Using geotextile mats to enhance the distribution of water and salinity under sprinkling irrigation
Paper Details
Using geotextile mats to enhance the distribution of water and salinity under sprinkling irrigation
Abstract
Field experiments were carried out to study the influence of geotextile mats using sprinkling irrigation on the availability of soil moisture content and salinity on top of 40 cm of the soil profile. Navel orange was planted in sandy soil since 10 years ago and was irrigated using sprinkler system. To achieve the objectives of this research, soil moisture content, water distribution, and different water relations such as water application efficiency, water use efficiency, and water stored efficiency were measured. The results indicated that the maximum fruit yield was obtained with mats placed at 20 cm depth, whilst the minimum fruit yield was recorded with the control treatment. The availability of soil moisture content in the root zone increased using geotextile mats at 20 cm depth. The results further showed increases in water use efficiency and water application efficiency using the geotextile mats. In addition, soil salinity in the root zone decreased by increasing soil moisture content. In conclusion, the use of geotextile mats is suitable in newly reclaimed areas to enhance the distribution of water and salinity in the soil profile.
Ahn TB, Cho SD, Yang SC. 2002. Stabilization of Soil Slope using Geosynthetic Mulching Mat. Geotextiles and Geomembranes 20, 135-146.
Bader AE. 1987. Soil Moisture Distribution and Fruit Yield in an Orange Orchard Irrigated by Drip and Mini-Sprinkler Systems. Misr Journal of Agricultural Engineering 4, 4, 313-332.
Black CA. 1983. Methods of Soil Analysis. Part Ι and ΙΙ, American Agronomy Inc. Pub., Madison, Wisc., USA.
Food and Agriculture Organization (FAO). 1976. Localized Irrigation and Drainage, Paper No. 36.
Gomaa FA, Romian FM. 2011. Potential Use of Polyacrylamide for Improving Availability of Soil Moisture and Plant Production in Sandy Soil. Misr Journal of Agricultural Engineering 28, 2, 324-335.
Harris-Murray RS, Lal R. 1979. Soil Physical Properties and Crop Production in the Tropics. Eds. R. Lal and D. J. Greenland, 285 p, Wiley.
Israelsen OW, Hansen VE. 1962. Irrigation Principles and Practices. 3rd ed., John Wiley and Sons, New York.
Klute A. 1986. Methods of Soil Analysis. Part Ι, 2 ed., ASA and SSSA, Madison.
Mady AA, Metwally MA, El-Dsoky N. 2006. Moisture-Salt Distribution Affecting Apple Yield under Drip Irrigation and Mulching. Misr Journal of Agricultural Engineering 23(2), 400-421.
Michael AM. 1978. Irrigation Theory and Practice. Vikas pub., House P-VTLTD, New Delhi, Bombay, p.360.
Mohsen AG, Ragheb HM, Nafady MH, Ahmed AR. 1999. Introduction Trickle and Sprinkler Irrigation Into the New Valley: ΙΙ Heat, Moisture and Salt Distribution in Mulched Soils Under Drip Irrigation. Assiut J. of Agricultural Sciences 30(5), 149-175.
Oster JD, Hoffman GJ, Robinson FE. 1986. Dealing with Salinity: Management Alternatives Crop. Water and Soil, Calif. Agric. 38, 29-32.
Robinson DW. 1988. Mulch and Herbicides in Ornamental Plantings. HortScience 23(3), 547-552.
A. Derbala, A. Elmetwalli (2015), Using geotextile mats to enhance the distribution of water and salinity under sprinkling irrigation; IJAAR, V6, N6, June, P68-74
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