"These four videos form the first of our new Glensaugh video series. We are grateful to SEFARI Gateway for their funding contribution towards the creation of these videos." In support of the James Hutton Institute’s Climate-Positive Farming initiative at Glensaugh, which explores a transformational approach to farming that achieves net-zero or even negative carbon emissions whilst protecting natural assets and ensuring long-term financial sustainability, four new videos have been produced to introduce the farm and give a taster of research activities and farm operations around the key topic
Displaying 1031 - 1040 of 2679
I am a research assistant, based at the Moredun Research Institute, providing technical support for the ongoing research towards the sustainable control of helminth parasites of livestock, with an emphasis on trematode (flatworm) parasites. I have experience with the application of molecular methods in novel diagnostics and the detection and management of anthelmintic resistance. My current ongoing work includes monitoring fluke disease in the environment, utilising Multiplexed-tandem PCR and DNA barcoding techniques for high-throughput species identification, and identifying anthelmintic
In this case study, we describe field investigations of liver fluke risk to livestock associated with grazing under two different agri-environmental schemes and discuss best practice for conservation grazing and sustainable fluke control.
Control of plant diseases such as potato late blight relies heavily on the use of crop protection products such as fungicides. New fungicides are constantly needed as older products face pathogen resistance to them, tighter regulation, and the desire for products with improved environmental and toxicological profiles. Consequently, there is a large global market for crop protection chemicals, which was valued at over $55 billion in 2018. SEFARI research in this area has used our growing knowledge of the potato late blight pathogen to identify aspects of its biology that could be exploited to