Soil Sample Analysis of Bacillus anthracis Contaminated Animal Burial Sites

Soil Sample Analysis of Bacillus anthracis Contaminated Animal Burial Sites

Environmental contamination with spores poses clear threats to livestock that play key roles in the economies of pastoral communities. Regular monitoring of contaminated sites is particularly important in anthrax-endemic parts of the world, such as Kars province in eastern Türkiye, where the Veterin...

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Bibliographic Details
Published in:Microorganisms (Basel) Vol. 12; no. 10; p. 1944
Main Authors: Sahin, Mitat, Laws, Thomas R, Dyson, Hugh, Celebi, Ozgur, Doganay, Mehmet, Buyuk, Fatih, Baillie, Les
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 25-09-2024
MDPI
Subjects:
Animals
Anthrax
Antibodies
Antigens
Bacillus anthracis
Burial
Carcasses
Cattle
Contamination
Decontamination
Environmental aspects
environmental exposure
Environmental monitoring
Health aspects
Health care
Hypotheses
Immunization
Infections
Kars region
Livestock
Microbiology
Regional planning
sample plan
Sampling
Sheep
Soil analysis
Soil contamination
Soil microorganisms
Soil pollution
soil reservoirs
Soils
spore persistence
Spores
Threat evaluation
Toxins
Turkey
Bacillus anthracis
endemic anthrax
environmental exposure
sample plan
spore persistence
Kars region
soil reservoirs
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Summary:Environmental contamination with spores poses clear threats to livestock that play key roles in the economies of pastoral communities. Regular monitoring of contaminated sites is particularly important in anthrax-endemic parts of the world, such as Kars province in eastern Türkiye, where the Veterinary Microbiology Department of Kafkas University has conducted an anthrax surveillance programme for over 30 years. We reviewed the microbiological results of 232 soil samples collected during 2009-2023, from sites known to be contaminated with spores following burial or butchering of infected animal carcasses. Twenty-five contaminated sites in 16 villages were studied. Samples were taken from a total of 61 different positions within these sites and viable spores were detected in 136 (58.6%) of the samples examined. Of the 96 samples from which spores were not recovered, subsequent samples from the same positions proved positive on 21 occasions. Using a standardised sampling plan, it was discovered that samples taken 1-2 m on a downward slope from the centre-point of contamination had higher ( < 0.001) spore concentrations than those taken from other positions. Although spore concentrations at some sampling positions varied over time, the overall values remained stable. This finding contrasts with observations in other parts of the world where spore concentrations tend to decline with time and may reflect regional differences in soil composition that permit more prolonged spore persistence. Concentrations of >100 spores/g soil were found in 10 (66.7%) of the 15 samples taken 10-13 years following a contamination event. These results demonstrate the longevity of viable anthrax spores in the soil of agricultural environments following decomposition of infected animal carcasses, and therefore the need for prolonged bacteriological monitoring of contaminated sites. Furthermore, they underline the importance of appropriate decontamination, as burial on its own does not eliminate all spores.
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content type line 23
ISSN:2076-2607
2076-2607
DOI:10.3390/microorganisms12101944