With of focus on the Vibrio bacteria that cause the disease cholera, PML is taking an interdisciplinary approach to monitor the movement and spread of disease pathogens, reservoirs and vectors to understand what is driving the transmissions of pathogens in the aquatic environment.
In the environment, Vibrio bacteria flourish under warm temperatures, moderate salinity and turbidity. The bacteria are found as free-floating forms or attached to living (plankton) and non-living (sediment) hosts, and can be transported through long-distance oceanic corridors by currents, as well as in ballast-waters from ship. To date, despite important efforts in surveillance of cholera epidemics, the major environmental reservoirs of Vibrio bacteria, their connectivity and oceanic transmission routes, their link with climate events, and the associated impact on human health remain largely unknown.
By bringing together genomics, bioinformatics, remote sensing, ecosystem and climate modelling, and artificial intelligence techniques we can to assess the links with climate and extreme weather events, to advance capability to forecast outbreaks.
Cholera-disease risk information is critical to bringing rapid humanitarian response forward to reduce the spread of an epidemic before it peaks, and help people cope and recover better and faster. In the last decade, 82 countries reported cholera cases worldwide. Yet, only 11% of these countries integrated disease-risk warnings under their adaptation measures for the Paris Agreement and other climate change strategies.
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WADIM: Water-Associated infectious Diseases in India: digital Management toolsWADIM aims to develop a multi-layered digital tool to map sanitation conditions and occurrence of disease and changes therein, especially…
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TYRE-LOSS: Lost at Sea – where are all the tyre particles?Tyre particles are increasingly recognised as a potentially major source of microplastic pollution, yet limited data exists on their accumulation…
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BIO-PLASTIC-RISK: Biodegradable Bioplastics – Assessing Environmental RiskBiodegradable bioplastics (BBPs) offer promising solutions to the global plastic pollution challenge. However, our understanding of their fate in the…
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ProBleu: Promoting ocean and water literacy in school communitiesProBleu aims to mobilise and engage students, school communities, and the wider community across the EU and associated countries to…
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AgZero+ Towards sustainable, climate-neutral farmingPlymouth Marine Laboratory (PML) is a partner in a major five-year £13.8 million research programme, named “AgZero+’, to support the…
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FRONTAL: Satellite FRONTs for detection of Anthropogenic plastic LitterFronts in coastal and oceanic regions are hot-spots for rich and diverse marine life, where floating marine debris also tends…
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FutureMARES: Climate Change and Future Marine Ecosystem Services and BiodiversityFutureMARES is examining the relations between climate change, marine biodiversity and ecosystem services.
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South Asian Nitrogen HubThe South Asian Nitrogen Hub is a pioneering UK-South Asia research partnership to enable South Asia to adopt and champion…
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Atlantic Ecosystem Assessment, Forecasting and Sustainability (AtlantECO)AtlantECO is working to understand the human impacts on the marine ecosystems and processes in the Atlantic. The main focus…
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Copernicus Evolution: Research for harmonised and Transitional water Observation (CERTO)CERTO will provide solutions to harmonise water quality products across a continuum of oceans, seas, coasts, estuaries, lagoons, rivers and…
