Authors
Barbara Kasprzyk-Hordern, B Adams, ID Adewale, FO Agunbiade, MI Akinyemi, E Archer, FA Badru, J Barnett, IJ Bishop, M Di Lorenzo, P Estrela, J Faraway, MJ Fasona, SA Fayomi, EJ Feil, LJ Hyatt, AT Irewale, T Kjeldsen, AKS Lasisi, S Loiselle, TM Louw, B Metcalfe, SA Nmormah, TO Oluseyi, TR Smith, MC Snyman, TO Sogbanmu, D Stanton-Fraser, S Surujlal-Naicker, PR Wilson, G Wolfaardt, CO Yinka-Banjo
Publication date
2022/3/1
Journal
Environment international
Volume
161
Pages
107143
Publisher
Pergamon
Description
With the advent of the SARS-CoV-2 pandemic, Wastewater-Based Epidemiology (WBE) has been applied to track community infection in cities worldwide and has proven succesful as an early warning system for identification of hotspots and changingprevalence of infections (both symptomatic and asymptomatic) at a city or sub-city level. Wastewater is only one of environmental compartments that requires consideration. In this manuscript, we have critically evaluated the knowledge-base and preparedness for building early warning systems in a rapidly urbanising world, with particular attention to Africa, which experiences rapid population growth and urbanisation. We have proposed a Digital Urban Environment Fingerprinting Platform (DUEF) – a new approach in hazard forecasting and early-warning systems for global health risks and an extension to the existing concept of smart cities. The urban environment …
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B Kasprzyk-Hordern, B Adams, ID Adewale… - Environment international, 2022