Several studies carried out in long furrows have shown that surge flow irrigation offers the potential of increasing
the efficiency of irrigation. The effects of surge flow in short fields, such as in Egypt, are still not well known,
however.
To investigate the effect of surge flow irrigation in short fields a series of experiments have been carried out at
two different locations in Egypt. The first location with a clay soil was situated at the Agriculture Experimental
Station, Assiut University, Assiut. The second location with a sandy soil was situated at the Assiut University
Experimental Station for Desert Land, El-Wadi El-Assuity, Assiut. The blocked end furrow lengths and widths
were 70 and 0.70m respectively. Three discharges were selected for each soil type, namely 0.46, 0.74 and
0.90 l s1 for clay soil and 0.73, 1.0 and 1.4 l s1 for sandy soil. For each discharge two cycle times were
investigated, namely 16 and 24 minutes. For each cycle time three cycle ratios were chosen, 1/4, 1/2 and 3/4 for the
16-minute and 1/3, 1/2, and 2/3 for the 24-minute cycle time. The water content was measured at three locations,
namely at the beginning, middle and end of the furrow. In each location three points were measured in a vertical
line at a depth of 0–0.1, 0.1–0.3 and 0.3–0.7 m.
The results show that surge flow irrigation leads to a more uniform water distribution along the furrows than
continuous flow. This uniformity is more pronounced in clay soil than in sandy soil. Surge flow irrigation decreases
the advance time in comparison to continuous flow. The reduction in advance time was more pronounced with the
discharges of 0.74 and 1.0 l s1 in clay and sandy soil respectively. The 24-minute cycle time is better than the 16-
minute cycle time. The reduction in advance time with a cycle time of 24 minutes is due to the effect of the offtime.
Different cycle ratios can be used but the 1/3 cycle ratio may be the best. In conclusion, surge flow irrigation
under the short field conditions as prevailing in Egypt decreases the advance time, increases uniformity and
efficiency by decreasing deep percolation and reduces applied water volume by 15–35%. Copyright #2004 John
Wiley & Sons, Ltd.
Research Abstract
Research Department
Research Journal
Irrigation and Drainage Journal
Research Member
Research Publisher
NULL
Research Rank
1
Research Vol
Vol. 53 - No. 4
Research Website
NULL
Research Year
2004
Research Pages
pp. 461-475