The AIHABs Project: Towards an Artificial Intelligence-Powered Forecast for 
Harmful Algal Blooms

Cobo, Fernando; Vieira-Lanero, Rufino; Barca, Sandra; del Carmen Cobo, Maria; Quesada, Antonio; Nasr, Ahmed; Bedri, Zeinab; Àlvarez-Cid, Marcos Xosé; Saberioon, Mohammadmehdi; Brom, Jakub; Espina, Begona

doi:10.3390/blsf2022014013

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The AIHABs Project: Towards an Artificial Intelligence-Powered Forecast for Harmful Algal Blooms

Authors

Cobo, Fernando
External Organizations;

Vieira-Lanero, Rufino
External Organizations;

Barca, Sandra
External Organizations;

del Carmen Cobo, Maria
External Organizations;

Quesada, Antonio
External Organizations;

Nasr, Ahmed
External Organizations;

Bedri, Zeinab
External Organizations;

Àlvarez-Cid, Marcos Xosé
External Organizations;

/persons/resource/saberioo

Saberioon, Mohammadmehdi
1.4 Remote Sensing, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Brom, Jakub
External Organizations;

Espina, Begona
External Organizations;

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5012985.pdf
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Citation

Cobo, F., Vieira-Lanero, R., Barca, S., del Carmen Cobo, M., Quesada, A., Nasr, A., Bedri, Z., Àlvarez-Cid, M. X., Saberioon, M., Brom, J., Espina, B. (2022): The AIHABs Project: Towards an Artificial Intelligence-Powered Forecast for Harmful Algal Blooms. - Biology and Life Sciences Forum, 14, 1, 13.
https://doi.org/10.3390/blsf2022014013

Cite as: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5012985

Abstract

Eutrophication of water bodies in Europe is contributing to the increase of Harmful Algal Blooms (HABs) which pose a serious risk to human health. To address this problem, the AIHABs project will develop an early warning forecasting system to predict the occurrence, spread and fate of cyanotoxins caused by HABs in inland and coastal waters, using Artificial Intelligence (AI) and the latest innovations in mathematical modelling, nanosensors, and remote sensing. The system predictions will allow timely action to minimise the risks of consuming surface waters or using them as recreational resources when the water bodies are prone to producing toxic cyanobacterial blooms. Following a multi-criteria analysis, two sites with a history of HABs (one in Spain and one in the Czech Republic) were identified as the most suitable inland and coastal water sites for the study. The main criteria for site selection were the availability of the catchment required data for modelling, the strong evidence of historical HABs, the ease of satellite monitoring of water bodies and accessibility for water sampling. Samples will be taken, synchronously with satellite image acquisition, during, before and after algal blooms. In addition, current and historical data from the selected catchments will be included in a prediction model using the MIKE HYDRO River software, and innovative nanosensors will be designed to determine the concentration of cyanotoxins. Finally, an early warning forecasting system will be developed to predict the occurrence, spread and fate of cyanotoxins caused by HABs in water bodies.