Strategies for Control of Head disease in Spring Barley Current Project uri icon

description

  • Across the cereals sector, there is renewed interest in grain health and concern about presence of toxic chemicals such as alkaloids and mycotoxins. This concern has been widespread in barley for malting, in wheat destined for milling and feed, and in oats for milling and processing. A project on barley head diseases would attract broad cereal sector interest and would have wide application. This BARIToNE PhD project builds on previous and ongoing research by considering how crop management and barley cultivar influence the occurrence of major barley head diseases, including blight and ergot. The project relates strongly to the climate resilience theme, but also considers reduced and more efficient inputs. Experimental approaches will combine pathology, agronomy and physiology along with chemical analytical approaches and methods in the following main strands: 1. Agronomic management. To provide gap filling in our current knowledge and include field experiments on the impact of changing agronomic systems on ergot survival and proliferation. We know that ergot infection of adjacent grass swards and margins in getting into grain samples and that previous cropping and cultivation can affect fusarium infection. This aspect will be developed within a suite of agronomic management and risk factors to identify future threats to production. This part of the study will also include novel control measures for ergot and fusarium, such as biological control of plant disease which is a growing area of interest in more integrated approaches to crop protection. In addition, the impact of environmental conditions which favour the germination of ergot sclerotia and the expression of toxin production genes will be examined. 2. Monitoring the presence of mycotoxins and alkaloids. To understand the presence of soil and trash borne inoculum and ergot sclerotia and their contribution to mycotoxin and alkaloid concentrations. The monitoring of the presence of mycotoxins and alkaloids will be undertaken with wider project collaboration, including methods for their minimisation through the supply chain and subsequent processing. We also consider that any changes in agronomy that control ergot must not be to the detriment of Fusarium derived mycotoxins, of which T2/HT2 are important in barley. Throughout the research programme, the student will have opportunity to engage with broader strategic research on crop health and improvement.

date/time interval

  • September 30, 2022 - September 17, 2026