laboratory scale

Potential risk factors for zoonotic disease transmission among Mongolian herder households caring for horses and camels

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