Hunt for cause of deadly horse disease turns to Hutton soil science
Efforts to discover the mystery cause of a devastating horse disease called equine grass sickness (EGS) have turned to soil science.
A collaboration between soil specialists at The James Hutton Institute in Aberdeen, animal health experts at Moredun Research Institute and the Equine Grass Sickness Fund is hoping to find clues to the origins of the deadly disease by comparing what’s in soil from a hot spot of EGS in Aberdeenshire with biological samples from actual cases.
The work is one of the latest avenues being explored to unlock the cause of this debilitating disease, which was first recognised at an outbreak in an army camp near Dundee in 1907and is estimated to kill one in 200 horses in the UK every year.
Processing of the samples at the Hutton has had initial support thanks to a £4,000 donation from Aberdeenshire business owner Emily Anderson, whose sister, Scottish Champion dressage winner Gillian Green’s warmblood horse Jed is one of the few to survive the disease.
“It was a horrific experience to see Jed stuck with the chronic form of this terrible disease,” says Green, who is also manager of the National Soils Archive at the Hutton and is in charge of processing the samples. “He survived, thanks to a lot of support and effort from Emily, the stables and the wider community, but most don’t.
“By matching the soil samples with biological samples from horses that have contracted EGS, we hope modern techniques like environmental DNA (eDNA) could help to finally pinpoint the cause of this nightmare disease – or rule it out.”
Dr Beth Wells, a research scientist at the Moredun who is collecting the samples using an approach designed by scientists at the Hutton, says, “For some time we’ve been taking a wider approach to EGS research, looking at the weather and environmental issues in particular.
“Looking at soil is a relatively new avenue, but it is such a complicated factor to investigate, especially when we don’t know what we are looking for. That’s why I approached Professor Lorna Dawson at the Hutton to work on this puzzle with us.
“Now, with this long-term approach, guided by the Hutton, and using modern analysis techniques, we have a chance to look for a cause in a controlled way. Depending on the findings, we are hopeful that it will fill in another piece of this complex jigsaw.”
EGS damages horses’ nervous systems resulting in partial or complete paralysis of their intestines.
Tens of thousands of horses have died from this devastating disease, including two young stallions at the late-Queen’s pony stud in Balmoral in 2018, forcing the estate to halt its breeding programme.
Anderson, who also owns horses and who recently saw a close friend’s horse Woody die of the disease, sparking her donation to the cause, says, “All this work has to be funded and unless these samples are processed, they can’t be stored for future analysis and we could then still be in the dark and more horses will die, without us knowing why.”
The soil samples are being stored in the National Soil Archive at the Hutton’s Aberdeen campus. It is a nationally important store containing around 60,000 soil samples from across Scotland enabling long term analysis of everything from soil health to carbon storage and now also EGS.
The samples will form part of, and be matched with, horse samples held by the Equine Grass Sickness Biobank, run by Moredun, in partnership with the Equine Grass Sickness Fund, and funded by the British Horse Society.
The Biobank project, which involves collecting the samples from EGS cases as well as healthy horses, for comparison, is running for three years, with the samples then maintained, for use by researchers and scientists, for up to 20 years.
To support this project, visit: Equine Grass Sickness | The James Hutton Institute
For further information please visit: Biobank – Equine Grass Sickness Fund
Press and media enquiries:
Elaine Maslin, Media Officer, The James Hutton Institute elaine.maslin@hutton.ac.uk, tel: +44 (0)1224 395076 or +44 (0)7977 805808
September 28, 2023