Future Agricultural Resource Management and Water Innovations for a Sustainable Europe

HORIZON.2.6HORIZON-RIAID: 101135533
EC Contribution
€58,358
Consortium Size
20 orgs
Summary

FARMWISE transforms the EU agricultural sector by empowering farmers and decision-makers with a state-of-the-art decision support system, combining precision agriculture, Artificial Intelligence, and remote sensing. FARMWISE provides new insights into water quality, quantity, soil health, and nutrient management.FARMWISE's state-of-the-art framework fosters knowledge sharing between scientists, farmers, and policymakers in a co-creation environment (Systems Thinking). It consolidates existing collaborations, and promotes new long-term cooperations between European organisations, including Water4All (BRGM) and Water Europe (SITES).The FARMWISE project will develop improved tools based on artificial intelligence (AI) for more efficient European water policy and decision-making founded on research-based technologies to solve the most burning water pollution and climate change problems. For this purpose, the FARMWISE consortium brings together the best European water, agricultural, climate, and AI researchers to handle the sustainability of water resources, the natural environment, and efficient agriculture in the highly diverse European landscape in view of present and future climate change. FARMWISE's impact will increase interest and bond cooperation of quadruple helix stakeholders for science-based solutions.FARMWISE evaluates, monitors, and implements gender and diversity balance in the consortium during the planned activities (T7.4). All partners' have established policies to foster gender equality, diversity, and inclusion for all employees. UEA holds a Silver Athena SWAN award in recognition of good practice in recruiting, retaining, and promoting women in STEMM subjects.

Consortium (20)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (8)
An All-in-One Sustainable Smartphone Paper Biosensor for Water Toxicity Monitoring Combining Bioluminescence Detection with Artificial Intelligence
Analytical Chemistry· 2025DOI
Faisal Nazir; Denise Gregucci; Maria Maddalena Calabretta; Caterina Cambrea; Peyman Vahidi; Stevo Lavrnić; Attilio Toscano; Elisa Michelini
Effects of Controlled Drainage with Subirrigation on Nutrient Concentrations in an Agricultural Field in the Netherlands
· 2025DOI
Janou Bonné, Jelte de Bruin, Nikola Rakonjac, Syed Mustafa, Janine de Wit, Martine van der Ploeg, Ruud Bartholomeus
Impacts of fertilization rate in nitrate leaching in agricultural soils: Insights from process-based modelling
· 2025DOI
Alejandro Romero-Ruiz, Landon Halloran
Simulating Controlled Drainage with Subirrigation at an Experimental Agricultural Field in the Netherlands to Investigate Irrigation Water Effectiveness
· 2025DOI
Jelte de Bruin, Martine van der Ploeg, Janou Bonné, Nikola Rakonjac, Ruud Bartholomeus, Janine de Wit, Syed Mustafa
Controlled drainage with subirrigation systems: Reduce water supply by automatic control
Agricultural Water Management· 2024DOI
J.A. (Janine) de Wit, J.C. (Jos) van Dam, G.A.P.H. (Gé) van den Eertwegh, M.H.J. (Marjolein) van Huijgevoort, C.J. (Coen) Ritsema, R.P. (Ruud) Bartholomeus
Query-to- Vis: Conceptualization of a Broad-coverage Automated Visualization Pipeline
2024 28th International Conference Information Visualisation (IV)· 2024DOI
Uliana Eliseeva, Simon Heiß, Kawa Nazemi
Visual Analytics for Decision-Making
2024 28th International Conference Information Visualisation (IV)· 2024DOI
Kawa Nazemi, Cristian A. Secco, Lennart B. Sina, Uliana Eliseeva, Elena Correll, Midhad Blazevic
Visual Analytics for Interactive Machine Learning - A Modular Multi-View Approach
2024 28th International Conference Information Visualisation (IV)· 2024DOI
Elena Correll, Uliana Eliseeva, Kawa Nazemi
Deliverables (7)
Other Results (1)
Periodic Reporting for period 1 - FARMWISE (Future Agricultural Resource Management and Water Innovations for a Sustainable Europe)