Enhancing Europe’s readiness for managing fall armyworm, an invasive pest threat
The fall armyworm, Spodoptera frugiperda, is one of the major insect invaders in maize production regions worldwide. Over the last decade, this American-origin caterpillar has invaded Africa and Asia, whilst heavily impacting yields. In some countries, food security has been challenged. In other countries, the sudden heavy use of pesticides to control this invasive has created health and environmental problems. The pest has now started to migrate into Europe which is causing concern. Fall armyworm is a new pest to Europe, so the expectation is to use pesticides to control it. This collaborative project aims to improve the preparedness of European agricultural actors through safer and more sustainable control practices.
Evaluating the mycoherbicide potential of a leaf-spot pathogen against Japanese knotweed
Japanese knotweed is a highly invasive weed that impacts severely on native biodiversity and local infrastructure in its introduced range. Whilst chemicals are currently used to control the weed, this approach is costly and unsustainable. Biological control is an alternative method. The damaging leaf-spot fungus, Mycosphaerella polygoni-cuspidati, which attacks the plant in its native range was found not to be suitable as a classical biocontrol agent. However, the pathogen is considered to hold potential as a mycoherbicide. The aim of this project is to undertake proof-of-concept research into a potential mycoherbicide, in collaboration with the private industry.
MIRRI: improving access to microbial resources, services and data
Microorganisms are vital natural resources for biotechnology; they help advance human health, improve food security and provide innovative solutions to research and development. The European microbial landscape is fragmented and resources or data are hard to find. The Microbial Resource Research Infrastructure (MIRRI) is resolving this; integrating the main microbial domain Biological Resource Centres and their supporting services and data into a novel pan-European research infrastructure.
Establishing the psyllid: field studies for the biological control of Japanese knotweed
Japanese knotweed is highly damaging. It spreads extremely quickly, preventing native vegetation from growing and has significant impacts on infrastructure. Current control methods rely mainly on chemicals. Research however has identified a tiny psyllid from Japan as a suitable and safe agent to control Japanese knotweed in the UK, Canada, the Netherlands and USA. The current aim of this project is to achieve establishment and impact of the psyllid on Japanese knotweed in these countries.