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and written English Strong academic record with publications or clear potential for publishing in top-tier journals Advanced knowledge of one or more qualitative and/or quantitative research methods
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? With data-driven methods, new opportunities arise to understand ecosystems as complex, dynamic networks. This project aims to analyse the world’s most extensive eDNA database, consisting of weekly
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considered a strong advantage: Biochemical methods for studying RNA–protein–DNA interactions. Use of animal models for in vivo studies. Histological techniques, including in situ hybridization and
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nanodomains (e.g. Spratt, Dias et al., Nature Nanotechnology, 2024; Ambrosetti et al., Nature Nanotechnology, 2021; Shaw, Lundin et al., Nature Methods, 2014). Successful candidates will have the opportunity
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. Importance will also be placed on experience of qualitative methods for data collection and analysis. Given the character of the research project importance will also be placed on good knowledge of both
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on understanding the link between mechanics and biology in the musculoskeletal system, including related pathologies and repair of skeletal tissues. Experimental tissue characterisation methods, imaging and
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the end of 10th September 2025. (this is the only method that applications can be made). The start date is by mutual agreement. As part of your application, you should upload the following documents
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control, management, and archival storage; analyzing large-scale datasets, developing code, and creating novel tools and methods for advanced data analysis; supporting ongoing research activities
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methods, technologies, and materials to reduce reliance on unsustainable practices and fossil fuel-based compounds as a response to societal requests for green alternatives that maintain high performance
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patterns in maturity, reproduction and size/age structure. Statistical analyses of otolith chemistry data for assessing migration pattern and origin. Analytical method development for herring data collected