Real-time water quality forecasting in rivers using satellite data and dynamic models: an online system for operational management, control and citizen science

Paul G. Whitehead; Paul G. Whitehead; Paul G. Whitehead; Paul Edmunds; Gianbattista Bussi; Séamus O’Donnell; Martyn Futter; Steve Groom; Cordelia Rampley; Chris Szweda; David Johnson; Andy Triggs Hodge; Tim Porter; Geraldine Castro

doi:10.3389/fenvs.2024.1331783

Frontiers in Environmental Science (Apr 2024)

Real-time water quality forecasting in rivers using satellite data and dynamic models: an online system for operational management, control and citizen science

Paul G. Whitehead,
Paul G. Whitehead,
Paul G. Whitehead,
Paul Edmunds,
Gianbattista Bussi,
Séamus O’Donnell,
Martyn Futter,
Steve Groom,
Cordelia Rampley,
Chris Szweda,
David Johnson,
Andy Triggs Hodge,
Tim Porter,
Geraldine Castro

Affiliations

Paul G. Whitehead: School of Geography and the Environment, University of Oxford, Oxford, United Kingdom
Paul G. Whitehead: Water Resource Associates, Wallingford, United Kingdom
Paul G. Whitehead: Aquascope Solutions Ltd., Worcester, United Kingdom
Paul Edmunds: Aquascope Solutions Ltd., Worcester, United Kingdom
Gianbattista Bussi: Water Resource Associates, Wallingford, United Kingdom
Séamus O’Donnell: Aquascope Solutions Ltd., Worcester, United Kingdom
Martyn Futter: Department of Aquatic Science and Assessment, Swedish University of Agricultural Sciences, Uppsala, Sweden
Steve Groom: Aquascope Solutions Ltd., Worcester, United Kingdom
Cordelia Rampley: Oxford Molecular Biosensors, Centre for Innovation and Enterprise, Oxford, United Kingdom
Chris Szweda: Aquascope Solutions Ltd., Worcester, United Kingdom
David Johnson: School of Geography and the Environment, University of Oxford, Oxford, United Kingdom
Andy Triggs Hodge: Aquascope Solutions Ltd., Worcester, United Kingdom
Tim Porter: Aquascope Solutions Ltd., Worcester, United Kingdom
Geraldine Castro: Aquascope Solutions Ltd., Worcester, United Kingdom

DOI: https://doi.org/10.3389/fenvs.2024.1331783
Journal volume & issue: Vol. 12

Abstract

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Increasingly scarce water resources and growing global populations have exacerbated the problems of water quality in river systems and freshwaters in general. New monitoring methodologies and tools to democratize access to water quality information are needed if we are to reach ambitious societal objectives such as the UN Sustainable Development Goals and the European Green Deal. Here we present a cloud-based system for producing publicly accessible real time water quality forecasts coupled to novel biosensor technology. Short term forecasts of water quality impairments, e.g., as cyanobacteria blooms, sediment plumes and toxic pollution incidents are increasingly relevant both to citizens and stakeholders. Here, we present a new cloud based system that utilizes satellite data to produce real time forecasts of flow and water quality using a chain of dynamic catchment-scale models at multiple locations in a river network. We demonstrate this new system using two case studies: the River Thames and the Essex Colne River (United Kingdom). These rivers are key water supply sources for London and South-East England, respectively and are of high interest to recreational water users. We show how the new system can predict and forecast water quality, estimate toxicity and connect to citizen science observations using an App (www.aquascope.com) for information synthesis and delivery.

Published in Frontiers in Environmental Science

ISSN: 2296-665X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.frontiersin.org/journals/environmental-science

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