A new technique which identifies the presence of mud snails infected with fluke by detecting their DNA in water is being used to help Welsh farms identify habitats with the greatest potential to infect livestock with the parasites.

During a joint project between Farming Connect and the Institute of Biological, Environmental and Rural Sciences (IBERS) at Aberystwyth University, potential mud snail habitats were surveyed on five farms across Wales.

The presence of mud snails is a clear risk factor for fluke infections in livestock as the snails are integral to the fluke’s lifecycle.

But detecting these snails, which are not present in all wet areas as commonly assumed, is not easy and trained staff are needed to identify potentially suitable habitats, find these tiny, elusive creatures and differentiate them from other non-fluke transmitting snails.

Dr Hefin Williams, a lecturer in agricultural environment at IBERS, who led the study, says this process would be impractical on a national scale because it is costly and time consuming, but an environmental DNA test developed at Aberystwyth University could be the solution.

During the Farming Connect trial, that test identified mud snail DNA in each habitat where snails were physically detected and in other habitats where no snails were seen.

“The test also picked up both liver fluke and rumen fluke DNA in mud snail habitats which is also promising as we look to develop this test further in future and use it to assess fluke infection risk in fields,’’ says Dr Williams.

The five farms – one dairy and four beef and sheep – were visited up to four times between May and October 2017, when wet habitats were repeatedly surveyed.

Water from the habitats was filtered through DNA-capturing filters which were then screened for the presence of mud snail, liver fluke and rumen fluke DNA.

Dr Rhys Jones, who was involved in the research during his PhD, says livestock groups infected with liver fluke and rumen fluke were identified using faecal egg counting (FEC).

“By the end of the project we were able to determine whether mud snails were likely to be present within habitats and identify their fluke infection status via DNA analysis.”

Each of the farms was given a detailed map assessing fluke infection risk in each area.

“It’s hoped that these maps will assist farmers in making informed livestock management decisions in consultation with their vet to assist with fluke control,’’ says Dr Jones.

“Interventions to reduce contact between livestock and fluke on pasture such as fencing and draining can be costly and being able to specify and prioritise which habitats pose the most immediate risk should be valuable information to manage fluke risk in the future, especially as the threat of anthelmintic resistance grows.’’

This study comes two years after a team from IBERS – a Farming Connect Innovation Site – published research on the prevalence of rumen fluke on Welsh farms.

That study found that 61 per cent of farms sampled were positive for rumen fluke, 68 per cent were positive for liver fluke and co-infection of both flukes was seen on 46 per cent of farms. Only 17 per cent were negative for both.

Of the five farms involved in the latest research, some have since fenced off newly identified mud snail habitat from livestock as well as adapting their fluke control programme to test livestock in the spring to ensure that animals shedding fluke eggs onto mud snail habitats are identified via FEC testing and treated.

CASE STUDY

Both liver and rumen fluke were detected at Hafod Farm near Llandysul, with levels of rumen fluke the highest recorded by the research team.

Six snail habitats were identified at this 120-acre dairy farm, which Liam and Annie James farm in partnership with Annie’s father, Clive Lott.

Snails in three of these habitats were infected with liver fluke and rumen fluke infection was detected in snails in two of the sites.

“Given the number of snails seen in the habitats and the sizeable nature of these habitats it would be reasonable to conclude that they pose a significant risk of infection to livestock grazing the surrounding areas,’’ says Dr Williams.

The family are in their fourth year of farming at Hafod and, although they are aware that poor drainage has resulted in some very wet areas, they were completely taken aback by the sampling results.

“We’d had reports from the abattoir of liver fluke in a couple of cull cows but we were completely unaware that we had rumen fluke in the herd,’’ says Mr James.

“Liver fluke and juvenile stages of rumen fluke can affect milk yield but you wouldn’t be able to tell by looking at a cow whether she was infected.’’

The study had been valuable on two counts. Instead of using a flukicide that treats only liver fluke, a product that covers both rumen and liver fluke is now administered during the dry period.

The family is also able to prioritise which areas to drain and fence off from livestock.

“We have put some temporary fencing up as a short-term measure,’’ says Mrs James.

The farm has required a lot of investment but she says this study has shown that fencing and drainage in certain high risk areas must be a priority.

“It is not going to be a magic fix but the awareness and the changes we are putting in place should help.’’

The spring-calving herd of 140 Friesians and Norwegian Red crosses is yielding an annual average of 5,000 litres at 3.50 per cent protein and 4.15 per cent butterfat, with milk sold to Arla.

Mr James says that dealing with the fluke issue should lift milk yields.

“Getting on top of the problem will require investment but some of the work should pay for itself if we can produce more milk.’’