Effects of nitroxin, animal manure and nitrogen fertilizer on yields quantity and quality of durum wheat (Triticum durum)
Subject Areas : New Finding in AgricultureHadi Jasemi 1 , Hamid Reza Eisvand 2 , Mashallah Daneshvar 3
1 - دانش آموخته کارشناسی ارشد زراعت دانشگاه آزاد اسلامی واحد خرم آباد
2 - استادیار گروه زراعت و اصلاح نباتات دانشگاه لرستان
3 - استادیار گروه زراعت و اصلاح نباتات دانشگاه لرستان
Keywords: Animal manure, yield, durum wheat, Nitroxin,
Abstract :
In order to study of effects of non-chemical N fertilizers (Nitroxin and animal manure) as one of principal of sustainable agriculture and a chemical N fertilizer (ammonium nitrate) on quantity and quality of durum wheat (Var. Yavaros79), a field research was carried out during 2009-2010 in Mehran, a city in Ilam Province of Iran. The experiment was factorial on base of CRBD with three replications. The factors including Nitroxin (0 and 2lit/ha), rotted sheep manure (0 and 30 ton/ha) and N fertilizer (0, 70% and 100% of N requirement according to soil experiment). Using of animal manure increased plant height, awn length, harvest index, grain protein and finally improved grain and biological yields. But, Nitroxin biofertilizer did not significant effect on biological and economical yield; it only increased grain protein. Application of N fertilizer (70% of N requirement) had a positive effect on grain yield and grain protein equal to using animal manure, but using over than 70% was not useful. Because of importance and beneficial roles of non-chemical fertilizer in sustainable agriculture, it is suggested that a mixture of rotted animal manure and Nitroxin be used instead of N fertilizer in production system of durum wheat.
1- Anonymous, 2004. Newsletter of Jihade-Keshavarzi, Ministry of Jihade-Keshavarzi, 3th year, 28: page 64.
2- Anwar, M. D .D., Patra, S., Chand, K., Alpesh, A. A. Naqui, and S. P. S. Khanuja. 2005. Effect of organic manures and in organic fertilizer on growth, herb and oil yield utrient a ccumulation, and oil quality of French basil. Communications in Soil Sci. and Plant Analysis. 36: 1737-1746.
3- Ardakani, M. R., Majd, F., Mazaheri, D. and Nourmohamadi, G. 2001. Evaluation of azospirillium, mycorrhiza and streptomyces efficiency with manure utilization in wheat by using 32p. Iranian journal of crop sciences, 3(1): 56-69.
4- Courtney, R. G. and Mullen, G. J. 2008. Soil quality and barley growth as influenced by the land application of two compost types. Bioreso Technol. 99: 2931-2918.
5- Darzi, M. T., Ghalavand, A., Rejali, F. and Sefidkon, F. 2006. Study effect of biofertilizers on yield and yield components of Foeniculum vulgar. Iranian Journal of Medicinal and Aromatic Plants, 22(4): 276-282.
6- Edalat, M., Ghadiri, H., Kamgar Haghighi, A. A. , Emam , Y., Ronaghi, A. M. and Assad, M. T. 2006. Interactions of two crop rotations and nitrogen levels on grain yield and its components of two bread wheat cultivar s under dryland conditions in Shiraz. Iranian journal of crop sciences, 8:106-120.
7- Fallahi, J., Koocheki, A. and P. Rezvani Moghaddam. 2009. Effects of biofertilizers on quantitative and qualitative yield of chamomile ( Matricaria recutita) as a medicinal plant. Iranian Journal of Field Crops Research, 1: 127-135.
8- Galantini, J. A., Landriscini, M. R., Iglesias, J. O., Miglierina, A. M. and Rosell, R. A. 2000. The effects of crop rotation and fertilization on wheat productivity in the pampean semiarid region of Argentina. Nutrient balance, yield and grain quality. Soil. Tillage Res. 53: 137-144.
9- Kafi, M. and Mahdavi Damghani, A. 2000. Plant mechanisms to environmental stresses. Publication of FerdowsiUniversity.
10- Kalzian, A., Sheybani, S., Bahadorian, M. and Shaddel, L. 2004. Soil microbiology. 326-370.
11- Kapoor, R., Givi, B. and Mukerji, K.G., 2002. Glomus macrocarpum: a potential bioino coolant to improve essential oil quality and concentration in Dill (Anethum graveolens L.) and carum. Worls journal of Microbiology and Biotechno logy, 18 (5): 459-463.
12- Khavazi, K., Rahamani, H., and Malakouti, M.J. 2005. Necessity of industrial production of biofertilizer in Iran. Research institute of soil and water, page, 418.
13- Khosravi, H. 1997. Study the frequency and distribution of azotobacter chroococcum in farm soils of Tehran province and study the some of their physiological characteristics. Msc. Thesis, University of Tehran.
14- Lotfi A., Vahabi Sedehi, A., Ganbari, A. and Heydari, M. 2009. The effect of deficit irrigation and manure on quantity and quality traits of plantago ovate Forssk. in Sistan region Iranian Journal of Medicinal and Aromatic Plants, 24 (4): 506-518.
15- Loyd, A., . webb., J.R. Archer., and R.S. Bradly. 1997. Urea as a nitrogen fertilizer for cereals. Journal of Agronomy Science (Cambridge) 128: 263-271.
16- Maloukoti, M. J. and Nafisi, M. 1997. Using fertilizer in irrigated and dry lands, TarbiatModaresUniversity publications, page 267.
17- Masson, M.G. and Brennan, R.F. 1998. Comparison of growth respouse and nitrogen uptake by canola and wheat following application of nitrogen fertilizer. Journal of Plant Nutrition. 21: 1483-1499.
18- Narula, N., Kumar, V., Behl, R; Deubel, A; Gransee, A and Merbach, W. 2000. Effect of P-solubilizing (Azotobacter chroococcum) on N,P,K uptake in p-responsive wheat genotypes grown under greenhouse condition. Journal of Plant Nutrition and Soil Science. 163(4): 393-398.
19- Neamat Alla, E. A. E. 1997. Agronomic studies on sugar beet Ph.D. thesis, in Agron. Fac. Agric, Kafr El-Sheikh. Tanta Univ. pp: 55-111.
20- Paknejad, F. 1995. Study the effect of microelements and different levels of nitrogen on growth and quantitative and qualitative yield of wheat var. Falat. Msc. Thesis, Islamic Azad University, Dezfoul branch.
21- Papakosta, D. K. and Gagianas, A. A. 1991. Nitrogen and dry matter accumulation, remobilization and losses for Mediterranean wheat during grain filling. Agron. J. 83: 864-870.
22- Rai, S.N and Gaur, A. C. 1988. Characterization of Azotobacter SPP. and effects of Azotobacter and azospirillum as inoculant on the yield and N-uptake of wheat crop. Plant and Soil. 109: 131-134.
23- Rajaei, S. 2005. Potential of using native azotobacter chrococoum species as a biofertlizer in wheat fields of Chaharmahal-o-Bakhtiari province . Msc thesis, ShahrekordUniversity, Page 1-25.
24- Rejali, F., Alizadeh, A., Salehrastin, N. and Malakouti, M.H. 2007. Effect of mycorhiza symbiosis on improvement of host plant relationship to drought. Proceeding congress in importance of industrial production of biofertilizer in Iran, 435-457.
25- Salardini, A. A. 1995. Soil productivity. University of Tehran publications, 41-160 pages.
26- Sharifi, Z. and Haghnia, A. 2007. Effect of nitroxin biofertilizer on yield and yield components of wheat (Var Sabalan). 2nd national congress of ecological agriculture, Gorgan, Iran.
27- Subba Rao, N.S. 1988. Biofertilizers in agriculture. 1sd edition. New Delhi: Oxford and IBH publishing Co., India. 4: 233-255.
28- Tejada, M., Gonzalez, J.L., Garcia-Martinez, A..M. and Parrado, J. 2008. Effect of different green manres on soil biological properties and Maize yield. Bioreso Technal. 99: 1758-1767.
29- Yahlom, E., Kapulnik. Y and Okon. Y. 1984. Response of setaria italica to inoculation with Azospirillum brasilense as compared to Azotobacter chrococcum. Plant Soil. 82: 77-85.
