H.N. Chinivasagam scite author profile

This study assessed the levels of two key pathogens, Salmonella and Campylobacter, along with the indicator organism Escherichia coli in aerosols within and outside poultry sheds. The study ranged over a 3-year period on four poultry farms and consisted of six trials across the boiler production cycle of around 55 days. Weekly testing of litter and aerosols was carried out through the cycle. A key point that emerged is that the levels of airborne bacteria are linked to the levels of these bacteria in litter. This hypothesis was demonstrated by E. coli. ). The Salmonella serovars isolated in litter were generally also isolated from aerosols and dust, with the Salmonella serovars Chester and Sofia being the dominant serovars across these interfaces. Campylobacter was detected late in the production cycle, in litter at levels of around 10 7 MPN g ؊1 . Campylobacter was detected only once inside the shed and then at low levels of 2.2 MPN m ؊3 . Thus, the public health risk from these organisms in poultry environments via the aerosol pathway is minimal.

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Volatile components associated with bacterial spoilage of tropical prawns

Chinivasagam¹,

Bremner²,

Wood³

et al. 1998

International Journal of Food Microbiology

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Presence and incidence of food-borne pathogens in Australian chicken litter

Chinivasagam¹,

Redding²,

Runge³

et al. 2010

British Poultry Science

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1. Litter samples were collected at the end of the production cycle from spread litter in a single shed from each of 28 farms distributed across the three Eastern seaboard States of Australia. 2. The geometric mean for Salmonella was 44 Most Probable Number (MPN)/g for the 20 positive samples. Five samples were between 100 and 1000 MPN/g and one at 10(5) MPN/g, indicating a range of factors are contributing to these varying loads of this organism in litter. 3. The geometric mean for Campylobacter was 30 MPN/g for the 10 positive samples, with 7 of these samples being <100 MPN/g. The low prevalence and incidence of Campylobacter were possibly due to the rapid die-off of this organism. 4. E. coli values were markedly higher than the two key pathogens (geometric mean 20 x 10(5) colony forming units (cfu)/g) with overall values being more or less within the same range across all samples in the trial, suggesting a uniform contribution pattern of these organisms in litter. 5. Listeria monocytogenes was absent in all samples and this organism appears not to be an issue in litter. 6. The dominant (70% of the isolates) Salmonella serovar was S. Sofia (a common serovar isolated from chickens in Australia) and was isolated across all regions. Other major serovars were S. Virchow and S. Chester (at 10%) and S. Bovismorbificans and S. Infantis (at 8%) with these serovars demonstrating a spatial distribution across the major regions tested. 7. There is potential to re-use litter in the environment depending on end use and the support of relevant application practices and guidelines.

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Impact of the Australian litter re-use practice on Salmonella in the broiler farming environment

Chinivasagam¹,

Tran²,

Blackall³

2012

Food Research International

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Detection of Arcobacter spp. in piggery effluent and effluent-irrigated soils in southeast Queensland

Chinivasagam¹,

Corney²,

Wright³

et al. 2007

J Appl Microbiol

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H.N. Chinivasagam

Mechanically Ventilated Broiler Sheds: a Possible Source of AerosolizedSalmonella,Campylobacter, andEscherichia coli

Volatile components associated with bacterial spoilage of tropical prawns

Presence and incidence of food-borne pathogens in Australian chicken litter

Impact of the Australian litter re-use practice on Salmonella in the broiler farming environment

Detection of Arcobacter spp. in piggery effluent and effluent-irrigated soils in southeast Queensland

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