Effect of Irrigation with Agricultural Drainage Water on Yield and Quality of Some Rice Varieties (Oryza sativa L.) | ||||
Journal of the Advances in Agricultural Researches | ||||
Article 2, Volume 20, Issue 3, September 2015, Page 438-459 PDF (244.15 K) | ||||
Document Type: Research papers | ||||
DOI: 10.21608/jalexu.2015.161552 | ||||
View on SCiNiTO | ||||
Authors | ||||
Mahmoud Gomaa1; Ibrahim Fathallah Rehab2; Gamal Abdel-Nasser Khalil ElSakhawy1; Ragab AbdElGhany Ebeid3; Bassant Ahmed Mohamed ElYamany3 | ||||
1Faculty of Agriculture (Saba Basha), Alexandria University. | ||||
2Faculty of Agriculture saba basha, Alexandria University | ||||
3Rice Researches Department, Field Crop Research Institute, ARC. | ||||
Abstract | ||||
The present investigation included field experiments executed at the experimental farm (Abees region) of the Faculty of Agriculture (Saba-Basha), Alexandria University, Egypt, during both 2012 and 2013 growing seasons. Experiments were carried out to study the effect of irrigation with agricultural drainage water and/or canal water on yield and quality of four rice varieties (Oryza sativa L.). Five irrigation treatments were practiced as follow; (T1) Irrigation throughout the season using agricultural drainage water, (T2) Irrigation with agricultural drainage water then using canal water in sequence, (T3) Using agricultural drainage water for irrigation till end of the vegetative growth stage and the canal water starting from reproductive stage,(T4) Using canal water at the vegetative growth stage and agricultural drainage water right before panicle initiation, (T5) Irrigation throughout the season with canal water. Four Egyptian rice cultivars namely; Hybrid 1(SK 2034), Sakha 104, Giza 177, Giza 178 were used. Some growth characters, grain yield and its component characters, some yield related characters, and some grain quality characters were subjected to determine the effect of these two variables. The main results showed that, increasing of the dose of canal irrigation water starting from T1 (irrigation throughout the season using agricultural drainage water) and ending by T5 (irrigation throughout the season by canal water) significantly increased the mean values of most of studied characters and maximized by using T5 in 2012 and 2013 seasons. Meantime, the differences between the effect of T5 and T3 (using agricultural drainage water for irrigation at the vegetative growth period and the canal water right before reproductive stage) were not significant in case of most studied characters .The highest grain yields was obtained for Hybrid 1 (5.00 t/fed. ) .rice cultivars while; Giza 177 rice cultivar produced the lowest grain yield (3.18 t/fed.) during both seasons But also, all milling characters and quality characters Giza 178 rice cultivars obtained the heist values than the other cultivars. These findings assure the great amount of genetic variations between the tested cultivars. Interaction between irrigation treatments and rice cultivars had significant effect on most tested characters except harvest index in both seasons and grain yield (ton/fed.) in 2013 season only. | ||||
Keywords | ||||
rice cultivars; agricultural drainage water; rice yield and quality | ||||
References | ||||
Abdullah, Z., A. Mushtaq Khan and T. J. Flowers (2001). Causes of Sterility in Seed Set of Rice under Salinity Stress.Journal of Agronomy and Crop Science (Impact Factor: 2.62). 12/2001; 187(1):25 - 32.
Allam, A. andA. Wahba (2008). Egypt to Urge Farmers to Cut Rice Plantations in Favor of Corn .http://www.bloomberg.com/apps/news? Pid= news- archive&sid=ackIDtfBrt1 k
Ascha, F., M. C.S. Wopereis. (2001). Responses of field-grown irrigated rice cultivars to varying levels of floodwater salinity in a semi-arid environment. Field Crops Research, 70( 2):127–137.
Black, A., D.D. Evans, L.E. Ensmiger, J.L. white and F.E. Clarck (1965). Methods of Soil Analysis (chemicals and microbiology properties, part 2). Ames. Soc. Of Agron., Madison, Wisconsin.
Cagampang, B.G., C.M. Perez and B.O. Juliano (1973). A gel consistency test for eating quality rice. J. Sci. Food and Agric., 24(1): 589-594.
El-Mowelhi, N.M., S.M. Abo-Soliman, S.M. Barbary and M.I. El-Shahawy (2006). Agronomic aspects and environmental impact of reusing marginal water in irrigation: a case study from Egypt. Water Sci. Technol., 53(9): 229-37.
El-Refaee, I. S., A. E. Abd E-Wahab and S.A. Ghanem (2005). Physiological performance and yield of some rice cultivars as affected by different irrigation interval. Egypt, J. Agric. Res., 83 (5B),
El-Refaee, I. S., A. Al-Ekhtyar and A. Al-Gouhary(2008). Improving Rice Productivity Using Irrigation Intervals and Nitrogen Fertilizer. The Second Field Crops Conference (ABSTRACTS) 36 AGRON-02. 14-16 Oct.
Ernesto,C. G., T. T. Phuc, M. I. Abdelbariand I. Kazuyuki (2007). Response to Salinity in Rice: Comparative Effects of Osmotic and Ionic Stresses. Plant Production Science J., 10(2): 159-170
Fabre D., P.L. Siband and M. Dingkuhn (2005). Characterizing stress effects on rice grain development and filling using grain weight and size distribution. Field crops research, 92 (1): 11-16.
FAO (1976). Water quality for Agriculture. Irrigation and Drainage paper 29, R.S. Ayers and D.W. Westcot.
FAO (2006). Summaries of case studies from Central Asia, Egypt, India, Pakistan and the United States of America. Agricultural Drainage Water Management in Arid and Semi-Arid Areas book. Published by Scientific Publishers (2006-02-07).
Gomaa, M.H., A.A. El-hissewy, F.I. Radwan and M.M. El-siginy (2005). The influence of some irrigation water sourses and nitrogen levels on growth and productivity of rice under newly reclaimed soil conditions. Egypt, J. Agric. Res., 83 (5B).
Little, R.R. , G.B. Hilder and E.H. Dawson (1958). Differential effect of dilute alkali on 25 variteis of milled rice. Cereal Chem., 35: 111-126.
Mirza, H., M. Fujita, M. N. Islam, K. U. Ahamed and N. Kamrun (2009). Performance of four irrigated rice varieties under different levels of salinity stress. IJIB, 6 (2):85-90.
National Rice Campaign booklet (2012). Rice Researches Department ,Agricultural Research Center (ARC), Ministry of Agriculture, Egypt. (In Arabic)
Richards, L.A. (ed.) (1972). Diagnosis and Improvement of Saline and Alkaline Soils. U.S. Dept. of Agric., Agric. Handbook No. 60.
Shannon, M.C. (1997). Adaptation of plants to salinity. Advances in Agronomy, 60: 75-120.
Shereen, A., S. Mumtaz, S. Raza, M.A. Khan and S. Solangi (2005). Salinity effects on seedling growth and yield components of different inbred rice lines. Pak. J. Bot., 37(1): 131-139.
Wilcox, L.V. (1958). Determining quality of irrigation water. Agric. Inf. Bull. No. 147, USDA, Washington.
Zeng, L. and M.C. Shannon (2000). Salinity effects on seedling growth and yield components of rice. Crop Sci., 40: 996–1003 | ||||
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