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. The project consortium is led by the Centre for Ecology and Hydrology (CEH) and involves a number of other organisations as partners alongside Exeter. You will act as a key coordinating point for Exeter staff
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questions across the following: modelling the response of ice sheets or the hydrological cycle to climate forcing; climate interconnections between the atmosphere and terrestrial, marine or cryosphere
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have a sufficient breadth or depth of specialist knowledge in at least one related discipline or an (inter)disciplinary area (e.g. geography, hydrology, science communication, risk management), and
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physical geography, geomorphology, hydrology or equivalent Possess strong GIS, large dataset manipulation and coding skills, preferably using Python or R Experience of applying machine learning and/or
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hydrological, meteorological, carbon-cycle and water quality equipment, with occasional laboratory work in support of colleagues. The posts will be based in the Centre for Resilience in Environment, Water and
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for Ecology and Hydrology (UKCEH). The resulting tool will be integrated into the E-Surveyor application developed by UKCEH. As part of this exciting opportunity, you will be responsible for the development
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. This is especially challenging for rivers affected by multiple pressures, such as a modified hydrological regime, altered form and riverbed substrate, invasive and non-native species, climate change
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will examine the complex network of actors, networks, and actants in the pollution of freshwater and its consequences on socio-hydrological systems. Assigning anthropogenic activities as a key factor in
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-hydrological systems. Assigning anthropogenic activities as a key factor in polluted freshwater ignores pollution as a manifestation of complex socio-hydrological effect. The research will employ ethnographic
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the holistic assessment of water quality and its ecological impacts. This is especially challenging for rivers affected by multiple pressures, such as a modified hydrological regime, altered form and