Effects of integrated application of biological and chemical fertilizers and their application method on yield and yield components of grain maize (Zea Mays L.)

Document Type : Research Paper

Authors

1 Department of agriculture, Islamic Azad University, Eslamshahr Branch, Tehran, Iran.

2 Department of Agriculture, Islamic Azad University, Eslamshahr Branch, Tehran, Iran.

Abstract

Introduction: Proper plant nutrition is an important factor in improving product quality and quantity. In plant nutrition, not only must every element available to plants is enough, but respect the balance and balance of nutrients is very important. Over the years with the indiscriminate use of chemical fertilizers, especially nitrogen and phosphorus, and failure to comply with nutrient balance considerable damage to agricultural land and thus entered (Tohidi Moghadam et al., 1386). Beneficial soil microorganisms one of the determinants of plant health and soil fertility, because in several key processes, such as biological control of pathogens, rotation of nutrients and seedling establishment (Rosas et al., 2008). While chemical fertilizers in the last 50 years have had a major role in increasing crop yield but the problems were created which dropped their positive effects and negative outcomes. Although nitrogen is not a limiting resource, but converts atmospheric nitrogen into nitrogen fertilizers requires the use of fossil fuels is limited besides these sources, the cost of production of these fertilizers will also increase (Herzog et al., 2008). Soil microorganisms are important components of the soil system, because not only help to access elements in the soil, but also sticking soil particles and aggregates stability and thereby improves soil structure and reduce vulnerability to erosion (Stamford, 2008). Soil and plant growth promoting bacteria (PGPR) are soil free-living bacteria. These bacteria are often seen near or even inside the plant roots (Rasouli et al., 1382). Materials and Methods: In order to study the effects of integrated application of bio and chemical fertilizers as well as application method of biofertilizer on the yield and yield components of maize (Zea maize L.), an experiment was conducted in 2015 in Babol, in a factorial arrangement with completely randomized block design with three replicates. Treatments were integrated application of biological and chemical fertilizers in four levels (chemical fertilizer, ¼ chemical fertilizer+ biofertilizer, ½ chemical fertilizer+ biofertilizer, biofertilizer) and biofertilizer application method in three levels (seed inoculation, fertigation and seed inoculation+ fertigation). Results & Discussion: Result showed that integration of biological and chemical fertilizer affected yield and yield components. The highest grain yield was obtained by application of biofertilizers + ½ chemical fertilizer. The greatest and lowest harvest indices were recorded in chemical and biofertilizer treatments, respectively. The highest number of grains per ear (41.3) related to treatment (50% chemical fertilizer + biofertilizer). The highest 1000 seed weight belonged to treatment (chemical fertilizer + biofertilizer) by 394 Biological fertilizer application methods had no significant effect on 1000 grain weight but highest 1000 seed weight were treated with inoculation+ fertigation by 346.67. The method of application seed treatment + irrigation method compared to the other two methods showed more favorable results, although the difference was not statistically significant. Vessy (2003) Stated that biological fertilizer material that has live microorganisms that when the seed, the plant or the soil used in soil or in plant root growth area occupied and plant growth by providing access some essential elements, stimulate. Vessy (2003) also reported that the importance of bio-fertilizers for biological nitrogen fixation by them. This researcher said that with the growth promoting bacteria capable of fixing molecular nitrogen, This consolidation was small and major biological fertilizers through the secretion of growth hormone auxin was especially Which increases the total volume of root hairs Thereby increasing the permeability of the roots and increasing the absorption of nutrients. Conclusion: The results showed that combined application of these resources while increasing corn yield a significant decrease in the consumption of chemical fertilizers.
fertilizers. Keywords: biofertilizer, chemical fertilizer, yield, maize,fertilizers. chemical fertilizer, yield, maize,fertilizers. Keywords:

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Amujoyegbe, B. Y., Opbode , J. T. and Olayinka , A. 2007. Effect of organic and inorganic fertilizer on yield and chlorophyll content of maize (Zea mays L.) and sorghum Sorghum bicolour (L.) Moench). African Journal of Biotechnology, 6 (16): 1869-1873.
Aram, sh., Faramarzi, A., Farbodi, M. and Khorshidi-Benam, M.B. 2009. Effect of animal manure levels and planting date on yield Components of sweet corn yield in Mianeh. Journal of Agricultural Sciences, Islamic Azad University, Tabriz Branch, 3 (12): 1-11 ( In Persian with English Summary).
Biari, A., Gholami, A. and Rahmani, H. A. 2008. Growth promotion and enhanced nutrient uptake of maize by application of plant growth promoting rhizobacteria in arid region of Iran. Journal of Biological Sciences, 8(6):1015-1020.
Gholami, A., and Biari, A. 2007. Effect of priming seed strains Azotobacter and Azospirillum on growth characteristics, yield and yield components of corn. The second national conference on ecological agriculture, Iran, Gorgan. Gorgan University, p. 349 -338 ( In Persian with English Summary).
Gholami, A., et al. 1999. Assess the impact of different types of application of vascular mycorrhizal fungi on the growth characteristics of maize. Iranian Journal of Crop Sciences, 3: 47-45 ( In Persian with English Summary).
Gorbani, H. 2007. A review of biological fertilizers in Iran and their role in protecting the environment and public health. The second national conference on ecological agriculture of Iran, p. 3905 -3919 ( In Persian with English Summary).
Hamidi, A., Ghalavand, A., Dehghan Shoar, M., Malakooti, M.J., Asgharzade, A., and Choukan, R. 2005. The effects of plant growth promoting bacteria (PGPR) on yield of forage maize. Research and Construction, 70: 22-16 ( In Persian with English Summary).
Herzog, F., Prasuhn,V., Spiess, E., and Richner, W. 2008. Environmental cross-compliance mitigates nitrogen and phosphorus pollution from Swiss agriculture. Environmental Science & Policy, 11: 655-668.
Lind, K., Lafer, G., Schloffer, K., Innerhoffer, G., and Meister, H. 2004. Organic fruit growing. CABI publishing, Wallingford, UK, pp. 281.
Majidian, M., Ghalavand, A., Kamkar, A.A., and Karimian, N. 2007. Effect of drought stress, nitrogen fertilizer and organic fertilizer at different growth stages on agronomic characteristics of corn. Iran is the second national conference on ecological agriculture of Iran, Gorgan University, p. 3108-3099 (In Persian with English Summary).
Majidian, M., Ghalavand, A., Karimian, N. and Kamkar Haghighi, A. A. 2008. Effects of moisture stress, nitrogen fertilizer, manure and integrated nitrogen and manure fertilizer on yield, yield components and water use efficiency of SC704 corn. Journal of Science and Technology of Agriculture and Natural Resources, 45: 417-433. (In Persian with English Summary).
Oliverira. A., De Canuto, E.L., Urquiaga, S., Reis, V.M., and Baldani, J.I. 2006. Yield of micropropagated sugarcane varieties in different soil types following inoculation with diazotrophic bacteria. Plant Soil, 284: 23-32.
Rasouli, M.H., Khavazi, K., and Malakooti, M.J. 2005. Optimum Nutrition’s role in the secretion of siderophore to improve the uptake of micronutrient fertilizers, Technical Publication No. 307, the Office of Media planning by extension, Tehran, Iran ( In Persian with English Summary).
Rosas, S. B., Avanzini, G., Carlier, E., Pasluosta, C., Pastor, N., and Rovera M. 2008. Root colonization and growth promotion of wheat and maize by Pseudomonas aurantiaca SR1. Soil Biology & Biochemistry, xxx: 1-5.
Shaharoona, B., Arshad, M., Zahir, A.Z., and Khalid, A. 2006. Performance of Pseudomonas spp. containing ACC-deaminase for improving growth and yield of maize (Zea mays L.) in the presence of nitrogenous fertilizer. Soil Biology & Biochemistry, 38:2971–2975.
Tohidi Moghadam, H.R., Nasri, M., Paknejad, F., Ranjbarzade, R. 2007. Biofertilizers strategy to reduce the use of chemical fertilizers in the cultivation of soybeans. Iran is the second national conference on ecological agriculture, Iran, Gorgan, Gorgan University, p. 1434 -1423 ( In Persian with English Summary).
Vessy, K. 2003. Plant growth promoting rhizobacteria as biofertilizars. Plant and Soil, 255: 571-586.
Yazdani, M., Bahmanyar, M.A., Pirdashti H., and Esmaili M.A. 2009. Effect of phosphate solubilization microorganisms and plant growth promoting rhizobacteria on yield and yield components of corn. Periodical World Academy of Science, Engineering and Technology, 37: 90-92.
Zhao, J., and Zhou, L. (2011). Combined Application of Organic and Inorganic Fertilizers on Black Soil Fertility and Maize Yield. Journal of Northeast Agricultural University (English Edition), 18(2):24–29.