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All Projects (143)

Identifying sediment transport pathways to assess the response of delta formation to changes in fluvial inputs. Feb 28, 2018 - Nov 27, 2020
My research focuses on understanding the controls and processes which transfer sediment and water through fluvial systems. I have approached this through a combination of both high-resolution process observation and numerical modelling. My research h... Read More about Identifying sediment transport pathways to assess the response of delta formation to changes in fluvial inputs..

Deciphering the dominant drivers of contemporary relative sea-level change: Analysing sediment deposition and subsidence in a vulnerable mega-delta Jan 2, 2017 - Jun 30, 2018
The overall aim of this project to establish an international collaboration (between Southampton, Hull, Utrecht, Potsdam and Can Tho) that draws together interdisciplinary expertise pertaining to the estimation of: (i) fluvial sediment loads supplied... Read More about Deciphering the dominant drivers of contemporary relative sea-level change: Analysing sediment deposition and subsidence in a vulnerable mega-delta.

H2020 RI - HYDRALAB-PLUS Aug 31, 2015 - Aug 31, 2019
HYDRALAB is an advanced community that specializes in experimental hydraulic research. We would like to call our project, for which we have written this proposal, HYDRALAB+ (pronunciation: hydralab plus) because we will go beyond what we have achieve... Read More about H2020 RI - HYDRALAB-PLUS.

 Climatic and Autogenic Controls on the Morphodynamics of Mega-Rivers: Modelling Sediment Flux in the Alluvial Transfer Zone Jul 1, 2012 - Jan 31, 2017
The world's largest rivers transport ~19 billion tonnes of sediment each year, with a significant fraction being sequestered in the large deltas that are home to 14% of the world's population. Most (>70%) of these large deltas are under threat from r... Read More about  Climatic and Autogenic Controls on the Morphodynamics of Mega-Rivers: Modelling Sediment Flux in the Alluvial Transfer Zone.