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Field
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ice Sheet and Ocean Tipping Indicators, Processes, Impacts and Challenges (ISOTIPIC)’. The aim of this project is to understand the processes controlling key tipping points (TPs) associated with
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area at risk is the Fens of the East of England which produces 11% of the agri-food economy in 4% of agricultural lands. Both sea-level rise and water abstraction can increase the risk of salinisation
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economy in 4% of agricultural lands. Both sea-level rise and water abstraction can increase the risk of salinisation of groundwaters and both are set to increase as Climate Change progresses. It is
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of academic and industry opinion. Applications are invited for a fixed term Postdoctoral Research Associate for the project Water Buffalo Commons. Starting as soon as possible for a 6 month duration to cover
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of academic and industry opinion. Applications are invited for a fixed term Postdoctoral Research Associate for the project Water Buffalo Commons. Starting as soon as possible for a 6 month duration to cover
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Organisation Cranfield University School/Department School of Water, Energy and Environment Based at Cranfield Campus, Cranfield, Bedfordshire Hours of work 37 hours per week, normally worked Monday
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greenhouse gas emissions.¿ You will be involved with a work package focused on drainage ditches, greenhouse gas emissions and water quality, as well as sampling and analyses of peat core chemistry. The work
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(https://sossogroup.uk and @SossoGroup) to finalise the computational aspects of the work relative to a BBSRC-funded project titled: “Understanding Ice Formation in Plants: finding new routes to freezing
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greenhouse gas emissions. The role will apply a novel integration of spatial mapping, remote sensing and field-specific modelling to evaluate the drain water levels, drainage system configurations and water
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Antarctica. You will join a team of glaciologists at the University of Leeds, using satellite data to improve our understanding of ice sheet-ocean interactions, and the processes driving recent change