Journal of Agricultural Science and Engineering
Articles Information
Journal of Agricultural Science and Engineering, Vol.1, No.2, Jun. 2015, Pub. Date: Apr. 8, 2015
Effect of Foliar Spray of Glutamine on Growth, Yield and Quality of Two Snap Bean Varieties
Pages: 39-45 Views: 1317 Downloads: 985
[01] Li Yunsheng, Yucheng Comprehensive Experimental Station, Institute of Geographical Sciences and Natural Resources Research, Beijing, China.
[02] El-Bassiony A. M., Vegetable Research Dept., National Research Centre, Dokki, Cairo, Egypt.
[03] Fawzy Z. F., Vegetable Research Dept., National Research Centre, Dokki, Cairo, Egypt.
[04] M. E. El-Awadi, Botany Dept., National Research Centre, Dokki, Cairo, Egypt.
Two field experiments were carried out in two successive seasons of 2013 and 2014 at the Agricultural Experimental Station of the National Research Centre, EL-Nubaria, Elbehira Governorate, Egypt, to study the effect of three levels of Glutamine (25ppm, 50ppm and 100ppm) spraying in addition the control on growth, yield and pods quality of two bean cultivars (Paulesta and Oxzira). Results showed that using Oxzira cv. gave the highest values of the vegetative growth (number of leaves and number of branches as well as fresh and dry weight of whole plant), total yield, quality and Chemical constituents (Total Free amino acids in leaves and total phenolic acids in pod). Whereas, Paulesta cv. Resulted the highest values of plant length and Total Free amino acids in pods. Spraying bean plants by Glutamine (25ppm, 50 ppm) increased vegetative growth, total yield and quality with no significant difference between 50 and 25 ppm. Whereas, using Glutamine as (25ppm) increased Total Free amino acids in leaves and total phenolic acids in pod but Total Free amino acids in pods highest when using Glutamine (100ppm).
Snap Bean, Foliar Spray, Glutamine, Growth, Yield, Chemical Composition
[01] A.O.A.C. 1990. Official Methods of Analysis of Association Agriculture Chemists. 15Ed. Washington, USA.
[02] Abdel-Mawgoud, A. M. R., El-Bassiouny, A. M., Ghoname, A and Abou-Hussein S. D. (2011). Foliar application of amino acids and micronutrients enhance performance of green bean crop under newly reclaimed land conditions. Australian Journal of Agricultural Research 5 (6): 459–469.
[03] Abdul Mawgoud, A.M.R., M. El- Desuki, S.R. Salman and S.D. AbHussein2005 . Performance of some snap bean varieties as affected by different levels of mineral fertilizers. Journal of Agronomy 4 (3), 242 – 247.
[04] Abou El-Hassan, E.A., A.H.M. Shahin and M.S. Youssef. 1993. Effect of nitrogen and phosphors fertilizer on some cultivars of bean plants. 1- Morphological characters, yield and pod characteristics. Minia First Conference on Horticultural Crop from 19-21 October.
[05] Amer A.H., M.El. Desuki, O.M .Sawan and A.M. Ibrahim. 2002. Potentiality of some Snap bean ( Phaseolus vulgaris, L ) under different irrigation levels at Shark Owinat Region. Egypt. J. Applied Sci., 17: 327 – 345.
[06] Awad, El-M.M., A.M. Abd El-Hameed and Z.S. Shall, 2007. Effect of glycine, lysine and nitrogen fertilizer rates on growth, yield and chemical compositionof potato. J. Agric. Sci. Mansoura Univ., 32(10): 8541 - 8551.
[07] Bisby, F.A., Y.R. Roskov; T.M. Orrell, D. Nicolson, L.E. Paglinawan, N. Bailly, P.M. Kirk, T. Bourgoin, G. Baillargeon and D. Ouvrard, eds. 2011. Species 2000&ITIS Catalogue of life, 3rd January 2011. Digitalresource at http:// Species 2000: Reading, UK.
[08] El-Awadi, M. E., El-Bassiony, Z. F. Fawzy, A. M., and El-Nemr, M. A. (2011). Response of snap bean (Phaseolus vulgaris L) plants to nitrogen fertilizer and foliar application with methionine and tryptophan.Nature and Science. 9 (5): 87–94.
[09] El-Shabasi, M.S., S.M. Mohamed and S.A. Mahfouz, 2005. Effect of foliar spray with amino acids on growth, yield and chemical composition of garlic plants. The 6th Arabian Conf. for Hort. Ismailia, Egypt.
[10] El-Zohiri SSM, Asfour YM. 2009. Effect of some organic compounds on growth and productivity of some potato cultivars. Annals of Agric.Sci.,Moshtohor, 47 (3): 403 -415.
[11] FAO/TTC, 2001. World markets for organic fruits and vegetables: opportunities for developing countries in the production and export of organic horticultural products, ( TC/D/Y1669E/9.01/6730).
[12] Fawzy, Z. F., El-Bassiony, A. M., Behairy, A. G. and Helmy, Y. I. (2010). Effect of foliar spraying by some bio and organic compounds on growth, yield and chemical composition of snap bean plants. Journal of Applied Sciences Research, 6 (12): 2269–2274.
[13] Gomez, K.A. and A.A. Gomez, 1984. Statistical procedures for agriculture Research. Second Ed. Willey inter Science, pp: 357-423.
[14] IFAOM/SOEL, 2000, “ world organic agriculture report”.
[15] Kamar, M.E. and A. Omar, 1987. Effect of nitrogen levels and spraying wih aminal-forte (amino acids salvation) on yield of cucumber and potatoes. J. Agric. Sci. Mansoura Univ., 12(4): 900
[16] Karuppaiah, P., K. Manivonnar, M.V. Sriramach Andrasakaron and G. Kuppusamy, 2000. Responses of cucumber to foliar application of nutrients on light mine spoil. J. of the Indian Society of soil Science, 49(1): 150 - 153.
[17] Kowalczyk, K. and T. Zielony, 2008. Effect of Aminoplant and Asahi on yield and quality of lettuce grown on rockwool. Conf.of biostimulators in modern agriculture, 7-8 Febuary 2008, Warsaw, Poland.
[18] Marschner H, 1995. Mineral nutrition of higher plants. Academic Press. (London).
[19] Mohamed, F.M,. 1997. Screening of some common bean ( Phaseolus vulgaris , L ) cultivars or production in southern Egypt and pan confficient analysis for green pod yield . Assiut. J. Agric. Sci., 28: 91 – 106.
[20] Nassar, H.H,. 1986. The relationship between yield and growth character in snap bean varieties . Ann. Agric. Sci., Fac. Agric., Ain Shams Univ., 31: 1351 – 1360.
[21] Plummer, D. 1978. An Introduction to Practical Biochemistry. 2nd ed. McGraw-Hall Mook Company Limited, London, UK. 1978:144.
[22] Razieh, K., Tajbakhsh, M. and Jalilian, J. (2012). Effect of foliar application of bio-organic fertilizers and urea on yield and yield components characteristics of mung bean. International Journal of Agriculture: Research and Review, 2 (5), 639-645.
[23] Saeed MR,. Kheir AM, Al-Sayed AA. 2005. Supperssive effect of some amino acids against Meloidogyne incognita on Soybeans.J. Agric. Sci. Mansoura Univ., 30 (2): 1097 –1103.
[24] Snell, F, C. Snell, 1952. Colorimetric Methods. Vol. III. Organic, D. Van Nostrand company, Inc. London. 1952: 606pp.
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