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Warianty tytułu
Języki publikacji
Abstrakty
Water in the Gareat El Tarf basin, is affected by climatic and economic constraints; while its development is based on the agricultural sector, which creates pressure on water resources. The objective of this study is to analyse the performance of the national water plan to accompany this policy, and the impact of climate change on water resources. The methodology adopted is the application of the WEAP(Water Evaluation and the Planning)software, in order to build a model for the allocation of water resources, up to 2050. The results obtained confirm that the impact of the economic policy shows a very important deficit that exceeds 400 million m3 in 2050. To face this challenge, it is recommended to adopt an economic strategy based on the protection of water resources and adapted to the supply capacities of renewable water resources.
Czasopismo
Rocznik
Tom
Strony
200--215
Opis fizyczny
Bibliogr. 24 poz., rys., tab., wykr.
Twórcy
autor
- Faculty of Natural and Life Sciences, Laboratory of Biotechnology, Water, Environment and Health, Khenchela University, Algeria
Bibliografia
- 1. Benblidia, M. 2011. L’efficience d’utilisation de l’eau et approche économique. Plan Bleu, Centre d'Activités Régionales PNUE/PAM, Etude nationale, Algérie 9-12.
- 2. Bouznad, I.E., Elahcene, O. and Belksier, M.S. 2020. Management model for water demand using the WEAP tool: Case of Setif Province – Algerian highlands. Journal of Water and Land Development 45, 19–28. DOI: 10.24425/jwld.2020.133042.
- 3. Dali, N. 2009. Ressources et gestion intégrée des eaux du bassin de Gareat El Tarf (W. KHENCHELA), Magister thesis. university. Annaba, Algeria.
- 4. Green, TR 2011. Beneath the surface of global change, Impacts of climate change on groundwater. Journal of Hydrology 405, 532-560.
- 5. Jingjing, G., Per, C. and Wei, L. 2017. Application of the WEAP model in strategic environmental assessment: Experiences from a case study in an arid/semi-arid area in China. Journal of environmental management 198(1), 363.
- 6. Loon, V and Droogers, P 2006.Water Evaluation and Planning System, Kitui Basin - Kenya, Project WatManSup: Integrated Water Management Support Methodologies for Turkey and Kenya, Report no 2.
- 7. Loon, V, Mathijssen, H and Droogers, P 2007. Water Evaluation and Planning System, Gediz Basin - Turkey," Project WatManSup: Integrated Water Management Support Methodologies for Turkey and Kenya, Report no 5.
- 8. Mansouri, S, Ouerdachi, L and Remaoun, M 2017. Inter-region planning and analysis of water resources by using WEAP model Seybouse (Annaba) and Coastal East of Constantine (El-Taref). Journal of Water and Land Development 33,115–122. DOI: 10.1515/jwld-2017-0026.
- 9. Ministry of land development and environment 2001. Project ALG/98/G31: Elaboration of the national climate change strategy and action plan. Algeria 155.
- 10. Ministry of land development and environment 2010. Second National Communication of Algeria on Climate Change to the UNFCCC, 211.
- 11. Ministry of Regional Planning and the Environment, GEF/PNUD 2010. Algeria's Second National Communication on Climate Change to the UNFCCC 21.
- 12. Motlatsi, M and Deogratias, M 2017. Assessment of water availability for competing uses using SWAT and WEAP in South Phuthiatsana catchment, Lesotho, Master memory, University of Dar Es Salaam.
- 13. National agency for intermediation and land regulation 2011.Monographie de la wilaya d’Oum El Bouaghi. Algeria 6.
- 14. National agency for intermediation and land regulation 2013. Monographie de la wilaya de Khenchela. Algeria 8.
- 15. Rayej, M 2012. California future water demand projections (WEAP Model): Implications on energy demand. Water– Energy Conference. Shenzhen, China. Peking University 6.
- 16. Sahnoune, F, Belhamela, M, Zelmatb, M and Kerbachic, R 2013. Climate change in Algeria: vulnerability and strategy of mitigation and adaptation. Energy Procedia 36: 1286–1294. DOI: 10.1016/j.egypro.2013.07.145.
- 17. Simonovic, S and Li, L 2003. Methodology for Assessment of Climate Change Impacts on Large-Scale Flood Protection System. Journal of Water Resources Planning and Management 129(5), 361-372.
- 18. SOFRECO-Grontmij/Carl Brö-Progress-OIEau2010.Etude d’Actualisation du Plan en Eau. Internal report 68.
- 19. Stockholm environment institute 2007. WEAP: water evaluation and Planning System User Guide, Stockholm Environment Institute, Boston.
- 20. Stockholm Environment Institute 2015. WEAP Water Evaluation and Planning system. User guide for WEAP 392.
- 21. Strzepek, K et. al. 1999. New methods of modeling water availability for agriculture under climate change: the U.S. Cornbelt. Journal of the American Water Resources Association, 35 (6), 1639–1655.
- 22. Taylor, RG 2012. Ground water and climate change. Nature Climate Change 3, 322-329.
- 23. Yates, D, Purkey, D, Sieber, J, Huber-Lee, A and Galbraith, H 2005. Weap21-a demand-, priority-, and preference-driven water planning model: P. 2. Aiding freshwater ecosystem service evaluation. Water International 30,501–512. DOI 10.1080/02508060508691894.
- 24. Zhu, Z, Stavisky, D and Raskin, P 1991. Water Development Strategies for the Aral Sea Region. The 7th World Congress for Water Resources, Rabat, Morocco, May 12-18.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bd98f492-dc7a-40ff-924d-28dc36624d46