eggs-output

Quantifying the effects of individual animal characteristics and climatological factors on faecal worm egg count shedding in donkeys

Citation

Christopher J Corbett, Sandy Love, Giles T. Innocent, Ian McKendrick, Jacqui. B. Matthews, Faith A. Burden, Matthew Denwood. Quantifying the effects of individual animal characteristics and climatological factors on faecal worm egg count shedding in donkeys. Presented at British Society for Parasitology Spring Meeting.

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Presentation details
Date presented: 
Monday 7 April 2014
Abstract

Cyathostomins, the predominant parasitic nematodes of equids, have developed varying degrees of resistance to all three classes of anthelmintic licensed for use in horses. It is essential that the effectiveness of alternative methods of control for these pathogens are quantified, including incorporating climatic data and the commonly advocated practice of removal of faeces from pasture. Here, we obtained monthly faecal worm egg counts (FWEC, n=4,460 individual counts) from 803 donkeys based at The Donkey Sanctuary (Devon, UK). The dataset also included age, sex, field, FWEC history and previous anthelmintic administrations in each individual, as well as the pasture hygiene management method applied in the field where the donkey was grazed. FWEC were analysed alongside local climatic data using a generalised linear mixed model to assess associations between these variables and each observed monthly FWEC. The preferred model was identified using a model selection algorithm based on penalised likelihoods, and associated a 2.1% decrease in FWEC per day with air frost two calendar months ago (p<0.001) and a 38% lower FWEC in groups with twice weekly manual faecal removal compared to those with no faecal removal (p=0.004). Other weather effects, both alone and as interaction terms with the average FWEC of the field were included in the model, alongside individual FWEC history with anthelmintic administration as interaction terms and date as a single term. Our study identifies factors that may be useful as part of on-going predictive modelling based methods of improving targeted selective therapy.

Online references

A survey of seasonal patterns in strongyle faecal worm egg counts of working equids of the Central Midlands and Lowlands, Ethiopia

Citation

Mulugeta Getachew, Feseha Gebreab, Andrew F. Trawford, Stuart W. Reid. December 2008. A survey of seasonal patterns in strongyle faecal worm egg counts of working equids of the Central Midlands and Lowlands, Ethiopia. Tropical Animal Health and Production. 40:8. 637-642.

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Publication details
Publication date: 
1 December 2008
Volume: 
40
Issue: 
8
Page numbers: 
637-642
DOI number: 
10.1007/s11250-008-9142-5
Abstract

A study was conducted for two consecutive years (1998-1999) to determine the seasonal patterns of strongyle infection in working donkeys of Ethiopia. For the purpose 2385 donkeys from midland and lowland areas were examined for the presence of parasitic ova. A hundred percent prevalence of strongyle infection with similar seasonal pattern of strongyle faecal worm egg output was obtained in all study areas. However, seasonal variations in the number of strongyle faecal worm egg output were observed in all areas. The highest mean faecal worm egg outputs were recorded during the main rainy season (June to October) in both years in all areas. Although an increase in the mean strongyle faecal egg output was obtained in the short rainy season (March-April) followed by a drop in the short dry season (May), there was no statistically significant difference between the short rainy season and long dry season (Nov-Feb) (P > 0.05). A statistically significant difference however, was obtained between the main rainy season and short rainy season, and between the main rainy season and dry season (P < 0.05). Based on the results obtained it is suggested that the most economical and effective control of strongyles can be achieved by strategic deworming programme during the hot dry pre-main rainy season (May), when the herbage coverage is scarce and helminthologically 'sterile', and the arrested development of the parasites is suppose to be terminating. This could insure the greatest proportion of the existing worm population to be exposed to anthelmintic and also reduces pasture contamination and further infection in the subsequent wet season.

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