Studying climate impacts on pathogens, including Vibrio spp., and antimicrobial resistance in coastal areas.
Designing an advanced mathematical model to predict pathogen spread in estuaries and coastal areas.
Surveying perceptions of health risks from coastal waters, and assessing the cost-benefits of interventions.
Reviewing the evidence to quantify the health risks of waterborne pathogens and inform policy and innovation.
Using an extended One Health Framework and numerical models to analyse environmental impacts.
Testing our One Health Framework with researchers, citizens and stakeholders in Spain.
Developing tools to aid policy makers in addressing coastal risks of infection and antimicrobial resistance.
Engaging with the public, educators, businesses and policymakers to inform policy and practice.
Evaluating water sampling methods along Italy’s River Arrone to detect AMR and human and animal pathogens.
Investigating antibiotic-resistant profiles of pathogens and how they spread in the Lake Paola, Italy.
Examining impacts of climate change on bacteria and algal blooms to develop strategies for safeguarding health.
Assessing the effects of health risk information on behaviour and preferences, and evaluating interventions.
Developing predictive models to forecast faecal bacteria levels for real-time bathing water warnings.
Expanding the LCAT based on stakeholder feedback and collaborating with local service providers across the UK.
Evaluating and enhancing the effectiveness of sharing water quality information through a smartphone app.
Using the One Health framework to understand the human impacts in and around the Plentzia.
Developing a modelling approach to predict exposure to pathogens in coastal waters, integrating data for live alerts.
Developing a modelling approach to assess pathogen impacts along the River Conwy, integrating data for live alerts.
Runoff from agricultural and sewage can introduce pathogens and antimicrobial resistant organisms into our seawaters.