Assess Effect of Vermicompost and Iron Nano Fertilizer on Morphological Traits and Chlorophyll Content of Zea mays L.
Subject Areas : Journal of Crop Nutrition ScienceNajmeh Razmandeh 1 , Saeed Zakernejad 2 , Khoshnaz Payandeh 3
1 - Msc. Graduated, Department of Agronomy, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.
2 - Department of Agronomy, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.
3 - Department of Soil Science, Ahvaz branch, Islamic Azad University, Ahvaz, Iran.
Keywords: Nutrition, Plant height, Ear length, <i>Corn, Stem diameter</i>,
Abstract :
BACKGROUND: In organic agriculture, one management goal is to increase and maintain soil quality with a high biological activity. Organic cropping system often has to deal with a scarcity of readily available nutrients in contrast to high input cropping system which relies widely available on soluble fertilizers. Nanotechnology such as using Nano-scale fertilizer particles may offer new techniques in improving existing crop management. OBJECTIVES: Current study was carried out to assess effect of different level of vermicompost and Nano iron fertilizer on morphological characteristics, chlorophyll content and crop production of corn. METHODS: This research was conducted according split plot experiment based on randomized complete blocks design with three replications along 2018 year in research farm of Islamic Azad University of Ahvaz Branch. 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 iron Nano fertilizer on all studied traits was significant but interaction effect of treatments only on ear loss length was not significant. Assess mean comparison of interaction effect of treatments on all measured traits revealed the highest amount of seed yield (545.7 gr.m-2), plant height (273.6 cm), Stem diameter (22.67 mm) ear length (26.73 cm), ear diameter (67.57 mm) and Chlorophyll index (2.951 spad) were noted for V2F3 treatment and lowest amount of mentioned traits belonged to control. CONCLUSION: Use 10 t.ha-1 vermicompost with 0.006 L.ha-1 iron Nano fertilizer led to produce the highest amount of crop production, morphological traits and chlorophyll content and can be advice to farmers.
Abbas, G., M. Khan, Q. Khan, M. J. Hussain. and I. Hussai. 2009. Effect of iron on the growth and yield contributing parameters of wheat (Triticum aestivum L.). J. Anim. Plant Sci. 19: 135-139.
Amanullah, M. M., J. Archana,S. Manoharan. and K. S. Subramanian. 2012. Influence of iron and AM inoculation on metabolically active iron, chlorophyll content and yield of hybrid maize in calcareous soil. J. Agron. 11: 27–30.
Amyanpoori, S., M. Ovassi. and E. Fathinejad. 2015. Effect of vermicompost and triple superphosphate on yield of corn (Zea mays L.). J. Exp. Biol. Agri. Sci. 3(5): 494-499.
Aram, Sh., A. Faramarzi, M. Farbodi. and M. B. Khorshidibenam. 2009. Effect of manure levels and planting date on yield and yield components of sweet corn in middle region. J. Agri. Sci. 3(12): 1-11. (Abstract in English)
Azarmi, R., M. T. Giglou. and R. D. Taleshmikail. 2008. Influence of vermicompost on soil chemical and physical properties in tomato (Lycopersicum esculentum) field. African J. Biotech. 7(14): 2397-2401.
Bybordi, A. and G. Mamedov. 2010. Evaluation of application methods efficiency of zinc and iron for canola (Brassica napus L.). Notulae Scientia Biologicale. 2(1): 94-103.
Darzi, M. T., M. R. Hadjseyed Hadi. and F. Rejali. 2011. Effects of vermicompost and phosphate biofertilizer application on yield and yield components in Anise (Pimpinella anisum L.). Iranian J. Medicinal Aromatic Plants. 26(4): 454-565. (Abstract in English)
Fernandez, V., I. Orera, J. Abadia. and A. Abadia. 2009. Foliar iron-fertilization of fruit trees, present knowledge and future perspectives: A review. J. Horti Sci. Bio. 84: 1-6.
Ghorbani, S., B. N. Khiabani, I. Amini, M. R. Ardakani, H. Pirdashti. and S. R. Habib, M. 2009. Effect of foliar application of Zn and Fe on wheat yield and quality. Afri. J. Bio-Tech. 8: 6795-6798.
Jin, Z.,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. J. Plant Nutr. 31: 1599–1611.
Joseph, T. and M. Morrisson.2006. Nano forum, Nanotechnology in agriculture and food. Euro. Nano Tech. Gateway.
Khosrojerdi, M., Sh. Shahsavani, M. Gholipor. and H. R. Asghari. 2013. Effect of Rhizobium inoculation and mycorrhizal fungi on some nutrient uptake by chickpea at different levels of iron sulfate fertilizer. Electronic J. Crop Prod. 6(3): 71-87.
Koozehgar Kaleji, M. and M. R. Ardakani. 2017. The application of organic and biological fertilizers on quantitative and qualitative yield of Spear Mint. J. Appl. Res. Plant Eco-Physiol. 4(1): 157-172. (Abstract in English)
Liscano, J. F.,C. E. Wilson,R. J. Norman. and N. A.Slaton. 2000. Zinc availability to rice from granular fertilizers. AAES Res. Bulletin. 963: 1–31.
Liu, X. M., F. D. Zhang, S. Q.Zhang,X. S. He, R. Fang Feng. and Z. Y. Wang. 2005. Effects of nano-ferric oxide on the growth and nutrients absorption of peanut. Plant Nutr. Fert. Sci. J. 11:14-18.
Nazari, M., H. Shariatmadari, M. Af yuni, 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.
Naseri, R., M. J. Barary, Zarea, K. Khavazi. and Z. Tahmasebi. 2016. Effect of phosphate solubilizing bacteria and Mycorrhizal fungi on agronomic important traits in two wheat cultivars under dryland conditions. J. Agro-Ecol. 1(3): 11-20. (Abstract in English)
Paino, V., J. P. Peillex, O. Montlahuc, A. Cambon. and J. P. Bianchini. 1996. Municipal tropical compost: Effects on crops and soil properties. J. Compost Sci. Utilization. 4(2): 62-69.
Prasad, T. N. V.,K. V. P. Sudhakar, Y. Sreenivasulu, P. Latha, V. Munaswamy, K. Raja Reddy, T. S. Sreeprasad, P. R. Sajanlal. and T. Pradeep. 2012. Effect of Nano scale zinc oxide particles on the germination, growth and yield of peanut. J. Plant Nutr. 35(6): 905-927.
Roknil, A. 2013. Evaluation effect of different level of cow manure on corn production. Second Symp. Assessment role of vermicompost to achieve Sustainable Agriculture. pp: 19-24.
Safyan, N.,M. Naderi, M. Shams. and H. Darkhal. 2011. Assess Nutrition of Microbial Leaves on Growth and Yield of Corn (S.C 302) in Isfahan Region. 1st Conf. Modern Topics Agri. 111 pp.
Sajadi Nic, R., A. R. Yadavy, H. R. Baluchi. and H. Faraji. 2011. Effect of chemical fertilizers (urea), organic manure (vermicompost) and biological (Nitroxin) on yield and quality of sesame. Knowledge Sust. Agri. (Agri. Sci.). 21(2): 87-101. (Abstract in English)
Schonherr, J., V. Fernandez. and L. Schreiber. 2005. Rates of cuticular penetration of chelated Fe+3, Role of humidity, concentration, adjuvants, temperature and type of chelate. J. Agri. Food Chem. 53: 4484-4492.
Sharda Waman, M. K. and R. Bernard Felinov. 2009. Studies on effects of arbuscular mycorrhizal (Am) fungi on mineral nutrition of Carica papaya L. Notulae Botanicae Horti Agrobotanici Cluj-Napoca. 37: 183-186.
Sheykhbaglou, R., M. Sedghi, M. Tajbakhsh shishevan. and S. R. Sharifi. 2010. Effects of Nano iron oxide particles on agronomic traits of soybean. Notulae Sci. Bio. J. 2: 112-113.
Singh, S. 2000. Effect of Fe, Zn on growth of canola. Environ. Sci. 34(1-2): 57-63.
Song, H. 2005. Effects of vam on host plant in the condition of drought stress and its mechanisms. Electronic J. Biol. 1(3): 44-48.
Szulc, P. 2013. Effects of soil supplementation with urea and magnesium on nitrogen uptake, and utilization by two different forms of maize (Zea mays L.) differing in senescence rates. Polish J. Environ. Studies. 22: 239-248.
Tahmasbi, D., R. Zarghami, A. V. Azghandi. and M. Chaichi. 2011. Effects of nano silver and Nitroxin biofertilizer on yield and its components of potato. Intl. J. Agric. Biol. 13: 986–990.
Welch, R. M. and R. D. Graham. 2002. Breeding crops for enhanced micronutrient content. Plant Soil. 245: 205–214. Yip P, 1997. Submitted to the faculty of graduate studies in partial fulfillment of the degree of Master of Arts. M.Sc. Thesis. Calgary, Alberta, Canada.
Zeidan, M. S., F. Manal. and H. A. Hamouda. 2010. Effect of foliar fertilization of Fe, Mn and Zn on wheat yield and quality in low sandy soils fertility. World J. Agri. Sci. 6: 696-699.
Zhu, H. and Y. Han. 2008. Uptake, translocation, accumulation of manufactured iron oxide nanoparticles by pumpkin plants. J. Environ. Monit. 10: 713-717.