Response of Seed Yield, Its Components and Leaf Area Index of Spring Corn to Consume Vermicompost and Iron Nano fertilizer
Subject Areas : Journal of Crop Nutrition Science
Najmeh
Razmandeh
1
(Msc. Graduated, Department of Agronomy, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.)
Saeed
Zakernejad
2
(Department of Agronomy, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.)
Khoshnaz
Payandeh
3
(Department of Soil Science, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.)
Keywords: Organic farming, <i> Zea mays, Micro elements </i>,
Abstract :
BACKGROUND: Organic farming has emerged as important priority area globally in view of growing demand for safe and healthy food and long term sustainability and concerns on environmental pollution associated with indiscriminate use of agrochemicals. Nano fertilizers can be easily absorbed by crops and may exhibit a prolonged effective duration of nutrient supply in soil/crop compared to the conventional fertilizers. OBJECTIVES: Evaluate effect of different level of vermicompost and Nano iron fertilizer on seed yield, its components and leaf area index. METHODS: Current research was carried out via split plot experiment based on randomized complete blocks design with three replications along 2018 year Main plot included three level of vermicompost (V0: nonuse of vermicompost or control, V1: 5 t.ha-1 vermicompost, V2: 10 t.ha-1 vermicompost) was consumed at planting stage. Also subplots consisted four level of Nano iron fertilizer (F0: Nonuse of Nano iron fertilizer or control, F1: 0.002 L.ha-1, F2: 0.004 L.ha-1 and F3: 0.006 L.ha-1 Nano iron fertilizer) was used at 3 to 4 leaves stage. RESULT: According result of analysis of variance effect of different level of vermicompost and Nano iron fertilizer on all measured traits was significant at 1% probability level also interaction effect of treatments (instead biologic yield) was significant at 5% probability level. Mean comparison result of interaction effect of treatments indicated the maximum amount of number of rows per ear (20), number of seed per row (49), 1000 seeds weight (545 gr), seed yield (6000 gr.m-2), biological yield (1939 gr.m-2), harvest index (30%) and leaf area index (5.81) belonged to 10 t.ha-1 vermicompost with 0.006 L.ha-1 iron Nano fertilizer, also lowest amount of measured traits was for nonuse of vermicompost and iron Nano fertilizer or control treatments. CONCLUSION: Consume 10 t.ha-1 vermicompost with 0.006 L.ha-1 iron Nano fertilizer led to achieve highest amount of yield, its components, harvest index and leaf area index and can be advice to farmers.
Amyanpoori, S., M. Ovassi. and E. Fathinejad. 2015. Effect of vermicompost and triple superphosphate on yield of corn. J. Exp. Biol. Agri. Sci. 3(5): 494-499.
Anwar, M., D. Patra, S. Chand, K. Alpesh, A. Naqvi. and S. Khanuja. 2005. Effect of organic manures and inorganic fertilizer on growth, herb and oil yield, nutrient accumulation, and oil quality of French basil. Comm. Soil Sci. Plant Anal. 36: 1737-1746.
Atiyeh, R. M., S. Subler, C. A. Edwards, G. Bachman, J. D Metzger. and W. Shuster. 2000a. Effects of vermicompost and composts on plant growth horticultural container media and soil. J. Pedobiology. 44(5): 579-590.
Atiyeh, R. M., N. Q. Arancon, C. A. Edwards. and J. D. Metzger. 2000b. Influence of earthworm-processed pig manure on the growth and yield of greenhouse tomatoes. Bio-Res. Tech. J. 75: 175-180.
Barker, A. V. and D. J. Pilbeam. 2006. Handbook of Plant Nutrition. CRC Press. ISBN: 9780824759049.
Bar-Tal, A., U. Yermiyahu, J. Beraud, M. Keinan, R. Rosenberg, D. Zohar, V. Rosen. and P. Fine. 2004. Nitrogen, phosphorus, and potassium uptake by wheat and their distribution in soil following successive, annual compost applications. J. Environ. Quality. 33: 1855-1865.
Bevacqual, R. F. and V. J. Mellama. 1993. Sewage sludge compost's cumulative effects on crop growth and soil properties. Compost Sci. Utilization. pp. 34-37.
Bybordi, A. and G. Mamedov. 2010. Evaluation of application methods efficiency of zinc and iron for canola. Notulae Scientia Biologicale. 2(1): 94-103.
Cavender, N., R. Atiyeh. and M. Knee. 2003. Vermicompost stimulates mycorrhizal colonization of roots of sorghum bicolor at the expense of plant growth. Pedobiologia. J. 47: 85-89.
De Rosa, M. C., C. Monreal, M. Schnitzer, R. Walsh. and Y. Sultan. 2010. Nanotechnology in fertilizers. J. Nature Nano-Tech. 5(2): 91-91.
Ebrahimian, E. and A. Bybordi. 2011. Effect of iron foliar fertilization on growth seed and oil yield of sunflower grown different irrigation regimes. Middle East J. Sci. Res. 9(5): 621-627.
Eftekhari, S., A. Akbari, A. Fallah Nosrat abadi, A. Mohaddesi. and C. Dadi. 2006. Effect of phosphate solubilizing rhizobacteria in compare different levels of phosphate fertilizer on yield of rice. 9th Cong. Agron. Sci. Plant Breed. Tehran Univ. (Abstract in English)
Enyisi, I. S., V. J. Umoh, C. M. Z. Whong, I. O. Abdullahi. and O. Alabi 2014. Chemical and nutritional value of maize and maize products obtained from selected markets in Kaduna State, Nigeria. African J. Food Sci. Tech. 5(4): 100-104.
Food and Agriculture Organization. 2014. Statistics. Available at fallowing:
Gardner, F. P., R. B. Pearce. and R. L. Mitchell. 1985. Physiology of crop plants. Ames, IA: Iowa State Univ. Press. USA. 121 pp.
Ghazvineh, S. and M. Yousefi. 2012. Study the effect of micronutrient application on yield and yield components of maize. American-Eurasian J. Agric. Environ. Sci. 12 (2): 144-147.
Ghosh, D. and M. Mohiuddin. 2000. Response of summer sesame (Sesamum indicum L.) to biofertilizer and growth regulator. Agri. Sci. 20(2): 90-92.
Hernandez, O. L., A. Calderín, R. Huelva, D. Martínez-Balmori. and F. Guridi. 2015. Humic substances from vermicompost enhance urban lettuce production. Agron. Sust. Develop. Springer Verlag EDP Sciences INRA. 35(1): 225-232.
Jabeen, N. and R. Ahmad. 2017. Growth response and nitrogen metabolism of sunflower to vermicompost and biogas slurry under salinity stress. J. Plant. Nutri. 40(1): 104-114.
Janmohamadi, M., T. Amanzadeh, N. Sabaghnia. and Sh. Dashti. 2016a. Impact of foliar application of Nano micronutrient fertilizers and titanium dioxide nanoparticles on the growth and yield components of barley under supplemental irrigation. J. Acta Agric. Slovenica. 107(2): 265-276.
Joshi, R., S. Jaswinder. and A. Pal Vig. 2014. Vermicompost as an effective organic fertilizer and bio control agent: effect on growth, yield and quality of plants. Rev. Environ. Sci. Bio-Tech. pp. 1-23.
Maghsudi, E., A. Ghalav and and M. Aghaalikhani. 2012. The effect of different levels of fertilizer (Organic, biological and chemical) on morphological traits and yield of maize single cross hybrid 704. Agron. J. Pajouhesh and Sazandegi. 104: 129-135.
Malakooti, M. J. and S. J. Tabataei. 1998. Plant feeding by foliar application. Agri. Educate. Pub. Karaj. Iran.
Malakouti, M. J. 2008. The effect of micronutrient in ensuring efficient use of macronutrient. Turk. J. Agric. For. 32: 215-220.
Marschner, H. 1995. Mineral nutrition of higher plant. Academic Press. New York. USA. pp. 890.
Mousavi, S., M. Bahmanyar, H. Pirdashti, S. Gillani, F. Firouzi. and O.Ghasempour. 2009. Investigation the influence of vermicompost alone and enriched on some agronomic properties of rice at flowering stage. In: Proceeding of the 11th Natl. Soil Sci. Cong. Gorgan. Iran. pp: 1359-1361.
Naderi, M., A. A. Danesh Shahraki. and R. Naderi. 2011. Application of Nano-Technology in the optimization of formulation of chemical fertilizers. Iran J. Nano-Tech. 12: 16–23.
Naderi, M. R. and A. Danesh-Shahraki. 2013. Nano fertilizers and their roles in sustainable agriculture. Intl. J. Agric. Crop Sci. 5(19): 2229-2232.
Nadi, M. and A. Golchin. 2011. Effects different vermicompost on growth and chemical composition of pistachio seedlings. J. Res. Agri. Sci. 7(1): 59-69.
Nair, R., S. H. Varghese, B. G. Nair, T. Maekawa, Y. Yoshida. and D. S. Kumar. 2010. Nano particulate material delivery to plants. J. Plant Sci. 179(3): 154-163.
Nazari, M., H. Shariatmadari, M. Afyuni, M. Mobli. and S. Rahili. 2006. Effect of utilization leachate and industrial sewage sludge on concentration of some nutrient and yield of wheat, barley and corn. J. Sci. Tech. Agri. Natural Res. 10(3): 97-110.
Rameshaiah, G. N. and S. Jpallavi. 2015. Nano fertilizers and Nano sensors–an attempt for developing smart agriculture. Intl. J. Eng. Res. General Sci. 3(1): 314-320.
Sainz, M., M. Taboada-Castro. and A. Vilarino. 2008. Growth mineral nutrition and mycorrhizal colonization of red clover and cucumber plants grown in a soil amended with composted urban wastes. J. Plant and Soil. 205: 85-92.
Scott, N. and H. Chen. 2003. Nano-scale science and engineering for agriculture and food systems. A Report Submitted to Cooperative State Research, Education and Extension Service. USDA. Natl. Planning Workshop. Washington. USA.
Sheykhbaglou, R., M. Sedghi, M. Tajbakhsh shishevan. and R. Sharifi. 2010. Effects of nano iron oxide particles on agronomic traits of soybean. Notulae Sci. Biologicae. 2(2): 112-113.
Singh, S. 2000. Effect of Fe, Zn on growth of canola. Environ. Sci. 34(1-2): 57-63.
Sinha, R., V. Dalsukh, C. Krunal. and A. Sunita. 2010. Embarking on second green revolution for sustainable agriculture by vermin culture biotechnology using earthworms: Reviving the dreams of Sir Charles Darwin. J. Agri. Biotech. Sust. 2(7): 113-128.
Song, U., M. Shin, G. Lee, J. Roh, Y. Kim. and E. J. Lee. 2013. Functional analysis of TiO2 nanoparticle toxicity in three plant species. J. Biol. Trace Element Res. 155(1): 93-103.
Stancheva, I. and I. Mitova. 2002. Effects of different sources and fertilizer rates on the lettuce yield and quality under controlled conditions. Bulg. J. Agri. Sci. 8: 157-160.
Subramanian, K. S., A. Manikandan, M. Thirunavukkarasu. and C. Sharmila Rahale. 2015. Nano-fertilizers for balanced crop nutrition. In: M. Rai, C. Ribeiro, L. Mattoso, N. Duran. Nano-Technologies in Food and Agriculture. Springer. Pub. Switzerland. pp: 69-80.
Sujatha, M., B. Lingaraju, Y. Palled. and K. Ashalatha. 2008. Importance of integrated nutrient management practices in maize under rain fed condition. Karnataka J. Agri. Sci. 21: 334-338.
Talaei, Gh. 2012. Effect of bio and chemical fertilizers on yield and yield components of Cumin. MSc Thesis. Shahed Univ. Tehran. Iran.
Venkatash-Warlu, B. 2008. Role of bio-fertilizers in organic farming: Organic farming in rain fed agriculture: Central institute for dry land agriculture. Hyderabad. Pakistan. pp: 85-95.
Welch, R. M. and Graham, R. D. 2002. Breeding crops for enhanced micronutrient content. J. Plant Soil. 245: 205-214.
Wiesner, M. R., G. V. Lowry, P. Alvarez, D. Dionysion. and P. Biswas. 2006. Assessing the risks of manufactured Nano-materials. J. Environ. Sci. Tech. 40: 4336-4345.
Zayed, B. A., A. K. M. Salem. and H. M. Sharkawy. 2011. Effect of different micronutrient treatments on rice growth and yield under saline soil conditions World J. Agric. Sci. 7(2): 179-184.
Zhang, F., R. Wang, Q. Xiao, Y. Wang. and J. Zhang. 2006. Effects of controlled release fertilizer cemented and coated by Nano materials on biology. J. Nano Sci. 11: 18-26.
Zhang, J., M. Wang, L. Wu, J. Wu. and C. Shi. 2008. Impacts of combination of foliar iron and boron application on iron bio-fortification and nutritional quality of rice grain. J. Plant Nutr. 31: 1599-1611.