Full Length Research Paper
References
Abdrabbo MAA, Khalil AA, Hassanien MKK, Abou-Hadid AF (2010). Sensitivity of potato yield to climate change. J. Appl. Sci. Res. 6:751-755. |
|
Daccache A, Weatherhead EK, Stalham MA, Knox JW (2011). Impact of climate on irrigated potato production in a humid climate. Agric. For. Meteorol. 151:1641-1653. |
|
FAO (2006). Climwat 2.0 for CROPWAT. FAO Irrigation and Drainage Paper 49. |
|
Giorgi F (2006). Climate changes hot-spots, Geophys. Res. Lett. 33:L08707. |
|
Hoogenboom G (2003). Decision Support System for Agrotechnology Transfer Version 4.0, volume 1: Overview. International consortium for Agricultural Systems Applications, University of Hawai. |
|
Hunt LA, Pararajasingham S, Jones JW, Hoogenboom G, Imamura DT, Ogoshi RM (1993). GENCLAC: Software to facilate the use of crop models for analyzing field experiments. Agron. J. 85:1090-1094. |
|
Kundzewicz ZW, Mata LJ, Arnell NW, Döll P, Jimenez B, Miller K, Okii T, Åžen Z, Shiklomanov I (2008). The implications of projected climate change for freshwater resources and their management. Hydrol. Sci. J. 53:3-10. |
|
Guemraoui M, Chabaca MN (2005). Gestion des grands périmètres d'irrigation: l'expérience algérienne. Mohamed Salah Bachta. Les instruments économiques et la modernisation des périmètres irrigués, Kairouan, Tunisie. Cirad, 14p. < Cirad-00193633> |
|
MADR (2010). Ministry of Agriculture and rural development. Statistiques agricoles de 2002 à 2010. M.A.D.R., Alger. |
|
Medany M (2006). Assessment of the impact of climate change on adaptation on potato production. Agricultural Research Center. Final Report. |
|
ONID (2010). Office Nationale de l'Irrigation et du Drainage. Evolution des superficies irriguées des périmètres d'irrigation. O.N.I.D., Alger. |
|
Pereira AB, Nilson Augusto VN, Ramos VJ, Pereira AR (2008). Potato potential yield based on climatic elements and cultivar characteristics. Bragantia Campinas 67:327-334. |
|
Ritchie J (1998). Soil water balance and plant water stress. In Understanding options of agricultural production, eds. Dordrecht, The Netherlands: Kluwer Academic Publishers and International Consortium for Agricultural Systems Applications pp. 41-53. |
|
Ritchie J, Griffin TS, Johnson BS (1995). SUBSTOR Functional model of potato growth, development, and yield. In Modeling and parameterization of the soil-plant-Atmosphere System: A comparison of potato Growth Models, pp. 401-434. |
|
Stastna M, Toman F, Dufková J (2010). Usage of SUBSTOR model in potato yield prediction. Agric. Water Manage. 97:286-290. |
|
Tanasijevic L, Todorovic M, Pereira LS, Pizzigalli C, Lionello P (2014). Impacts of climate change on olive crop evapotranspiration and irrigation requirements in the Mediterranean region. Agric. Water Manage. 144:54-68. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0