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respond to sound in ways that influence physiology, root function and pollination. This project will combine experiments, analysis and multiphysics modelling to establish credible mechanisms, limits and
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-ground processes and pollination. The research combines controlled experiments, advanced measurement and multiphysics modelling, and will generate open datasets and workflows to catalyse the emerging field
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may play in stress responses, below-ground processes and pollination. The research combines controlled experiments, advanced measurement and multiphysics modelling, and will generate open datasets and
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, aerospace engineering, applied mathematics or a closely related field. You should have expertise in at least one of the following areas: aeroacoustic prediction methods noise‑source or noise‑propagation
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sequence modelling approaches (e.g. transformers). Collaborate with linguists and Deaf researchers to ensure linguistic validity. Write academic papers, contribute to open-source dataset releases, and
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, particularly roots (i.e. rhizosphere collection and root traits). You will have a strong interest in environmental microbiology, plant-microbe interactions, and agriculture. You will be comfortable working
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(field and laboratory), bioinformatics (e.g. metagenomics and high-performance computing), and handling plants and soil, particularly roots (i.e. rhizosphere collection and root traits). You will have a