Saving Irrigation Water and Improving Water Productivity in Rice Cultivation by Inducing New Planting Method in North Nile Delt, Egypt

El-Atawy, Gh. Sh.

doi:10.21608/jssae.2012.54331

Cited by 1 publication

(1 citation statement)

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“…In Egypt, transplanted rice in bottom of beds increased rice yield by 3 -20 % and water productivity by 58 -66%. Moreover, it saved about 27 -38% from irrigation water compared to transplanting in traditional flat soil (Meleha et al, 2008;El-Atawy, 2012 andMahmoud, 2015).…”

Section: Introductionmentioning

confidence: 99%

Enhancing Irrigation Water Productivity of Rice Using Irrigation Intervals, Transplanting Methods and Weed Control in North Nile Delta

El-Naby

Mahmoud²

2018

Journal of Soil Sciences and Agricultural Engineering

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Water is the main limiting factor for agricultural expansion in arid and semi-arid regions as well as Egypt. So two field experiments were carried out during 2015 and 2016 summer season at the experimental farm of Sakha Agricultural Research Station, Egypt to enhance water productivity of rice using irrigation intervals, transplanting methods and weed control treatments. Strip split-plot design with three replicates was used in infested weedy soils. Irrigation intervals were in the horizontal plots, it was irrigate every three days as a farmer practices (I 1), every six days (I 2) and every nine days (I 3). Transplanting methods were located in vertical plots contained; transplanting in flat soil as a traditional method (M 1) and transplanting in bottom of raised-bed (M 2). While weed control treatments were assigned in sub-plots, it was penoxsulam (Granite) 24% SC (W 1), penoxsulam + orthosulfamuron 50% WG (Kelion) (W 2), thiobencarb50% EC (Citron) fb penoxsulam (W 3), weedy check (W 4) and hand weeding twice (W 5). Results showed that treatment of I 1 was the best in weed management, rice dry weight, number of panicles/m 2 , number of filled grain/panicle, 1000-grain weight and grain yield. Irrigation treatments of I 2 and I 3 saved about 20.7 % and 29.9 % of irrigation water compared to I 1 , while the highest productivity of irrigation water (PIW) were recorded by treatment of I 2 compared to I 1 and I 3. The lowest fresh and dry weights of total weeds and the highest values of rice dry weight, number of panicles/m 2 , number of filled grains/panicle, 1000-grain weight were recorded by M 1 as compared to M 2 , in addition rice grain yield of M 1 was increased by 7.1 % compared to M 2 as mean of the two growing seasons. Transplanting method of M 2 saved about 21.2 % of irrigation water and increased PIW by 18.4 % compared to M 1. The best weed management beside the highest values of number of panicles/m 2 , number of filled grain/panicle, 1000-grain and grain yield of rice were obtained by W 3 compared to rest weed control treatments and it take the descending order W 3 > W 5 = W 2 > W 1 > W 4 in the two seasons of study. The interaction of I 2 X M 1 X W 3 was superior treatment for rice grain yield. But, under shortage of water, increasing irrigation water productivity of rice could be achieved by the superior interaction of I 2 X M 2 X W 3 because it resulted in the highest irrigation water productivity of rice to be 0.98 kg m-3 .

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Section: Introductionmentioning

confidence: 99%