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to field evaluation to define a framework for rational optimisation of plant-mycorrhizal symbioses for more efficient P use in agriculture. The modelling component will involve combining existing models
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future direction of our Centre’s portfolio of activities in the area of fluid dynamic design and analysis of systems and test facilities used in propulsion architectures. About the Role This is an exciting
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agrifood systems and experience in research, data analysis and stakeholder engagement. You will demonstrate initiative and the ability to work both independently and as part of multidisciplinary and
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well as a vertical droplet tunnel. The team also undertakes research in the area of fundamental modelling with molecular dynamic and ice/substrate interface bonding analysis. The main aspects of the Research
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tunnel facilities, as well as a vertical droplet tunnel. The team also undertakes research in the area of fundamental modelling with molecular dynamic and ice/substrate interface bonding analysis. The main
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, high-throughput single-cell analysis using droplet-based microfluidics, in collaboration with Harvard University and industrial partners. The successful candidate will be working with Professors Zhugen
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-edge tools, including CRISPR/Cas diagnostics, paper-based microfluidics, high-throughput single-cell analysis using droplet-based microfluidics, in collaboration with Harvard University and industrial