Meleha, M. (2002). EFFECT OF IRRIGATION· SYSTEM AND WATER STRESS ON SUGAR BEET YIELD AND WATER SAVING. Journal of Soil Sciences and Agricultural Engineering, 27(6), 4281-4290. doi: 10.21608/jssae.2002.255153
M.I. Meleha. "EFFECT OF IRRIGATION· SYSTEM AND WATER STRESS ON SUGAR BEET YIELD AND WATER SAVING". Journal of Soil Sciences and Agricultural Engineering, 27, 6, 2002, 4281-4290. doi: 10.21608/jssae.2002.255153
Meleha, M. (2002). 'EFFECT OF IRRIGATION· SYSTEM AND WATER STRESS ON SUGAR BEET YIELD AND WATER SAVING', Journal of Soil Sciences and Agricultural Engineering, 27(6), pp. 4281-4290. doi: 10.21608/jssae.2002.255153
Meleha, M. EFFECT OF IRRIGATION· SYSTEM AND WATER STRESS ON SUGAR BEET YIELD AND WATER SAVING. Journal of Soil Sciences and Agricultural Engineering, 2002; 27(6): 4281-4290. doi: 10.21608/jssae.2002.255153
EFFECT OF IRRIGATION· SYSTEM AND WATER STRESS ON SUGAR BEET YIELD AND WATER SAVING
Water Management and Irrigation Systems Research Institute, National Water Research Center, Cairo, Egypt.
Abstract
Two field experiments were carried out at Agriculture Secondary School Farm in Kafr EI Sheikh Governorate, in the two successive seasons, 1999-2000 and 2000-2001, to study the effect of two irrigation systems, i.e. furrow and bed systems and three water stress levels (50, 65 and 80% depletion of available soil moisture content) on sugar beet yield, water saving and water use efficiency .A split plot design with four replicates' was used in this study. The obtained data showed that, Irrigation system not affected the sugar beet root yield, while the water stress treatments have highly significant effect. Also the same trend was obtained on sucrose percentage .The highest values of water applied were recorded with the furrow irrigation system and 50% depletion of available soil moisture content. While the lowest value was recorded with bed irrigation system and 80% depletion of available soil moisture content. The average values of water saving were 20.04 and 34.99% under bed irrigation system treatment and 80% depletion of available soil moisture content respectively: The averaqes seasonal water consumptive use of sugar beet plant were 2044.35 and 1.173.36 m3J fed. under furrow and bed irrigation systems, respectively. On the other hand, these values were 2216.55,1952 and 1558.05 m3/fed. under water stress of 50,65 and 80% depletion of available soil moisture content. Treatments of bed irrigation system and water stress of 80% depletion of available soil moisture content achieved the ,highest value of water use efficiency. Data of soil moisture extraction revealed that sugar beet.plant roots under moisted soil condition extracted a large amount of water from the surface s6illayer (30 cm depth) and a little amount of water from' deep soil layer (45-60cni), while the plant roots penetrated soil profile and tend to extend for more depth under dried soil conditions to obtain its need of water from deeper layer. Modified Penman equation can be used with the value of 0.78 for crop coefficient to calculate the evapotranspiration of sugar beet plant grown in the North Nile Delta.
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