Effects of four nitrogen fertilizer sources on seed and oil yield of rapeseed and nitrogen residues in the soil
Subject Areas : Agroecology Journal
Mehdi Mehrpouyan
1
*
,
ahmad golchin
2
,
soleiman jamshidi
3
1 - faculty members of graduate agronomy department, miyaneh branch, islamic azad university, miyaneh, iran.
2 - proffesor of soli science department, zanjan, iran.
3 - faculty members of graduate agronomy department, miyaneh branch, islamic azad university, miyaneh, iran.
Keywords: Brassica napus, Sulfur Coated Urea, Nitrogen use efficiency, NH4, NO3,
Abstract :
Effects of different amounts of four nitrogen fertilizers sources on seed and oil yield of rapeseed cv. SLM046, and nitrogen residues in the soil were studied after harvesting. An experiment was conducted at Zanjan Agricultural Research Center, in 2004. A factorial experiment based on a randomized complete block design with three replications was used. Five levels of N comprised of 0, 60, 120, 180 and 240 Kg of net nitrogen/ha and fertilizer sources of sulfur coated urea (SCU), urea (U), ammonium nitrate (AN), and ammonium sulphate (AS) were used at three stages: planting time, stem elongation and seed setting, but U fertilizer was applied at the planting time. The highest seed and oil yield were obtained for UN240. The highest N residues were found for SCU fertilizer. An increase of nitrogen (N) ranges from 0 to 240 kg/ha incraesed N residues in the soil. In addition, more NO3- was observed by applying AN, U, and SCU as compared with SA. The highest and the least NH4+ in soil was detected when fertilizers SCU and AN were applied, respectively. In general, despite of different N applications in rapeseed, amounts of NO3- and NH4+ residues in soil were lower than of those before planting, indicating high potential of rapeseed crop in N absorption. It was also revealed that increase of applied N was in contradictory with nitrogen uptake efficiency. NA fertilizers showed the highest and SCU the lowest nitrogen uptake efficiency in rape seed crop.
Alliyari H, Shekari F, Shekari F (2000) Oil seeds: cultivation and physiology. Amidi Press: Tabriz.
Ashory M, Mohamadian Roshan N (2001) Effect of different rates of nitrogen on yield and yield components of three cultivars of canola. The 7th Iran Soil Congress. Shahrekord University. [In Persian with English Abstract].
Holmes MRJ, Ainsley AM (1979) Nitrogen top-dressing requirements of winter oilseed rape. Journal of Science, Food and Agriculture 30: 119-128.
Jackson GD (2000) Effects of nitrogen and sulfur on canola yield and nutrient uptake. Agronomy Journal 92: 644-648.
Lewis CE, Knight CW (1987) Yield response of rapeseed to row spacing, rates of seeding and N-fertilization in interior Alaska. Canadian Journal Plant Science 67: 53-57.
Malakouti MJ (2004) Optimizing the fertilizers consumption, a way to sustainability in crop production. Ministry of Agriculture. Tehran. Iran. 575 pp.
Mousavi MA (2004) Effect of different rates of Urea on nitrate and ammonium accumulation in soil under furrow and local irrigation in tomato. Nuclear Center of Medicine and Agriculture. [In Persian with English Abstract].
Nourgholi-Pour F, Bagheri YR, Lotfollahi M (2008) Effect of different sources of nitrogen fertilizers on yield and quality of common wheat. Journal of Pajohesh dar Olloume Keshavarzi 4 (2): 120-129. [In Persian with English Abstract].
Nuttal WF, Malhi SS (1991) The effect of time and rate of N application on the yield and N uptake of wheat, barley, flux and four cultivars of rapeseed. Canadian Journal of Soil Science 25: 227-229.
Olaniyan AB, Aintoye HA, Balogun MA (2004) Effect of different sources and rates of nitrogen fertilizer on growth and yield of sweet corn. Available on <http://www.Tropentary.De/2004/ abstracts/ full.146. pdf> 22 June 2008, 13:13 pm.
Radenovich B (1987) The nitrogen quantity influence on seed yield, oil content and the production of oil out of oil rape. Zemlgisre-I-bilgica (Yugoslavia). p17.
Raun WR, Johnson GV (1999) Improving nitrogen use efficiency for cereal production. Agronomy Journal 91: 357-363.
Taylor AJ, Smith CJ, Wilson IB (1991) Effect of irrigation and nitrogen fertilizer on yield, oil content, nitrogen accumulation and water use of canola. Fertilizer Research 29: 349-260.
Tokassi M (2001) Effect of different rates of nitrogen and potassium on growth characteristics and quantitative yield of sun flower. M.Sc. Thesis. Islamic Azad University, Science and Research Branch. Tehran. Iran. [In Persian with English Aabstract].
Zangani E (2001) Effect of different rates of nitrogen on development process and yield of two winter canola cultivars in Ahevaz province. M.Sc. Thesis. Shahid Chamran University of Ahvaz, Iran. [In Persian with English Abstract].
_||_