Your search found 14 records
1 Kitamura, Y.. 1988. Water balance in a tertiary development area with low and flat paddy land - Case study in the Muda Irrigation Project area, Malaysia (1) - Irrigation Engineering and Rural Planning, 13:18-35.
(Location: IWMI-HQ Call no: P 1206 Record No: H03024)
2 Kitamura, Y.. 1990. Management of irrigation systems for rice double cropping culture in the tropical monsoon area. Ibaraki, Japan: Tropical Agriculture Research Centre. 128p. (Technical bulletin of the Tropical Agriculture Research Centre no.27)
(Location: IWMI-HQ Call no: 631.7.2 G570 KIT Record No: H03023)
3 Kitamura, Y.. 1989. Hydrological characteristics in the catchment area of Muda and Pedu reservoirs: Case study on irrigation management in the Muda irrigation scheme, Malaysia. Reprint from JARQ. 22(4):322-333.
(Location: IWMI-HQ Call no: P 1937 Record No: H08456)
(Location: IWMI-HQ Call no: P 3029 Record No: H09512)
5 Kitamura, Y.; Low, K. L.; Hor, T. L. 1992. Water use efficiency in a tertiary development area in low and flat paddy land in the tropics. JARQ, 26(3):214-221.
(Location: IWMI-HQ Call no: P 2846 Record No: H013151)
Rapid saturation and flooding of paddy fields are essential for timely land preparation for the dry season (first season) crop when rice double cropping is adopted on flat lowland. Tertiary development was a priority project in the Muda area to facilitate water distribution and shorten the presaturation period by increasing the canal density. In order to evaluate the tertiary development properly, a simple method was devised for estimating the irrigation use efficiency and rainfall use efficiency.
6 Fujii, H.; Chang, C. M.; Kitamura, Y.. 1993. Difference in presaturation progress and water requirements between areas with and without tertiary canals: Case study in the Muda Irrigation Project area, Malaysia (III) Journal of Irrigation Engineering and Rural Planning, 25:16-30.
(Location: IWMI-HQ Call no: PER Record No: H013429)
In areas of low canal density, irrigation water may take a long time to reach its destination. This is due to the long distance involved between irrigation canals and drainage canals. Such low levels of irrigation canal density require high levels of water evaporation, meaning that the total water requirement under such conditions is large. In this study differences between areas with tertiary canal irrigation (Muda II project area) and those without tertiary canals (Muda I project area) were compared. Particular note was taken with regard to, first, the different progress of presaturation water and, second, the different amounts of water required under each type of irrigation condition. Two irrigation blocks with tertiary canal facilities and two without them were selected and compared from both coastal and inland areas in the first cropping season (dry season) of 1988, and the differences in the progress of presaturation water due to the differing levels of canal density and topographical gradients were noted. Water requirements were lower in the areas provided with tertiary irrigation facilities than in those without tertiary canals in both the coastal and inland areas.
7 Kitamura, Y.. 1995. Rice double cropping and field infrastructure in the Muda irrigation scheme, Peninsular Malaysia. In Tabuchi, T.; Hasegawa, S. (Eds), Paddy fields in the world. Tokyo, Japan: Japanese Society of Irrigation, Drainage and Reclamation Engineering. pp.147-166.
(Location: IWMI-HQ Call no: 633.18 G000 TAB Record No: H018099)
8 Kitamura, Y.. 1996. Activities of IPTRID and Japan's participation in the program: New R&D Program on Drainage in the Humid Tropics. Journal of Irrigation Engineering and Rural Planning, 30:1-6.
(Location: IWMI-HQ Call no: PER Record No: H018333)
(Location: IWMI-HQ Call no: P 2472 Record No: H018351)
10 Kitamura, Y.; Murashima, K.; Ogino, Y. 1997. Drainage in Asia (II): Manifold drainage problems and their remedial measures in India. Rural and Environmental Engineering, No.32:22-41.
(Location: IWMI-HQ Call no: P 4448 Record No: H020210)
(Location: IWMI-HQ Call no: PER Record No: H024967)
12 Ahmad, N.; Awan, Q. A.; Sial, J. K.; Kitamura, Y.. 2000. Evaluation of irrigation management options for reuse of subsurface low quality drainage water: Lysimeter study. Proceedings, Volume II and recommendations, National Seminar on Drainage in Pakistan, August 16-18, 2000, sponsored by National Drainage Program (NDP) and WAPDA, Pakistan, and organized by Institute of Irrigation & Drainage Engineering, Mehran University of Engineering & Technology (MUET), Jamshoro, Sindh, Pakistan, in collaboration with IWASRI, Lahore, Pakistan and IIMI, Pakistan; Also published in Agroenviron 2000: 2nd International Symposium on New Technologies for Environmental Monitoring and Agro-Applications. Proceedings, 18-20 October 2000, Tekirdag/Turkey. Tekirdag, Turkey: Trakya University. pp.554-564. pp.27-32.
(Location: IWMI-HQ Call no: IIMI 631.62 G730 IIM, 630 G000 AGR Record No: H027150)
(Location: IWMI-HQ Call no: PER Record No: H030338)
(Location: IWMI HQ Call no: e-copy only Record No: H047437)
(0.99 MB)
Preliminary studies were conducted to test new design criteria incorporated in the Sefsafa Canal (SC) with the aim of reducing water application costs without sacrificing irrigation performance. For comparison, we also studied the Meet-Yazied Canal (MYC) (which is run without the new techniques). The cost-reduction measures used in this study included reduction of pump discharge rates and the use of electricity instead of diesel. We found that the location of farms along the irrigation canal had little effect on pump operation hours and amount of applied water; instead, crop patterns were the most important factor in this regard. The water use index (WUI), which is the ratio of applied water to required water, was higher in the SC than in the MYC and El-Mesk Canal (MC). Decreasing the pump discharge increased the amount of applied water to meet crop water requirements. During the winter, the WUI values of 1.11–1.16 achieved discharge rates of 70–80 l s-1 and were considered the optimal values of WUI. Further studies are required to avoid excessive application of water during the summer. The application of new techniques prompted farmers to irrigate their fields at night, thereby reducing water losses and installation and operational costs, and promoting equitable water distribution along the entire irrigation canal and throughout the command area.
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