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the tropics, with for example recent analyses attributing extreme rainfall events and flooding in India moisture imported by atmospheric rivers (e.g. Mahto et al. 2023). So far, the dynamical drivers
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and dynamic population projections to 2100, thus addressing two key science questions: How can geomorphic hazards in dynamic rivers and population exposure to such hazards best be predicted?; How will
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to understand the drivers and dynamics of sediment transport along this highly populated and vulnerable river. Additionally, it will explore the use of prototype water quality sensors (Hydrobeans) to understand
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recognized and highly dynamic scientific environment. The candidate will work both independently and in close cooperation with the staff at the institute. The main field of research will revolve around ecology
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dynamic scientific environment. The candidate will work both independently and in close cooperation with the staff at the institute. The main field of research will revolve around ecology, including
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the programme please see http://nercgw4plus.ac.uk/ For eligible successful applicants, the studentships comprises: An stipend for 3.5 years (currently £20,780 p.a. for 2026/27) in line with UK Research
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the dynamics of organic carbon recycling in the modern carbon cycle. The weathering of sedimentary rocks is a crucial step in the carbon cycle, removing oxygen from the atmosphere and returning CO2
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: telluric hazards (seismic, gravity and tsunamigenic) and the associated risks, the dynamics of the lithosphere and the Earth imagery, geodesy-metrology of the Earth and the near Universe. The laboratory
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(HWM), a dynamic and committed team of 14 academics, 5 support staff, 3 postdocs and 29 PhD researchers. Our focus is on hydrology and environmental hydraulics, which we combine to understand and
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Environmental Hydraulics Group (HWM), a dynamic and committed team of 15 academics, 5 support staff, 4 postdocs and 24 PhD researchers. Our focus is on hydrology and environmental hydraulics, which we combine