GLOBAL tech giants such as Google and Facebook have built their success on super-computers crunching through the reams of behavioural data harvested from their users – but now the same digital 'deep learning' is to become a key weapon in the fight against tuberculosis in cattle.

Livestock scientists at Scotland’s Rural College have been awarded £337,000 for a project which will use highly advanced computers to predict the Bovine tuberculosis status of dairy cows.

Deep learning – a branch of machine learning – employs algorithms and techniques to make better use of increasingly huge datasets and advances in computer technology. By analysing millions of milk samples with a greater degree of accuracy than ever before, it is hoped the project will strike a significant blow to a disease estimated to cost the UK dairy industry around £175 million a year.

Previous research by SRUC and collaborators has already led to the development of the first national genetic and genomic evaluation for bTB resistance of the Holstein breed as well as the launch of TB Advantage by the Agricultural and Horticultural Development Board.

By using mid infrared (MIR) spectroscopy of milk samples from National Milk Records, SRUC researchers have previously confirmed the existence of significant genetic variation among individual animals for resistance to bTB infection.

The new funding follows a Department for Environment, Food and Rural Affairs review of its 25-year bTB eradication strategy, which now specifically includes 'improved genetic resistance and improved diagnostic tests'.

The new SRUC project, which is being funded by the Biotechnology and Biological Sciences Research Council, will produce data that can be used for management and diagnostic purposes but also potentially for inclusion in national genetic evaluations for bTB host resistance.

Professor Mike Coffey, who is leading the project, said: “This is potentially a great step forward in the fight against TB. Being able to use routinely collected milk samples to alert a cow that may have been exposed to infection will allow the farmer to take remedial action long before the normal testing regime comes in.

“The early removal of infected cows should lower the background level of TB and contribute to enabling more effective outcomes from the existing tools deployed to eradicate the disease.”