Investigating the Effect of Urea Chemical Fertilizer on Wheat (Triticum aestivum L.) Production Affected Sugarcane Compost under Warm and Climate Condition
Subject Areas : Journal of Crop Nutrition ScienceForogh Zadeh Omidi 1 , Seyed Keyvan Marashi 2
1 - MSc. Graduated of Agronomy, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Assistant Professor, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
Keywords: nitrogen, Phenology, <i>Dry matter, Yield</i>, Integrated nutrition management,
Abstract :
BACKGROUND: To alleviate the negative effect of fertilizers, integrated plant nutrient management is an option as it utilizes available organic and inorganic nutrients to build ecologically sound and economically viable farming system. Research has suggested that integrated nutrient management strategies involving chemical fertilizers and bio-fertilizers enhance the sustainability of crop production.OBJECTIVES: Current research was conducted to investigate the effect of urea chemical fertilizer and sugarcane compost on wheat crop production and growth indices.METHODS: This study was done according split plots experiment based on randomized complete block design with three replications. The treatments included different amounts of sugarcane compost at three levels of zero, 15 and 30 t.ha-1 as the main factor and nitrogen fertilizer from the urea source at three levels of 80, 160 and 240 kg.ha-1 pure nitrogen belonged to secondary factor.RESULT: The results showed that the difference between the levels of sugarcane compost on the leaf area index, total dry matter plant and seed yield was significant. The difference between nitrogen fertilizer levels was statistically significant in all measured traits. The interaction effect of nitrogen fertilizer and sugarcane compost on the measured traits was not statistically significant. The highest seed yield in 30 t.ha-1 of sugarcane compost and 240 kg.ha-1 of pure nitrogen was 6446 and 6421 kg.ha-1, respectively, and the lowest seed yield in conditions without sugarcane compost and 80 kg.ha-1 was 5166 and 5304 kg.ha-1, respectively.CONCLUSION: The results of the current study showed that the consumption of sugarcane compost and nitrogen led to an increase in the yield of corn seeds through the improvement of growth characteristics. The highest quantitative yield was obtained under the conditions of application of 30 t.ha-1 of sugarcane compost and 240 kg per hectare of nitrogen fertilizer, which can be considered and suggested by farmers and researchers.
Ahmadi, P. and A. Panahpour. 2018. Investigating the effect of bagasse and sugarcane cake filter on some physical properties of soil. The 7th Iran Sugarcane Conf. (Abstract in English)
Alikhani, H. and G. R. Savabeghi. 2006. Vermicomposting for the sustainable agriculture activities. Tehran University Pub of Jahad.
Arancon, N., C. A. Edwards, P. Bierman, C. Welch. and J. D. Metzger. 2004. Influence of vermicomposts on field strawberries. I: Effects on growth and yields. Bioresearch Technology. 93: 145-153.
Ayub, M., M. A. Nadeem. and A. Tanveer. 2003. Influence of different nitrogen levels and harvesting times on dry matter yield and quality off odder maize. Pak. J. Life Soc. Sci. 1: 59-61.
Bagheri, R., Gh. A. Akbari, M. H. Kianmehr. and Z. Tahmasbi Sarvestani. 2013. Effect of nitrogen fertilizer on yield and nitrogen utilization efficiency in single seed cereal corn 704. J. Crop Sci. 5(8): 27-38.
Cheema, M. A., M. A. Malik, A. Hussain, S. Shah. and A. M. Basra. 2001. Effects of time and rate of nitrogen and phosphorous application on the growth and the seed and oil yields of canola (Brassica nupus L.). Agronomy and Crop Sci. 86: 103-110.
Chikoye, D., A. F. Lum, R. Abaidoo, A. Menkir, A. Kamara, F. Ekeleme. and N. Sanginga. 2008. Response of corn genotypes to weed interference and nitrogen in Nigeria. Weed Sci. 56: 424-433.
Das, P. K., D. Sarangi, M. K. Jena. and S. Mohanty. 2002. Response of green gram (Vigna radiata L.) to integrated application of vermicompost and chemical fertilizer in acid lateritic soil. Ind. J. Agric. 46: 79-87.
Haji Sharfi, H., Sh. Zarai, T. Sakinejad. and H. Bijanpour. 2014. Investigating the application of organic fertilizers obtained from bagasse and sugarcane bagasse composts in order to increase soil organic matter and reduce the consumption of chemical fertilizers in sugarcane fields. The 2th Conf. on New Findings in the Environment and Agricultural Ecosystems. 111 p.
Jalali, A. H., M. J. Bahrani. and N. A. Karimian. 2012. Effect of Plant conservation management, composting and nitrogen fertilizer on seed yield and yield components of Corn doubler cultivar 370. Iranian J. Crop Sci. 13(2): 336-351.
Karimi, H., D. Mazaheri, A. Peyghambari. and M. Mirabzadeh Ardakani. 2012. Effect of organic and inorganic fertilizer application on yield and yield components of Single corn seed 704. Iranian J. Crop Sci. 13: 611-627.
Kochaki, A. and G. Khalghani. 2000. Sustainable Agriculture in Mediterranean Region. Mashhad University press. 284 p.
Marashi, S. K., P. Behdarvand, M. Mojaddam. and T. Saki Nejad. 2005 To study the effect of different levels of irrigation, nitrogen and weeds competition on growth indices and seed yield of maize (S.C. 704). Crop physiol. J. 8(31): 61-75.
Mirzashahi, K. and S. Saadat. 2011. Effect of different organic materials on canola yield and some soil characteristics in northern Khuzestan. J. Soil Res. (Soil and Water Sci). 24(1): 21-29.
Monjazi, H., M. R. Moradi Talavat, A. Sayadat, A. Kochak Zadeh. and H. Hamdi. 2015. Effect of sugarcane filtering, chemical fertilizer and fertilizer on yield and quality of canola and some soil characteristics. J. Crops Improvement (J. Agriculture). 16(2): 445-457.
Najafi Nejad, H., M. A. Javaheri, S. Ravari. and F. Azad Shahraki. 2010. Effect of crop rotation and wheat residue management on seed yield of corn crossover 704 and soil characteristics. J. Cultivation of Seed and Seeds. 25(3): 245-258.
Qasr al-Dashti, A., H. R. Baluchi, A. R. Yadavi. and S. Y. Mousavi. 2013. Effect of urban waste compost and nitrogen on quantitative and qualitative yield of sweet corn forage. Herbal Products. Sci. Agricultural J. 35(1): 43-54.
Reddy, N. S., M. Anjanappa. and R. Reddy. 1998. Effect of organic and inorganic sources of NPK on growth and yield of pea (Pisum sativum). Legume Res. 21: 57-60.
Rezvani Moghaddam P., S. M. Seyedi. and M. Azad. 2003. the effects of organic and biological fertilizers on yield and yield components of black seed (Nigella sativa l.). 12(4): 567-573.
Shamme, S. K, C. V. Raghavaiah, T. Balemi. and I. Hamza. 2016. Sorghum growth, productivity, nitrogen removal, N-use efficiencies and economics in relation to genotypes and nitrogen nutrition in Kellem-Wollega zone of Ethiopia, East Africa. Adv. Crop Sci. Tech. 4: 218-226.