References

1. R. Gabbouj, La stratégie de gestion des ressources en eaux en Tunisie: Défis et perspectives, Symposium international: Nouvelles technologies: Pour un développement durable, 2019.
2. S. Seddik, Les ressources en eau de la Tunisie, Ministère de l’Agriculture, des Ressources Hydrauliques et de la Pêche, Tunis, 2015.
3. DGEDA, Annuaire des statistiques agricoles, Direction Générale des Etudes et du Développement agricole, MAPRH, Tunis, 2018.
4. R. Quiroz, E. Enrique Chujoy, V. Mares, In: P. Steduto, C.H. Theodore, E. Fereres, D. Raes, Herbaceous Crops: Potato, Crop Yield Response to Water, FAO Irrigation and Drainage Paper N°66, Rome, 2012, pp. 192–198.
5. C.C. Shock, E.B.G. Feibert, Deficit Irrigation of Potato, Deficit Irrigation Practices, Water Reports 22, FAO, Rome, 2002, pp. 47–55.
6. J. Vost, A.J. Haverkort, In: D. Vreugdenhil, J. Bradshaw, C. Gebhardt, F. Govers, D.K.L Mackerron, M.A. Taylor, H.A. Ross, Water Availability and Potato Crop Performance, Potato Biology and Biotechnology: Advances and Perspectives, Elsevier, 2007, pp. 333–351.
7. A. Battilani, M. Henar Prieto, C. Argerich, C. Campillo, V. Cantore, In: P. Steduto, C.H. Theodore, E. Fereres,
   D. Raes, Herbaceous Crops: Tomato, Crop Yield Response to Water, FAO Irrigation and Drainage Paper N°66, Rome, 2012, pp. 184–189.
8. G. Bodner, A. Nakhforoosh, H.-P. Kaul, Management of crop water under drought: a review, Agron. Sustainable Dev., 35 (2015) 401–442.
9. N. Katerji, M. Mastrorilli, G. Rana, Water use efficiency of crops cultivated in the Mediterranean region: review and analysis, Eur. J. Agron., 28 (2008) 493–507.
10. FAO, Regional Initiative on Water Scarcity for the Near East and North Africa (WSI), 2012. Available at: http://www.fao.org/ fileadmin/user_upload/rne/docs/WSI-Pamphlet-en.pdf
11. A. del Pozo, N. Brunel-Saldias, A. Engler, S. Ortega-Farias, C. Acevedo-Opazo, G.A. Lobos, R. Jara-Rojas,
    M.A. Molina-Montenegro, Climate change impacts and adaptation strategies of agriculture in Mediterranean-climate regions (MCRs), Sustainability, 11 (2019) 2769, doi: 10.3390/su11102769.
12. F. Giorgi, P. Lionello, Climate change projections for the Mediterranean region, Global Planetary Change, 63 (2008) 90–104.
13. MARHP, Rapport national du secteur de l’eau, Année 2018, Bureau de la Planification et des Equilibres Hydrauliques, Tunis, 2018.
14. A. Domínguez, J.A. de Juan, J.M. Tarjuelo, R.S. Martínez, A. Martínez-Romero, Determination of optimal regulated deficit irrigation strategies for maize in a semi-arid environment. Agric. Water Manage., 110 (2012) 67–77.
15. E. Fereres, M.A. Soriano, Deficit irrigation for reducing agricultural water use, J. Exp. Bot., 58 (2007) 147–159.
16. R.G. Allen, L.S. Pereira, D. Raes, M. Smith, Crop Evapotranspiration: Guidelines for Computing Crop Water Requirements, FAO Irrigation and Drainage Paper 56, Rome, 1998.
17. P.N. Rodrigues, L.S. Pereira, T.G. Machado, KCISA, a program to compute time-averaged crop coefficients. Application to field grown horticultural crops, Acta Hortic., 537 (2000) 535–542.
18. J. Doorenbos, A.H. Kassam, Yield Response to Water, FAO Irrigation Drainage Paper 33, Rome, 1979.
19. L.S. Pereira, I. Cordery, I. Iacovides, Improved indicators of water use performance and productivity for sustainable water conservation and saving, Agric. Water Manage., 108 (2012) 39–51.
20. A. Zairi, H. El Amami, A. Slatni, L.S. Pereira, P.N. Rodrigues, T. Machado, In: G. Rossi, A. Cancelliere, L.S. Pereira, T. Oweis, M. Shatanawi, A. Zairi, Cooping with Drought: Deficit Irrigation Strategies for Cereals and Field Horticultural Crops in Central Tunisia, Tools for Drought Mitigation in Mediterranean Regions, Kluwer Academic Publishers, 2003, pp. 181–201.
21. A. Slatni, K. Zayani, A. Zairi, S. Yacoubi, R. Salvador, E. Playán, Assessing alternate furrow strategies for potato at the Cherfech irrigation district of Tunisia, Biosyst. Eng., 108 (2011) 154–163.