An experimental field was carried out at Tina plain region represented a pilot area (27 Fadden) located at the south-west part of Sinai Peninsula (Latitude of 30?59'9.56\"N and of longitude 32?26'59.60\"E). Irrigation and drainage networks served the studied pilot area. The current study investigated the impact of subsurface drainage on soil properties and crop growth under low-quality irrigation water conditions in the Tina Plain region of North Sinai. Soil samples were analyzed before and 12 years after installing a tile drainage system with 40-meter spacing and a depth of 140 cm. The results showed that subsurface drainage led to a lower water table, improved soil aeration, and better water and heat conditions, fostering a more favorable environment for biological activity and nutrient balance. These improvements protected the soil from the adverse effects of alkalinity and salinity, ultimately enhancing crop growth and production. Additionally, subsurface drainage expanded the cultivated area by eliminating the need for surface drainage canals. The findings highlight the significant role of subsurface drainage in sustaining soil health and boosting agricultural productivity.
References
[1]
Muhammad, E.S., Ibrahim, M.M. and El-Sayed, A. (2021) Effects of Drain Depth on Crop Yields and Salinity in Subsurface Drainage in Nile Delta of Egypt. AinShamsEngineeringJournal, 12, 1595-1606. https://doi.org/10.1016/j.asej.2021.01.008
[2]
Azhar, H. and Masood, M. (2011) Subsurface Drainage Impact Assessment on Crop Yield. The Journal of Animal & Plant Sciences, 21, 857-861.
[3]
Rui, Y., Goller, B. and Kladivko, E.J. (2024) Long-Term Crop Yield Benefits of Subsurface Drainage on Poorly Drained Soils. Agronomy Journal, 116, 2151-2162. https://doi.org/10.1002/agj2.21621
[4]
Regmi, S., Davidson, P. and Allen, C. (2024) Yield Impact of Data-Informed Surface Drainage: An On-Farm Case Study. Agriculture, 14, Article 2210. https://doi.org/10.3390/agriculture14122210
[5]
Gabr, M.E. and Fattouh, E.M. (2021) Assessment of Irrigation Management Practices Using FAO-CROPWAT 8, Case Studies: Tina Plain and East South El-Kantara, Sinai, Egypt. Ain Shams Engineering Journal, 12, 1623-1636. https://doi.org/10.1016/j.asej.2020.09.017
[6]
Donia, N.S. (2012) Development of El-Salam Canal Automation System. Journal of Water Resource and Protection, 4, 597-604. https://doi.org/10.4236/jwarp.2012.48069
[7]
Ritzema, H.P. (1994) Subsurface Flow to Drains. In: Ritzema, H.P., Ed., Drainage Principles and Applications, ILRI Publication, 263-304.
[8]
Van Beers, W.F.J. (1965) Some Monographs for the Calculation of Drain Spacing’s. ILRI Publication.
[9]
Richards, L.A. (1954) Diagnosis and Improvement of Saline and Alkali Soils. SoilScience, 78, 154. https://doi.org/10.1097/00010694-195408000-00012
[10]
Jackson, M.L. (1962) Soil Chemical Analysis. Constable and Company Ltd.
[11]
Nelson, R. (1982) Soil Survey Laboratory Methods Manual. Soil Survey Investigations Report No. 42 Version 1.0.
[12]
Rhoades, J.D. (1982) Soluble Salts. In: Methods of Soil Analysis: Part 2. Agronomy Homograph, American Society of Agronomy Inc.
[13]
Piper, C.S. (1950) Soil and Plant Analysis Inter. Science Publication Inc.
[14]
Klute, A. (2018) Water Retention: Laboratory Methods. In: SSSA Book Series, Soil Science Society of America, American Society of Agronomy, 635-662. https://doi.org/10.2136/sssabookser5.1.2ed.c26
[15]
Bower, C.A., Reitemeier, R.F. and Fireman, M. (1952) Exchangeable Cation Analysis of Saline and Alkali Soils. Soil Science, 73, 251-262. https://doi.org/10.1097/00010694-195204000-00001
[16]
Abou Hussien, E.A. and Abou EL-Khir, A.M. (1999) Evaluation of Effect of Tile Drainage and Gypsum Application on Soil Chemical Properties and Some Nutrients and Trace Elements Status. Journal of Agricultural Sciences, 24, 3725-3736.
[17]
Moukhtar, M.M., El-Hadidy, E. and EL-Shewikh, M.B. (2003) Improving Water Table Condition in Deteriorated Salty Clay Soil in Egypt. 9thDrainage Workshop, Utrecht, 10-13 September 2003.
[18]
El Osta MM, E.S.M. (2013) Study of the Phenomenon of Groundwater Levels Rise in South El Qantara Shark Area, Ismailia, Egypt. JournalofHydrogeology&HydrologicEngineering, 2, Article 2. https://doi.org/10.4172/2325-9647.1000109
[19]
Abou-Sinna, M.A., Somya, A.H., Selem, M.I. and Kandil, N.F. (1994) Effect of Irrigation with Bahr El Bagar Drain Water on III: Some Soil Physical Properties. ComputerScience-Research and Development, 46, 131-149.
[20]
Habib, I.M., Sadek, S.H.A., Moukhtar, M.M. and Abdel-Mawgoud, A.S. (1994) Chemical Amendments Efficiency for Salt-Affected Soil Reclamation. Minufiya Journal of Agricultural Research, 19, 2335-2353.
[21]
Madramootoo, D.M. and Buckland, G.D. (1990) The Use of Shallow Sub-Surface Drains to Reclaim Saline and Water-Logged Lands Due to Canal Seepage in Southern Alberta, Canda. 4th International Commission on Irrigation and Drainage.
[22]
Sadek, M.I., Amal, A.M., et al. (1992) Effect of Some Physical Properties of Sandy Soil. Annals of Agricultural Science, Moshtohor, 30, 2081-2091.
[23]
Hussain, N., Hassan, G., Arshadullah, M. and Mujeeb F. (2001) Evaluation of Amendments for the Improvement of Physical Properties of Sodic Soil. International Journal of Agriculture and Biology, 3, 319-322.
[24]
Tayel, M., Ghazy, A., Abdel Aal, R. and Wanas, S.H. (2001) Improving Sand Soils Using Cellulose Derivatives. 2: Pore Size Distribution, Soil Water Retention, Soil Hydraulic Conductivity and Soil Hydraulic Resistivity. Egyptian Journal of Soil Science, 41, Article 231.
[25]
Sarwar, G., Hussain, N., Schmeisky, H., Sarwar, S., Hussain, G.N. and Muhammad, S. (2007) Use of Compost an Environment Friendly Technology for Enhancing Rice-Wheat Production in Pakistan. Pakistan Journal of Botany, 39, 1553-1558.
[26]
Ibrahim, S.M. (1992) Drainage Effects in Marsh Soils, I. Effects on Water Table and Drain Flow. Proceedings of 6th International Drainage Symposium, Nashville, 30 August-3 September 1992, 169-176.
[27]
Zhou, F.X., Feng, W.W., Wei, S.H., Gui, W.X. and Ling, H.C. (2010) Effects of Controlled Drainage on Soil Salinity in Green House. Irrigation and Drainage.
[28]
Montagne, D., Cornu, S., Le Forestier, L. and Cousin, I. (2009) Soil Drainage as an Active Agent of Recent Soil Evolution: A Review. Pedosphere, 19, 1-13. https://doi.org/10.1016/s1002-0160(08)60078-8
[29]
Oosterbaan, R.J. and NIjland, H.J. (1994) Determining the Saturated Hydraulic Conductivity. In: RItzema, H.P., Ed., Drainage Principles and Applications, International Institute for Land Reclamation and Improvement.
[30]
Kerlous-Amany, N.K. (1997) Effect of Sowing Dates and Water Stress on Productivity of Bean (Phaseolus vulgaris L.) Plants. Master’s Thesis, Ain Shams University.
[31]
Davies, B., Eagle, D. and Finney, B. (1982) Soil Management. 4th Edition, Farming Press Book.
[32]
Tisdal, S.L., Nelson, W.L. and Beaton, J.D. (2001) Soil Fertility and Fertilizers. 5th Edition, Collier Macmilan.
[33]
Taha, I.H.B. (2001) Studies on Water Requirements for Some Crops under Different Cropping Systems. Master’s Thesis, Cairo University.
[34]
Saied, M.M. (1997) Impact of Water and Nitrogen Fertilizer Levels on Maize Yield and Its Water Relations at North Delta. Journal of Agricultural Science—Mansoura University, 22, 3393-3402.
[35]
Asim, S.M. (1999) Impact of Tile Drainage on Soil and Water Quality in Swabi SCARP Area. Master’s Thesis, NWFP Agricultural University Peshawar.
[36]
Bhutta, M.N., Wolters, W. and Siddiqui, W.Z. (1996) Performance of Pipe Drainage in Pakistan. Proceedings of 6th Drainage Workshop on Drainage and Environment, Ljubliena, 21-23 April 1996, 79-88.
[37]
Abdel-Gawad, S.T., Wahba, M.S., Abbott, C.L. and Counsell, C.J. (2000) Controlled Drainage Strategies to Save Water in Semi-Arid Agricultural Areas such as the Nile Delta, Egypt. International Conference on the Challenges Facing Irrigation and Drainage in the New Millennium, Fort Collins, 20-24 June 2000.
[38]
Mejia, M.N., Madramootoo, C.A. and Broughton, R.S. (2000) Influence of Water Table Management on Corn and Soybean Yields. Agricultural Water Management, 46, 73-89. https://doi.org/10.1016/s0378-3774(99)00109-2
[39]
Ng, H.Y.F., Tan, C.S., Drury, C.F. and Gaynor, J.D. (2002) Controlled Drainage and Subirrigation Influences Tile Nitrate Loss and Corn Yields in a Sandy Loam Soil in Southwestern Ontario. Agriculture, Ecosystems & Environment, 90, 81-88. https://doi.org/10.1016/s0167-8809(01)00172-4
[40]
Noory, H., Liaghat, A.M., Chaichi, M.R. and Parsinejad, M. (2009) Effects of Water Table Management on Soil Salinity and Alfalfa Yield in a Semi-Arid Climate. Irrigation Science, 27, 401-407.
[41]
Antar, S.A., Khafagi, H.A., Nasr El-Din, I.E. and El-Saiad, I.A. (2012) Effect of Tile Drainage and Laser Land Leveling on Some Soil Properties and Production of Sugar Beet and Wheat Crops. Journal of Soil Sciences andAgricultural Engineering, 3, 1-15.
[42]
Tolomio, M. and Borin, M. (2019) Controlled Drainage and Crop Production in a Long-Term Experiment in North-Eastern Italy. Agricultural Water Management, 222, 21-29.
[43]
Abdel Dayem, M.S. and El-Safty, M. (1992) Review of Egyptian Experience in Implementing subsurface Drainage Projects. Proceedings 5th International Drainage Workshop, Lahore, 8-15 February 1992, 4-76.
[44]
Warin, F., Zimmer, D., Kao, C., Hendrickx, F., Dulhoste, C. and Cooper, T. (1998) Surface and Subsurface Drainage Functioning in Florida Flatwoods. Proceedings of the 7th Annual Drainage Symposium, Orlando, 8-10 March 1998, 488-495.
[45]
Buscaglia, H.J., van Es, H.M., Geohring, L.D., Vermeulen, H.C.A.M., Fick, G.W. and Lucey, R.F. (1994) Alfalfa Yield and Quality Are Affected by Soil Hydrologic Conditions. AgronomyJournal, 86, 535-542. https://doi.org/10.2134/agronj1994.00021962008600030015x
[46]
Colwell, H.T.M. (1978) The Economics of Increasing Crop Productivity in Ontario and Quebec by Tile Drainage Installation. Canadian Farm Economics, 13, 1-7.
[47]
Plamenac, N. (1988) Effects of Subsurface Drainage on Heavy Hydromorphic Soil in the Nelindvor Area, Yugoslavia. Agricultural Water Management, 14, 19-27.
[48]
Madramootoo, C.A. (1997) Management of Agricultural Drainage Water Quality: Introduction. In: Madramootoo, C.A., Johnston, W.R. and Willardson, L.S., Eds., Management of Agricultural Drainage Water Quality, International Commission on Irrigation and Drainage, Food and Agriculture Organization of the United Nations Rome.
