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bring together controlled sediment experiments using the world-class Umeå Mesocosm Facility (time funded by the CONVEX seascape survey) and results from PML’s sediment disturbance experiments, within the BROM
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the student to guide the research, but preliminary ideas include: Exploring whether suggested discharge limits derived from single organism experiments are protective of microbial communities; Using Bayesian
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Amazonian soils; and (3) how the JULES land surface model can be improved using novel field and experimental data. The doctoral researcher will shape the project, lead field experiments in southern Amazonia
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how arising escape mutants prevent infection. In vitro evolution experiments will reveal how archaea and viruses co-adapt under sustained selective pressure, illuminating the molecular basis
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locations such as Kim Hockings’ study sites in West Africa. The project will provide the student with unique experience, training and transferable skills in ecological research, engineering and data science
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health status, the project will identify host–microbe interactions that enhance or constrain resilience. Research will use UK coastal environmental gradients and laboratory experiments to disentangle
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have either a degree or relevant hands-on professional experience in either synthetic organic chemistry, medicinal chemistry or pharmacy. An understanding of confidentiality and intellectual property is
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modelling and sea-going experience is available at NOC, and visits to Scripps, a world-renowned institution for Southern Ocean modelling and observation, can be supported by the DTP budget. Collaborative
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environmental conditions such as water levels, discharge, temperature, and pollution levels. Prototypes of the new designs will be constructed and validated through both laboratory and field experiments, and