Etude de l’impact des changements climatiques sur la disponibilité des ressources en eau basée sur les simulations du modèle climatique régional RCA4 : cas du bassin de Ain DALIA (Algérie)
Abstract
Abstract: Global warming is likely to have serious repercussions on the availability of water resources through changes in precipitation regimes and rising temperatures. Understanding these changes in northern Algeria, where human life depends heavily on surface water and rainfed agriculture, is of crucial importance. In this study, we assess the potential effects of climate change on water supplies from the Ain Dalia dam by the end of the 21st century. The climate projections of the RCA4 regional model (Rossby Center Atmosphere model, version 4) were used to perform the hydrological simulations from the GR2M conceptual hydrological model over two future periods (2021-2050 & 2071-210). The RCA4 model is forced by four global circulation models (MPI-ESM-LR, IPSL-CM5A-MR, MIROC5 and CNRM-CM5) under two radiative forcing scenarios "Representative Concentration Pathways" (RCPs) RCP4.5 and RCP8.5. Simulations of the most optimistic model RC4-CNRM-CM5 show respectively an increase of 1.3 ° C and 3.7 ° C in temperatures at the 2050 and 2100 horizons as well as a decrease in rainfall in wet seasons (winter and spring ) which varies from minus 5% by 2050 to 28% by 2100. To this end, the availability of surface water collected at the Ain Dalia dam is likely to decrease from 5% to 13% by 2050 and from 21% to 44% by 2100. These results can contribute to the establishment of a water resources planning and management tool to cope with the impact of future climate change at the basin level and take adequate adaptation measures to maintain the sustainability of resources and meet the water needs of the various water users of the Souk Ahras region.
Résumé: Le réchauffement climatique est susceptible d'avoir de graves répercussions sur la disponibilité des ressources en eau à travers les changements dans les régimes de précipitations et l'augmentation des températures. Comprendre ces changements en Algérie septentrionale, où la vie humaine dépend fortement des eaux superficielles et de l'agriculture pluviale, est d'une importance cruciale. Dans cette étude, nous évaluons les effets potentiels des changements climatiques sur les apports en eau du barrage d’Ain Dalia d’ici la fin du 21ème siècle. Les projections climatiques du modèle régional RCA4 (Rossby Centre Atmosphere model, version 4) ont été utilisées pour réaliser les simulations hydrologiques issues du modèle hydrologique conceptuel GR2M au cours de deux périodes future (2021-2050 & 2071-210). Le modèle RCA4 est forcé par quatre modèles de circulation globale (MPI-ESM-LR, IPSL-CM5A-MR, MIROC5 et CNRM-CM5) sous deux scenarios de forçages radiatifs "Representative Concentration Pathways" (RCPs) RCP4.5 et RCP 8.5. Les simulations du modèle le plus optimiste RC4-CNRM-CM5 montrent respectivement une augmentation de 1,3 °C et 3,7°C des températures aux horizons 2050 et 2100 ainsi qu’une diminution de la pluviométrie en saisons humides (hiver et printemps) qui varie de moins 5% à l’horizon 2050 à 28% à l’horizon 2100. A cet effet, la disponibilité des eaux superficielles collectées au barrage de Ain Dalia risque de diminuer de 5 % à 13 % à l’horizon 2050 et de 21% à 44% à l’horizon 2100. Ces résultats peuvent contribuer à la mise en place d’un outil de planification et de gestion des ressources en eau pour faire face à l’impact des changements climatiques futures à l’échelle du bassin et prendre les mesures d’adaptation adéquates pour maintenir la durabilité des ressources et satisfaire les besoins en eau des différents usagers de la région de Souk Ahras.Full Text:
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Taibi, S.; Meddi, M. ; Mahé, G.; Assani A. Relationships between atmospheric circulation indices and rainfall in Northern Algeria and comparison of observed and RCM-generated rainfall. Theoretical and Applied Climatology 127 (2017) 241-257.
Benassi, M. Drought and climate change in Morocco. Analysis of precipitation field and water supply. Options méditerranéennes 80 (2008) 83-87.
Singla, S.T.; Mahé, G.; Dieulin, C.; Driouech, F.A.; Milano, M.A., El Guelai, F.Z.; Ardoin-Bardin, S. Evolution des relations pluie-débit sur des bassins versants du Maroc. Global change: Facing risks and threats to water resources (2010) 679-87.
Kingumbi, A.; Bargaoui, Z.; Hubert, P. Investigation of the rainfall variability in central Tunisia. Hydrological Sciences Journal 50 (2005) 493-508.
Ruiz Sinoga, J. D.; Garcia Marin, R.; Martinez Murillo, J. F.; Gabarron Galeote, M. A. Precipitation dynamics in southern Spain: trends and cycles. International journal of climatology 31(2011) 2281-2289.
Longobardi, A.; Villani, P. Trend analysis of annual and seasonal rainfall time series in the Mediterranean area. International journal of Climatology 30 (2010)1538-1546.
Caloiero, T.; Coscarelli, R.; Ferrari, E.; Mancini, M. Precipitation change in Southern Italy linked to global scale oscillation indexes. Natural Hazards and Earth System Sciences 11(2011) 1683-1694.
Feidas, H.; Noulopoulou, C.; Makrogiannis, T.; Bora-Senta, E. Trend analysis of precipitation time series in Greece and their relationship with circulation using surface and satellite data: 1955–2001. Theoretical and Applied Climatology 87(2007) 155-177.
Demmak, A.; Ould Amara, A.. La sécheresse en Algérie des années 1970/1990 et son impact sur les ressources en eau. Table ronde. sècheresse-changement climatique-désertification (2001)10p.
Medjerab, A.; Henia, L. Régionalisation des pluies annuelles dans l’Algérie Nord-Occidentale. Revue géographique de l’Est 45 (2005) 1-14.
Meddi, M.; Talia, A. Pluviometric regime evolution in the North of Algeria. Arab Gulf Journal of Scientific Research 27 (2007) 152-162.
Bekkoussa, B.; Meddi, M.; Jourde, H. Forçage climatique et anthropique sur la ressource en eau souterraine d’une région semi-aride : cas de la plaine de Ghriss (Nord-Ouest algérien). Sécheresse 18 (2008) 173-184.
Meddi, M.; Assan,i A. A.; Meddi, H. 2010. Temporal variability of annual rainfall in the Macta and Tafna catchments; Northwestern Algeria. Water Resources Management 24 (2010) 3817-3833.
Taibi S.; Meddi M.; Souag D.; Mahe G. Évolution et régionalisation des précipitations au nord de l'Algérie (1936-2009). Climate and land surface changes in hydrology, IAHS Publ 359 (2013) 191-197.
ANRH. Impact des changements climatiques sur les ressources en eaux. Note de synthèse (2007) 12p.
Stocker, T.F.; Qin, D.; Plattner, G.-K.; Tignor, M.; Allen, S.K.; Boschung, J.; Nauels, A.; Xia, Y.; Bex, V.; Midgley, P.M.Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change . Climate Change (2013) 1535 pp.
Naumann, G.; Alfieri, L.; Wyser, K.; Mentaschi, L.; Betts, R. A.; Carrao, H.; Feyen, L.. Global changes in drought conditions under different levels of warming. Geophysical Research Letters 45 (2018) 3285-3296.
Alkama, R.; Marchand, L.; Ribes, A.; Decharme, B. Detection of global runoff changes: results from observations and CMIP5 experiments. Hydrology and Earth System Sciences 17( 2013) 2967–2979.
Zheng, H.; Chiew, F. H. S.; Charles, S. ; Podger, G. Future climate and runoff projections across South Asia from CMIP5 global climate models and hydrological modelling. Journal of Hydrology 18 (2018) 92–109.
Giuntoli, I.; Villarini, G.; Prudhomme, C.; Hannah, D.M. Uncertainties in projected runoff over the conterminous United States. Climatic Change 150(2018) 149–162.
Ibrahim, B; Karambiri, H; Polcher, J. Hydrological impacts of the changes in simulated rainfall fields on Nakanbe Basin in Burkina Faso. Climate 3 (2015) 442–458.
Al-Safi, H.I.J.; Kazemi, H.; Sarukkalige, P.R. Comparative study of conceptual versus distributed hydrologic modelling to evaluate the impact of climate change on future runoff in unregulated catchments. Journal of Water and Climate Change 2 (2020) 341-366.
Okkan, U.; Fistikoglu, O. Evaluating climate change effects on runoff by statistical downscaling and hydrological model GR2M. Theoretical and Applied Climatology 117 (2014) 343–361.
Sidibe, M.; Dieppois, B.; Eden, J.; Mahé, G.; Paturel, J.E.; Amoussou, E.; Anifowose; B.; Van De Wiel, M.; Lawler, D.; 2020. Near-term impacts of climate variability and change on hydrological systems in West and Central Africa. Climate Dynamics 54 (2020) 2041-2070.
Todorovic, A.; Plavsic, J.; 2016. The role of conceptual hydrologic model calibration in climate change impact on water resources assessment. Journal of Water and Climate Change 1 (2016) 16-28.
Zeroual, A.; Meddi; M. ; Bensaad, S. The impact of climate change on river flow in arid and semi-arid rivers in Algeria. Proceedings of IAHS: Climate and land-surface changes in hydrology 1 (2013) 105-110.
Hadour, A.; Mahe, G.; Meddi, M. Watershed based hydrological evolution under climate change effect: An example from North Western Algeria. Journal of Hydrology 28 (2020) 1-13.
Singla, S.T. ; Mahé, G. ; Dieulin, C., Driouech, F.A. ; Milano, M.A. ; El Guelai, F.Z. ; Ardoin-Bardin S. Evolution des relations pluie-débit sur des bassins versants du Maroc. Global change: Facing risks and threats to water resources (2010) 679-687.
Piao, S.; Ciais, P.; Huang, Y.; Shen, Z.; Peng, S.; Li, J.; Zhou, L.; Liu, H.; Ma, Y.; Ding, Y.; Friedlingstein, P. The impacts of climate change on water resources and agriculture in China. Nature 467(2010) 43-51.
García-Ruiz, J.M.; López-Moreno, J. I.; Vicente-Serrano, S. M.; Lasanta–Martínez, T.; Beguería, S. Mediterranean water resources in a global change scenario. Earth-Science Reviews 105 (2011) 121-139.
Ouhamdouch, S.; Bahir, M.; Carreira, P.M.; Zouari; K. Climate change impact on future flows in semi-arid environment; case of Essaouira Basin (Morocco). In Conference of the Arabian Journal of Geosciences (2018) 305-308. Springer, Cham.
Mouelhi, S.; Michel, C.; Perrin, C.; Andreassian, V. Stepwise development of a two-parameter monthly water balance model. Journal of Hydrology 318 (2006) 200–214.
Perrin, C.; Michel, C.; Andréassian, V. Modèles hydrologiques du Génie Rural (GR). Cemagref, UR Hydrosystèmes et Bioprocédés (2007) 16p.
Zeroual, A.; Assani, A. A.; Meddi, M.; Alkama, R. Assessment of climate change in Algeria from 1951 to 2098 using the Köppen–Geiger climate classification scheme. Climate dynamics; 52(2019) 227-243.
Bargaoui, Z.; Tramblay, Y.; Lawin, E. A.; Servat, E. Seasonal precipitation variability in regional climate simulations over Northern basins of Tunisia. International Journal Climatology 34 (2014) 235–248.
Ceglar, A.; Honzak, L.; Žagar, N.; Skok, G.; Žabkar, R.; Rakovec J. Evaluation of precipitation in the ENSEMBLES regional climate models over the complex orography of Slovenia. International Journal of Climatology 35 (2015) 2574-2591.
Teutschbein, C.; Seibert, J. Bias correction of regional climate model simulations for hydrological climate-change impact studies: review and evaluation of different methods. Journal of Hydrology 456 (2012) 12– 29.
Themeßl, M. J.; Gobiet, A.; Heinrich, G.. Empirical-statistical downscaling and error correction of regional climate models and its impact on the climate change signal. Climatic Change 2 (2012) 449-468.
Ghimire, U.; Srinivasan, G.; Agarwal; A. Assessment of rainfall bias correction techniques for improved hydrological simulation. International Journal of Climatology 39(2019) 2386–2399.
Alemseged, T.H.; Tom, R. Evaluation of regional climate model simulations of rainfall over the Upper Blue Nile basin. Atmospheric research 161 (2015) 57-64.
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