I am Research Fellow at the University of Liverpool, currently funded by the Royal Commission for the Exhibition of 1851. My main research aim is to identify and characterise factors that underpin virus and vector success in agricultural ecosystems . I also contribute towards multi-partner projects that aim to develop smart and sustainable AI-driven pest management solutions and I have an ongoing and active interest in the identification and characterisation of plant traits that confer resistance against aphids.
Brief Profile:
I was awarded my PhD in 2019 from The University of Dundee. My PhD research focussed on investigating how drought stress affects the plant-aphid relationship. With a sub-focus examining how aphid endosymbionts influence aphid behaviour and success in this system.
In 2019 I took up an Entomology position at ADAS. Here I worked on numerous research projects, with the overall aim of identifying sustainable methods for herbivorous insect management. Key projects include insecticide resistance monitoring, herbivorous insect population modelling, and developing novel image-analysis methods to support insect identification.
In 2021 I moved to the Institute of Geobotany at Leibniz University of Hannover. My research at Hannover was funded by an Alexander von Humboldt Postdoctoral Research Fellowship and a research grant provided by the British Ecological Society. Here my research investigated how the structure and composition of the agricultural landscape affects the intra-specific diversity (e.g. genotype, endosymbiont presence) in cereal aphids and the cabbage stem flea beetle. The overall aim of these projects were to highlight ecological links between landscape diversity and endosymbiont communities within important herbivorous insect species.
Brief Profile:
I was awarded my PhD in 2019 from The University of Dundee. My PhD research focussed on investigating how drought stress affects the plant-aphid relationship. With a sub-focus examining how aphid endosymbionts influence aphid behaviour and success in this system.
In 2019 I took up an Entomology position at ADAS. Here I worked on numerous research projects, with the overall aim of identifying sustainable methods for herbivorous insect management. Key projects include insecticide resistance monitoring, herbivorous insect population modelling, and developing novel image-analysis methods to support insect identification.
In 2021 I moved to the Institute of Geobotany at Leibniz University of Hannover. My research at Hannover was funded by an Alexander von Humboldt Postdoctoral Research Fellowship and a research grant provided by the British Ecological Society. Here my research investigated how the structure and composition of the agricultural landscape affects the intra-specific diversity (e.g. genotype, endosymbiont presence) in cereal aphids and the cabbage stem flea beetle. The overall aim of these projects were to highlight ecological links between landscape diversity and endosymbiont communities within important herbivorous insect species.
Recent Publications
Daniel J Leybourne
Plant Pathology, vol. 73, 2024, pp. 1042-1059
Leybourne DJ, Storer KE, Marshall A, Musa N, Telling S, Abel L, White S, Ellis S, Yang P, Berry PM
Agronomy for Sustainable Development, vol. 44, 2024, p. 29
Daniel J. Leybourne, Mark A. Whitehead, Torsten Will
Biology Letters, vol. 20, 2024, p. 20240095
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Recent Projects
This project will use an important virus-insect-crop system and will identify factors that influence virus success in agricultural ecosystems. Click the link above for a project overview.
Led by Mutus Tech Ltd. in collaboration with Sheffield University and ADAS. The project aims to further develop our smart herbivorous insect management system. Click the link above to see a project description, updates, and publications.
This project will use a model insect system and investigate the relationship between insect intra-species diversity, multi-trophic interactions, and landscape diversity. Click the link above to see a project description, updates, and publications.
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