RESPONSE OF FABA BEAN YIELD AND YIELD COMPONENTS TO DIFFERENT LEVELS OF NANO FERTILIZER

  • MOHAMAD ALI HUSSAIN Dept. of Field Crops, College of Agricultural Engineering sciences, University of Duhok, Kurdistan Region–Iraq
  • REZAN ESA MOSA Dept. of Soil and Water Science, College of Agricultural Engineering sciences, University of Duhok, Kurdistan Region–Iraq
  • MURADJAN M.M. NOORI Dept. of Soil and Water Science, College of Agricultural Engineering sciences, University of Duhok, Kurdistan Region–Iraq
Keywords: Yield, Faba Bean, Nano Fertilizer, Nitrogen, Phosphorous

Abstract

Todays, the Nano fertilizers have become apioneer approach in farm of agriculture. A field experiment wasConducted at the farm Collage of Agricultural Engineering Science, University of Duhok, during the growing winter season 2019-2020 to investigate how Nano fertilizer affects the growth and yield of a local faba bean variety, the experiment units were arranged in a Randomize Complete Block Design with three replications. The result exhibited high significant effect of phosphorus and nitrogen and their interaction on all studied traits. The application ofphosphorus and nitrogen interactions increased plant height 153.4cm, first pod height 85.9cm, main brunches 3.6, number of pod plant-1, 38.3, seed pod-1 4.6,100 seed weight 189.4g and seed yield 294.5g at rate of108 P2O5 kg ha-1. We can conclude from this study that the application of proper amount of nitrogen and phosphorus increased the most growth traits and yield components. Furthermore, the findings revealed a substantial and positive correlation among seed yield and plant height. 0.96, first pod height 0.91, number of main brunches 0.56, number of pod plant-1 0.92, number of seed pod-1 0.90 and 100 seed weight 0.91. These results emphasize the role of these traits in selection of faba genotypes when putting in breeding program for improving faba bean production.

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References

Ajirloo, A.R., Shaaban, M. and Motlagh, Z.R., 2015. Effect of K nano-fertilizer and N bio-fertilizer on yield and yield components of tomato (Lycopersicon esculentum L.). Int. J. Adv. Biol. Biom. Res, 3(1), pp.138-143.
Abdel-Salam, M., 2018. Implications of Applying Nano-Hydroxyapatite and Nano-Iron Oxide on Faba Bean (Vicia faba L.) Productivity. Journal of Soil Sciences and Agricultural Engineering, 9(11), pp.543-548.
Adak, M.S. and Kibritci, M., 2016. Effect of nitrogen and phosphorus levels on nodulation and yield components in faba bean (Viciafaba L.). Legume Research-An International Journal, 39(6), pp.991-994.
Ajirloo, A.R., Shaaban, M. and Motlagh, Z.R., 2015. Effect of K nano-fertilizer and N bio-fertilizer on yield and yield components of tomato (Lycopersicon esculentum L.). Int. J. Adv. Biol. Biom. Res, 3(1), pp.138-143.
Drostkar, E., Talebi, R. and Kanouni, H., 2016. Foliar application of Fe, Zn and NPK nano-fertilizers on seed yield and morphological traits in chickpea under rainfed condition. Journal of Resources and Ecology, 4, pp.221-228.
Farnia, A., Omidi, M.M. and Farnia, A., 2015. Effect of nano-zinc chelate and nano-biofertilizer on yield and yield components of maize (Zea mays L.), under water stress condition. Indian J Nat Sci, 5(29), p.4614.
Fouda, K.F., 2017. Effect of phosphorus level and some growth regulators on productivity of faba bean (Vicia faba L.). Egypt. J. Soil Sci, 57(1), pp.73-87.
Fujinuma, R. and Balster, N.J., 2007, January. CONTROLLED-RELEASE NITROGEN IN TREE NURSERIES1. In Proceedings of the... Wisconsin Fertilizer, Aglime and Pest Management Conference (Vol. 46, p. 60). Cooperative Extension, University of Wisconsin--Extension; College of Agricultural and Life Sciences, University of Wisconsin--Madison.
Gomaa, M.A., Kandil, E.E., Zeid, A.A. and Salim, B.M., 2016. Response of some faba bean to fertilizers manufactured by nanotechnology. J. Advances in Agric. Res, 21, pp.384-399.
Hashim, F.A., 2019. The Effects of Crude Oil Spill on Some Soil Properties of Different Sites in Duhok Governorate-Kurdistan Region of Iraq. Science Journal of University of Zakho, 7(2), pp.50-56.
Jhanzab, H.M., Razzaq, A., Jilani, G., Rehman, A., Hafeez, A. and Yasmeen, F., 2015. Silver nano-particles enhance the growth, yield and nutrient use efficiency of wheat. Int J Agron Agri Res, 7(1), pp.15-22.
Naderi, M.R. and Danesh-Shahraki, A., 2013. Nanofertilizers and their roles in sustainable agriculture. International Journal of Agriculture and Crop Sciences (IJACS), 5(19), pp.2229-2232.
RAD, H.N., SAYADI, V. and RAD, A.N., 2014. Effect of Rhizobium Bacteria (Rhizobium leguminosarum) and Nano-Iron Application on Yield and Yield Components of Different Pinto Beans Genotypes. Agricultural Communications, 2(2), pp.22-27.
Rasul, G.A.M., 2018. Effect of level combinations of nitrogen and phosphorus fertilizers on growth and yield of faba bean (Vicia faba L.) in a calcareous soil from Sulaimani province. Journal homepage, 20(1), pp.81-88.
Sadek, M.A. and Jayasuriya, H.P.W., 2007. Nanotechnology prospects in agricultural context: an overview. In Proceedings of the International Agricultural Engineering Conference, Bangkok, Thailand, 3-6 December 2007. Cutting edge technologies and innovations on sustainable resources for world food sufficiency. Asian Association for Agricultural Engineering.
SAS.com. 2021. SAS: Analytics, Artificial Intelligence and Data Management. [online] Available at: [Accessed 15 October 2021].
Shahram, S. and Peyman, S., 2016. Effect of phosphate biofertilizer and chemical phosphours on growth and yield of vicia faba L. Electronic J. Biology, 12(6), pp.230-240.
Shang, Y., Hasan, M., Ahammed, G.J., Li, M., Yin, H. and Zhou, J., 2019. Applications of nanotechnology in plant growth and crop protection: a review. Molecules, 24(14), p.2558.
Sultan, Y., Walsh, R., Monreal, C. and DeRosa, M.C., 2009. Preparation of functional aptamer films using layer-by-layer self-assembly. Biomacromolecules, 10(5), pp.1149-1154.
Tarafdar, J.C., Raliya, R., Mahawar, H. and Rathore, I., 2014. Development of zinc nanofertilizer to enhance crop production in pearl millet (Pennisetum americanum). Agricultural Research, 3(3), pp.257-262.

Vafa, Z.N., Sirousmehr, A.R., Ghanbari, A., Khammari, I. and Falahi, N., 2015. Effects of nano zinc and humic acid on quantitative and qualitative characteristics of savory (Satureja hortensis L.). International Journal of Biosciences, 6(3), pp.124-136.
Published
2021-12-14
How to Cite
HUSSAIN, M. A., MOSA, R. E., & NOORI, M. M. (2021). RESPONSE OF FABA BEAN YIELD AND YIELD COMPONENTS TO DIFFERENT LEVELS OF NANO FERTILIZER. Journal of Duhok University, 24(2), 171-176. https://doi.org/10.26682/ajuod.2021.24.2.17
Section
Agriculture and Veterinary Science