Transformative Environmental Monitoring to Boost Observations in Africa

Food, Bioeconomy & Natural ResourcesHORIZON-IAID: 101086209
EC Contribution
€29,399
Consortium Size
12 orgs
Start Year
2023
Summary

Objective: Set up cost effective innovative sensor networks that can be financed by climate services built on top of these networks.Concept: Transformative new methods to measure five essential hydrological variables (rainfall, soil moisture, river flow, bathymetry) at less than 10% of current costs. These reduced costs are essential to have realistic business models for services that cover the costs of building and operating the networks. The five essential variables will be available through GEOSS. Innovation: Seven new sensing methods will be introduced in Africa. The innovation does not focus only on moving up Technology Readiness Levels of new measuring methods but, especially, on the usefulness and practical applicability of these methods in the specific contexts. The direct linkage of sensors and new value-creating services is part of this innovation because this is essential for long-term financial sustainability. New services assimilate in situ and satellite data in numerical models to make optimal use of strengths of different sources of information.Knowledge of the African market: Building on earlier research-oriented projects and on experience in development of geo-services in Africa, in-depth knowledge of the opportunities and limitations of the African market is widely available within the consortium. Selection of focus services was based on this knowledge. These focus services are Flood Early Warning Systems, reservoir management, and crop germination insurance. These have been selected as the most promising services in the broader climate-oriented areas of geo-hazards, water management, and agricultural information.

Consortium (12)

Project Results (18)

Source: CORDIS, the EU research results database.

Publications (8)
Integrated use of the CA–Markov model and the Trends.Earth module to enhance the assessment of land cover degradation
Crossref· 2024DOI
Henry M. Zimba; Kawawa E. Banda; Stephen Mbewe; Imasiku A. Nyambe
Rapid hydraulic assessment tool for river floods using hydraulic geometry relations in data scarce areas
· 2024
D. Le Poole
3D River Discharge Modelling using UAV photogrammetry
· 2023
NJ Hoogendoorn
An Assessment of Predictive Models for Operational Management of a Reservoir in a Data-Scarce Basin
· 2023
Max Kasteel
Historical Shifts in Seasonality and Timing of Extreme Precipitation
Crossref· 2023DOI
G. J. Gründemann; E. Zorzetto; N. van de Giesen; R. J. van der Ent
Innovative Sensor Networks in Ghana
· 2023
J.E. Hiemstra, L.T. Streefkerk, J.J. Okkerman, A. Rijsenbrij, J. van Leeuwen, J. Linnebach
Small Reservoirs in Northern Ghana: Monitoring, Physical Processes, and Management
· 2023DOI
Frank Ohene Annor
The Role of Water Vapor Observations in Satellite Rainfall Detection Highlighted by a Deep Learning Approach
Atmosphere, Vol 14, Iss 6, p 974 (2023)· 2023
Mónica Estébanez-Camarena; Fabio Curzi; Riccardo Taormina; Nick van de Giesen; Marie-Claire ten Veldhuis
Deliverables (9)
Demonstrators, pilots, prototypes
Demonstrators, pilots, prototypes
Data sets, microdata, etc
Data sets, microdata, etc
Demonstrators, pilots, prototypes
Other Results (1)
Periodic Reporting for period 1 - TEMBO Africa (Transformative Environmental Monitoring to Boost Observations in Africa)