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analysis systems, to ensure safe and trustworthy results. This can involve research questions from NLP and AI like model robustness and guardrails, human-computer interaction such as interpretability and
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, water-air and/or water-sediment interactions, human perturbations, hydrology/limnology, and climate change (shown by a relevant master research project experience or courses); strong analytical skills
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, wetlands, and soils, offer alternatives to traditional grey infrastructure. NBS can help manage water whilst providing co-benefits such as biodiversity enhancement, carbon storage, and improved human well
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storage systems. Throughout the project, you will regularly interact with the other consortium partners and present your findings to the broader scientific and industrial community. A personalised training
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deglaciation phases. A personalised training programme will be set up, reflecting your training needs and career objectives. About 20% of your time will be dedicated to this training component, which includes
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historical precipitation changes in the central Himalaya and the potential impact of global warming on large-scale circulation patterns such as the ISM. A personalised training programme will be set up