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. Although advances in imaging technologies have enhanced the spatio-temporal resolution of plankton sampling, these data remain virtually unused in biodiversity assessments and policy frameworks
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ecology and associated fisheries. A gap in local knowledge/data and technical capacity to coordinate and deliver usable data tools was identified. This gap inhibits the dynamic understanding of the impact
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and the potential effects of this method of fishing on scallop stocks, other species and the wider ecosystem. Through analysis of existing data, aquarium and field-based experiments, and modelling
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. Research Methodology: Representative samples and field structural data will be collected from a number of accessible sites across the Cornubian batholith. Discrete samples will be fully characterised
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key data to demonstrate feasibility for climate mitigation. The student will optimise nanoparticle synthesis and transformations of an array of iron nanoparticles. This also requires culturing algae
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research meetings, journal clubs, and training in: Marine invertebrate ecophysiology (Truebano) Macrophyte physiology and climate community ecology (Smale) Transcriptomics and bioinformatics (Collins) Data
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-up’ period. If you wish to discuss this project further informally, please contact Dr Lee Durndell . Please click on the 'Apply' button above for further information and to apply. The closing date
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this project further informally, please contact Professor Kerry Howell . Please click on the 'Apply' button above for further information and to apply. The closing date for applications is 12 noon
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, above, above for further information and to apply. The closing date for applications is 12 noon on Monday 2nd February 2026.
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on the 'Apply' button above for further information and to apply. The closing date for applications on 7th January 2026.