SUMMARYReports of Calicophoron daubneyi infecting livestock in Europe have
increased substantially over the past decade; however, there has not been an estimate of
its farm level prevalence and associated risk factors in the UK. Here, the prevalence of
C. daubneyi across 100 participating Welsh farms was recorded, with
climate, environmental and management factors attained for each farm and used to create
logistic regression models explaining its prevalence. Sixty-one per cent of farms studied
were positive for C. daubneyi, with herd-level prevalence for cattle
(59%) significantly higher compared with flock-level prevalence for sheep (42%,
P = 0·029). Co-infection between C. daubneyi and
Fasciola hepatica was observed on 46% of farms; however, a significant
negative correlation was recorded in the intensity of infection between each parasite
within cattle herds (rho = −0·358, P = 0·007). Final models showed
sunshine hours, herd size, treatment regularity against F. hepatica, the
presence of streams and bog habitats, and Ollerenshaw index values as significant positive
predictors for C. daubneyi (P < 0·05). The
results raise intriguing questions regarding C. daubneyi epidemiology,
potential competition with F. hepatica and the role of climate change in
C. daubneyi establishment and its future within the UK.
BackgroundFasciola hepatica is a highly prevalent parasite infecting livestock in Great Britain, while Calicophoron daubneyi is an emerging parasite within the GB livestock industry. Both F. hepatica and C. daubneyi require an intermediate host snail to complete their life-cycles and infect ruminants; however, there has been no confirmation of the intermediate host of C. daubneyi in GB, while there are questions regarding alternative host snails to Galba truncatula for F. hepatica. In this study, PCR was used to identify C. daubneyi hosting snail species on Welsh pastures and to identify any alternative snail species hosting F. hepatica.FindingsTwo hundred and sixty four snails were collected between May-September 2015 from six farms in mid-Wales known to have livestock infected with C. daubneyi and F. hepatica. Fifteen out of 134 G. truncatula were found positive for C. daubneyi, one of which was also positive for F. hepatica. Three snail species were found positive for F. hepatica [18/134 G. truncatula, 13/52 Radix balthica, and 3/78 Potamopyrgus antipodarum (New Zealand mud snail)], but no evidence of C. daubneyi infection in the latter two species was found.ConclusionThis study indicates that G. truncatula is a host for C. daubneyi in GB. Galba truncatula is also an established host of F. hepatica, and interactions between both species at intermediate host level could potentially occur. Radix balthica and P. antipodarum were found positive for F. hepatica but not C. daubneyi. This could indicate a role for alternative snail species other than G. truncatula in infecting pastures with F. hepatica in GB.Electronic supplementary materialThe online version of this article (doi:10.1186/s13071-015-1271-x) contains supplementary material, which is available to authorized users.
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