Rich’s key research and teaching areas are extractive metallurgy, materials science, nanotechnology and applied geochemistry for a range of applications including the development of novel mining techniques, mine site reclamation, waste treatment, water treatment and contaminant transport.
More information on Rich’s institutional profile
Gabriel researches the effects of environmental change on the structure and functioning of ecosystems (which comprise groups of species, their interactions with one another and with the physical and chemical environment in which they exist). His work spans multiple levels of biological organisation, from sub-cellular biochemistry to the dynamics of ecosystems, and searches for similarities across aquatic and terrestrial systems. The ultimate goal of his work is to develop a predictive ‘tool box’ to forecast how ecosystems will change in a world increasingly dominated by humans and the oceans.
Michiel combines approaches from microbiology, evolutionary ecology and population genomics to study bacterial evolution, focusing on horizontal gene transfer, sociomicrobiology and pathogens in the environment. Key projects include exploring the ecological drivers of antimicrobial resistance and virulence in aquatic bacteria.
Rod is a comparative physiologist. He aims to provide a more holistic understanding of homeostasis in aquatic animals, both fish and invertebrates, freshwater and marine. This includes studies of how anthropogenic and natural environmental changes impact upon physiology and behaviour in the wild, and how to use physiology to help improve the sustainability of aquaculture (including animal growth efficiency and health, pathogen/parasite resistance, and farm effluent output). He also studies the reverse process: how physiological processes in aquatic animals can influence the regional and global environment in freshwater and the oceans.
Kelly’s research focuses on the global threat of antimicrobial resistance and developing more sustainable aquaculture practices, both in the UK and globally.
Devin’s research focuses on minewater treatment technologies; recovery of metals from waste and biogeochemistry.
Rob’s research focuses on adaptation and acclimation in animals exposed to environmental change. He’s interested how the mechanistic understanding of animal physiology can be used to improve the productivity and sustainability of aquaculture in a wide range of production settings, and how aquaculture can be used to help secure future marine ecosystems in the face of climate change impacts.
Emma analyses, optimises and designs chemical, biochemical and photocatalytic reactions and reactors. Her work combines in-situ reaction analysis techniques with traditional reaction investigation methodologies and mathematical analysis. In combination with reactor design, this allows for the development of novel and environmentally sustainable processes. Emma’s research includes 3D printing to develop an efficient, portable and low-cost continuous system for the treatment of contaminated drinking water. Emma also works in the optimisation of immobilisation protocols; investigation of reaction kinetics both experimentally and theoretically; reaction design and application of microbial tools (such as fluorescence in-situ hybridisation) applicable to wastewater treatment, food and the chemical and pharmaceutical industries.
