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Outputs (6)

Representing vegetation in experimental models of river systems. (2023)
Thesis
Bodewes, B. Representing vegetation in experimental models of river systems. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4443326

The physical behaviour of fluvial systems have been studied in detail and as have their representations of the impact and interaction between hydraulic and sedimentological features within these river systems. However, there is limited understanding... Read More about Representing vegetation in experimental models of river systems..

Monitoring & modelling fluvial hydrogeomorphic response to leaky wooden dams (2023)
Thesis
Wolstenholme, J. M. Monitoring & modelling fluvial hydrogeomorphic response to leaky wooden dams. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4436310

The introduction of large wood to fluvial systems is an increasingly popular method of natural flood management (NFM). Leaky dams (LDs) are designed to attenuate the hydrograph and ‘slow-the-flow’, intercepting high flows, and providing temporary sto... Read More about Monitoring & modelling fluvial hydrogeomorphic response to leaky wooden dams.

The ecological fate of microplastic in the nearshore environment of South Georgia, a sub-Antarctic island (2023)
Thesis
Buckingham, J. The ecological fate of microplastic in the nearshore environment of South Georgia, a sub-Antarctic island. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4347844

Microplastic is a marine pollutant of global concern which has managed to penetrate remote regions. This thesis describes the first comprehensive assessment of microplastics in the nearshore environment of South Georgia, an island in the s... Read More about The ecological fate of microplastic in the nearshore environment of South Georgia, a sub-Antarctic island.

Real-time social media sentiment analysis for rapid impact assessment of floods (2023)
Journal Article
Bryan-Smith, L., Godsall, J., George, F., Egode, K., Dethlefs, N., & Parsons, D. (2023). Real-time social media sentiment analysis for rapid impact assessment of floods. Computers & geosciences, 178, Article 105405. https://doi.org/10.1016/j.cageo.2023.105405

Traditional approaches to flood modelling mostly rely on hydrodynamic physical simulations. While these simulations can be accurate, they are computationally expensive and prohibitively so when thinking about real-time prediction based on dynamic env... Read More about Real-time social media sentiment analysis for rapid impact assessment of floods.

Applying the ‘useable past’ to the protection of climate migrants : child displacement from Vietnam and Montserrat, 1975-2000 (2023)
Thesis
Fleury, S. Applying the ‘useable past’ to the protection of climate migrants : child displacement from Vietnam and Montserrat, 1975-2000. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4311824

This study uses an eco-global criminological approach to understanding how children may migrate in the future as a result of environmental change, including climate change, and the human rights abuses they may face without adequate protections. It an... Read More about Applying the ‘useable past’ to the protection of climate migrants : child displacement from Vietnam and Montserrat, 1975-2000.

Inadequacy of fluvial energetics for describing gravity current autosuspension (2023)
Journal Article
Fukuda, S., de Vet, M. G., Skevington, E. W., Bastianon, E., Fernández, R., Wu, X., McCaffrey, W. D., Naruse, H., Parsons, D. R., & Dorrell, R. M. (2023). Inadequacy of fluvial energetics for describing gravity current autosuspension. Nature communications, 14(1), Article 2288. https://doi.org/10.1038/s41467-023-37724-1

Gravity currents, such as sediment-laden turbidity currents, are ubiquitous natural flows that are driven by a density difference. Turbidity currents have provided vital motivation to advance understanding of this class of flows because their enigmat... Read More about Inadequacy of fluvial energetics for describing gravity current autosuspension.