EFFECT OF DIFFERENT WATER SOURCES UNDER DIFFERENT SOIL MOISTURE DEPLETIONS ON SOIL SALINITY, ALKALINITY AND SUGAR BEET AND SUNFLOWER YIELDS | ||||
Journal of Soil Sciences and Agricultural Engineering | ||||
Article 4, Volume 33, Issue 12, December 2008, Page 9091-9104 PDF (797.81 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/jssae.2008.200459 | ||||
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Authors | ||||
E. A. E. Gazia; M.A.A. Abd Allah; M. A. Abd El-Aziz; B.A. Zamil | ||||
Soil, Water and Environment Research Institute, A.R.C. EGYPT | ||||
Abstract | ||||
Lysimeter experiments were carried out at Sakha Agric. Research Station in two growing seasons (2007 and 2008) to assess a new technique of irrigation using different water sources: fresh (Nile) water – drainage water – wastewater – well water. This technique is alternating irrigation between those different water sources and fresh water under soil moistures depletion (50% and 70%). Crop yield, water Use efficiency (WUE), soil salinity (ECe) and alkalinity (ESP) were recorded. Sugar beet yield significantly influenced by Water sources, soil moisture depletion and application technique. Elemental content (macro nutrients and heavy metals) was increased as a result of irrigation by sewage water either directly or blended with well water. The alternative technique increased the WUE and frustrated the saline effect of sewage water as compared to continuous one. The lowest values of soil salinity and alkalinity were achieved under the irrigation with fresh water and blending sewage water with well water under alternative irrigation technique. Regarding sunflower, seeds yield was significantly affected by the three factors (water source, application technique and soil moisture depletion). Fresh water with soil moisture depletion at 50% of available soil moisture induced the highest value of seed yield. The highest values of WUE were subjected to the treatment irrigated with sewage water alternated with fresh water and depletion at 70%. Using fresh water and well water induced the lowest and the highest values of ECe respectively. Blending sewage water with well water decreased soil alkalinity (ESP) under alternative technique compared with irrigation by well water or sewage water separately. | ||||
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