Issue
Cah. Agric.
Volume 26, Number 3, Mai-Juin 2017
Les oasis en Afrique du Nord : dynamiques territoriales et durabilité des systèmes de production agricole. Coordonnateurs : Ahmed Bouaziz, Ali Hammani, Marcel Kuper
Article Number 35007
Number of page(s) 8
Section Études originales / Original Studies
DOI https://doi.org/10.1051/cagri/2017023
Published online 23 June 2017
  • Abbasi F, Šimůnek J, Feyen J, van Genuchten MT, Shouse PJ. 2003a. Simultaneous inverse estimation of soil hydraulic and solute transport parameters from transient field experiments: homogeneous soil. Transactions of ASAE 46(4): 1085–1095. [Google Scholar]
  • Abbasi F, Jacques D, Šimůnek J, Feyen J, van Genuchten MT. 2003b. Inverse estimation of the soil hydraulic and solute transport parameters from transient field experiments: heterogeneous soil. Transactions of ASAE 46(4): 1097–1111. [Google Scholar]
  • Ajdary K, Singh DK, Singh AK, Khanna M. 2005. Simulation of water distribution under drip irrigation using Hydrus-2D. In: XII World water Congress “Water for sustainable development–towards innovative solutions”, 22–25 November 2005, New Delhi, India, pp. 221–231. [Google Scholar]
  • Akbar AK, Yitayew M, Warrick AW. 1996. Field evaluation of water and solute distribution from a point source. J Irrig Drain Eng 122(4): 221–227. [CrossRef] [Google Scholar]
  • Assouline S. 2002. The effects of microdrip and conventional drip irrigation on water distribution and uptake. Soil Sci Soc Am J 66: 1630–1636. [Google Scholar]
  • Bourziza R, Hammani A, Kuper M, Bouaziz A. 2014. Économie d'eau en zones arides : comparaison de techniques innovantes pour l'irrigation de jeunes palmiers dattiers. In: Séminaire « Les économies d'eau dans les systèmes irrigués : retours d'expériences au Maroc et à l'international » ANAFIDE/ AFEID, 20–21 octobre 2014, Rabat, Maroc. [Google Scholar]
  • Camp CR. 1998. Subsurface drip irrigation: a review. Transactions of the ASAE 41: 1353–1367. [CrossRef] [Google Scholar]
  • Diamantopoulos E, Elmaloglou S. 2012. The effect of drip line placement on soil water dynamics in the case of surface and subsurface drip irrigation. Irrigation and Drainage 61 (5): 622–630. [CrossRef] [Google Scholar]
  • Douh B, Boujelben A. 2012. Subsurface drip irrigation and water management under semiarid climate. Advances in Environmental Research 22: 181–197. [Google Scholar]
  • El Khoumsi W, Hammani A, Kuper M, Bouaziz A. 2014. Dynamique des nappes phréatiques dans les milieux arides : quels impacts sur l'écosystème oasien ? In: Séminaire « Les économies d'eau dans les systèmes irrigués : retours d'expériences au Maroc et à l'international » ANAFIDE/ AFEID, 20–21 octobre 2014, Rabat, Maroc. [Google Scholar]
  • Elmaloglou S, Diamantopoulos E. 2009. S imulation of water dynamics under subsurface drip irrigation from line sources. Agric Water Manage 96: 1587–1595. [CrossRef] [Google Scholar]
  • Hammami M. 2001. Nouvelle approche pour déterminer le volume de sol humidifié par un goutteur. Thèse de doctorat d'état es-sciences physiques, Faculté des sciences mathématiques, physiques et naturelles de Tunis, Tunisie, 190 p. [Google Scholar]
  • Hanson B, May D. 2007. The effect of drip line placement on yield and quality of drip irrigated processing tomatoes. Irrig Drainage Syst 21: 109–118. [CrossRef] [Google Scholar]
  • Hillel D. 1980. Application of soil physics. New York: Academic Press, 385 p. [Google Scholar]
  • Kandelous MM, Šimůnek J. 2010. Numerical simulations of water movement in a subsurface drip irrigation system under field and laboratory conditions using HYDRUS-2D. Agric Water Manage 97: 1070–1076. [CrossRef] [Google Scholar]
  • Lazarovitch N, Warrick AW, Furman A, Šimůnek J. 2007. Subsurface water distribution from drip irrigation described by moment analyses. Vadose Zone J 6: 116–123. [Google Scholar]
  • Mailhol JC, Ruelle P, Nemeth I. 2001. Impact of fertilization practices on nitrogen leaching under irrigation. Irrigation Science 20: 139–147. [CrossRef] [EDP Sciences] [Google Scholar]
  • Mailhol JC, Ruelle P, Dejean C, Rosique P. 2013. Le goutte à goutte enterré : une solution innovante pour irriguer sous conditions restrictives en eau. Sciences Eaux & Territoires 11: 26–29. [Google Scholar]
  • Mualem Y. 1976. A new model for predicting the hydraulic conductivity of unsaturated porous media. Water Resour Res 12: 513–522. [Google Scholar]
  • Patel N, Rajput TBS. 2008. Dynamics and modeling of soil water under subsurface drip irrigated onion. Agric Water Manage 95 (12): 1335–1349. [CrossRef] [Google Scholar]
  • Payero JO, Yonts CD, Irmak S, Tarkalson D. 2005. Advantages and disadvantages of subsurface drip irrigation. Extension. EC05-776, Institute of Agriculture and Natural Resources at the University of Nebraska-Lincoln, Nebraska. Available on: http://digitalcommons.unl.edu/extensionhist/4787/. [Google Scholar]
  • Provenzano G. 2007. Using HYDRUS-2D simulation model to evaluate wetted soil volume in subsurface drip irrigation systems. J Irrig Drain Eng 133: 342–349. [CrossRef] [Google Scholar]
  • Rassam L, Littleboy M. 2003. Identifying vertical and lateral components of drainage flux in hillslopes. In: Proceeding of MODSIM 2003. Modeling and Simulation Society of Australia and New Zealand, July 2003, Townsville, Queensland. [Google Scholar]
  • Safi B, Neyshabouri MR, Nazem AH. 2007. Water application uniformity of subsurface drip irrigation system at various operating pressures and tape lengths. Turk J Agric Forest 31 (2007): 275–285. [Google Scholar]
  • Šimůnek J, Sejna M, Van Genuchten MT. 1999. The HYDRUS-2D software package for simulating the two-dimensional movement of water, heat, and multiple solutes in variably-saturated media. IGWMC-TPS 53, Version 2.0, International Ground Water Modeling Center, Colorado School of Mines, Golden, Colorado, USA. [Google Scholar]
  • Skaggs TH, Trout TJ, Šimůnek J, Shouse PJ. 2004. Comparison of HYDRUS-2D simulations of drip irrigation with experimental observations. J Irrig Drain Eng 130 (5): 304–310. [CrossRef] [Google Scholar]
  • Van Genuchten MT. 1980. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils. Soil Sci Soc Am J 44: 892–898. [Google Scholar]
  • Zur B. 1996. Wetted soil volume as design objective in trickle irrigation. Irrig Sci 16: 101–105. [CrossRef] [Google Scholar]

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