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Field
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Co-I Watts, the project will aim to quantify ecological time lags and to test hypotheses generated by the theoretical work. We will aim to quantify the variation in the lag between restoration and
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. Mesocosm experiments will test the effects of organic amendments on microbial activity and trace gas consumption, providing critical data on soil recovery and greenhouse gas mitigation. Expected outcomes
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Project Supervisor - Professor Robert Field Glycoprotein biopharmaceuticals are increasingly important due to their ability to treat diseases where small molecule drugs do not prove effective
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sediment–water column model we have been developing in Exeter. With a well calibrated and tested sediment/water-column model, we will then perform idealised experiments focused on a range of proposed blue
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composite manufacturing, high‑rate testing, instrumentation, and predictive modelling. Supervisors: DrGustavo Quino Duration: 3.5 years. Funding: Full coverage of tuition fees and an annual tax-free stipend
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. The project is co-sponsored by Spirent Communications, a world leader in navigation and testing technology. Spirent will provide advanced simulation tools, expert support, and industry placements to help make
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Ceratopteris richardii we have the first evidence that ‘female meiosis’ genes may have been repurposed from another part of the plant lifecycle (the gametophyte)[2]. One critical gene to test this hypothesis is
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Volcanic islands are exciting real-world climate and landscape laboratories. When geologically young (<10Ma) they provide a simplified and spatially limited setting for testing landscape evolution
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TEM Experience in mechanical testing at micro to macro levels What we can offer you We will provide you with an excellent research environment to grow as a research leader. We will support you in future
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future climates, testing how drivers differ across regions and how early extremes can be predicted. Application and impact: How can early-warning insights help strengthen preparedness and resilience