EGU24-19511, updated on 11 Mar 2024
https://doi.org/10.5194/egusphere-egu24-19511
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

OurMED PRIMA-funded Project: Sustainable Water Storage and Distribution in the Mediterranean

Seifeddine Jomaa1, Amir Rouhani1, Maria Schade2, J. Jaime Gómez-Hernández3, Antonio Moya Diez4, Maroua Oueslati5, Anis Guelmami6, George P. Karatzas7, Emmanouil A Varouchakis7, Maria Giovanna Tanda8, Pier Paolo Roggero9, Salvatore Manfreda10, Nashat Hamidan11, Yousra Madani12, Patrícia Lourenço13, Slaheddine Khlifi14, Irem Daloglu Cetinkaya15, Michael Rode1, and Nadim K Copty15
Seifeddine Jomaa et al.
  • 1Helmholtz Centre for Environmental Research - UFZ, Germany (seifeddine.jomaa@ufz.de, amir.rouhani@ufz.de, michael.rode@ufz.de)
  • 2Remote Sensing Solutions GmbH (RSS), Germany (schade@remote-sensing-solutions.com)
  • 3Universitat Politècnica de València (UPV), Spain (jaime@dihma.upv.es)
  • 4Global Omnium Idrica (IDRICA), Spain (antonio.moya@idrica.com)
  • 5Euro-Mediterranean Information System on know-how in the Water sector (SEMIDE), France (m.oueslati@semide.org)
  • 6La Tour du Valat (TdV), France (guelmami@tourduvalat.org)
  • 7Technical University of Crete (TUC), Greece (karatzas@mred.tuc.gr, varuhaki@mred.tuc.gr)
  • 8Università di Parma (UNIPR), Italy (mariagiovanna.tanda@unipr.it)
  • 9University of Sassari (UNISS), Italy (pproggero@uniss.it)
  • 10University of Naples Federico II (UNINA), Italy (salvatore.manfreda@unina.it)
  • 11Royal Society for the Conservation of Nature (RSCN), Jordan (nashat@rscn.org.jo)
  • 12Living Planet Morocco (LPM), Morocco (ymadani@lpm.org.ma)
  • 13AgroInsider (AGRI), Portugal (patricia@agroinsider.com)
  • 14Higher School of Engineering of Medjez El Bab (ESIM), Tunisia (slaheddinekhlifi@yahoo.fr)
  • 15Bogazici University (BU), Turkey (irem.daloglu@boun.edu.tr, ncopty@boun.edu.tr)

The Mediterranean Region is a unique mosaic of different cultures and climates that shape its peoples, natural environment, and species diversity. However, rapid population growth, urbanisation and increased anthropogenic pressures are threatening water quantity, quality, and related ecosystem services. Known as a climate change hotspot, the Mediterranean region is increasingly experiencing intensifying droughts, diminished river flows, and drier soils making water management even more challenging. This situation calls for an urgent need for water management to shift from a mono-sectoral water management approach based on trade-offs, to more balanced multisectoral management that considers the requirement of all stakeholders. This means that sustainable water management requires ensuring that water is stored and shared fairly across all sectors at the basin scale.

The research project OurMED (https://www.ourmed.eu/) is part of the Partnership for Research and Innovation in the Mediterranean Area (PRIMA) Programme supported by the European Union’s Horizon 2020 Research and Innovation Programme under Grant Agreement No 2222. The project was launched in June 2023 and will continue for three years with a grant of 4.4 million euros to develop a holistic water storage and distribution approach tightly integrated into ecosystem services at the river basin scale.

OurMED builds on the multidisciplinary skills of 15 consortium Partners and comprises universities, NGOs, research centres and SMEs from ten countries with complementary expertise in hydrology, hydrogeology, agronomy, climate change, social sciences, remote sensing, digital twins, ecology, and environmental sciences, among others, making it a truly interdisciplinary project. OurMED includes eight distinct demo sites, representing diverse water-related ecosystem properties of the Mediterranean landscape. These include the catchment areas of Bode (Germany), Agia (Crete, Greece), Konya (Turkey), Mujib (Jordan), Medjerda (Tunisia), Sebou (Morocco), Arborea (Sardinia, Italy), and Júcar (Spain). The Mediterranean basin, as a whole, is considered as an additional regional demo site to ensure replicability and reproducibility of proposed solutions at larger scales. 

OurMED vision combines not only technologically-advanced monitoring, smart modelling and optimization capabilities, but also provides data fusion and integrated digital twin technologies to make optimized solutions readily available for decision making. OurMED concept and its implementation to the different demo sites will be presented and discussed.

How to cite: Jomaa, S., Rouhani, A., Schade, M., Gómez-Hernández, J. J., Moya Diez, A., Oueslati, M., Guelmami, A., Karatzas, G. P., Varouchakis, E. A., Tanda, M. G., Roggero, P. P., Manfreda, S., Hamidan, N., Madani, Y., Lourenço, P., Khlifi, S., Daloglu Cetinkaya, I., Rode, M., and Copty, N. K.: OurMED PRIMA-funded Project: Sustainable Water Storage and Distribution in the Mediterranean, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-19511, https://doi.org/10.5194/egusphere-egu24-19511, 2024.