Al Salama, Y., Alghoraibi, I., Almola Salem, M. (2024). The Effect of Foliar Application of ZnO Nanoparticles and ZnSO4 on Improving the Growth and Production of Durum Wheat. , 14(1), 1-11. doi: 10.33794/qjas.2024.145712.1154
yasser J Al Salama; Ibrahim Alghoraibi; Muhammad Abdulrzak Almola Salem. "The Effect of Foliar Application of ZnO Nanoparticles and ZnSO4 on Improving the Growth and Production of Durum Wheat". , 14, 1, 2024, 1-11. doi: 10.33794/qjas.2024.145712.1154
Al Salama, Y., Alghoraibi, I., Almola Salem, M. (2024). 'The Effect of Foliar Application of ZnO Nanoparticles and ZnSO4 on Improving the Growth and Production of Durum Wheat', , 14(1), pp. 1-11. doi: 10.33794/qjas.2024.145712.1154
Al Salama, Y., Alghoraibi, I., Almola Salem, M. The Effect of Foliar Application of ZnO Nanoparticles and ZnSO4 on Improving the Growth and Production of Durum Wheat. , 2024; 14(1): 1-11. doi: 10.33794/qjas.2024.145712.1154

The Effect of Foliar Application of ZnO Nanoparticles and ZnSO4 on Improving the Growth and Production of Durum Wheat

Al-Qadisiyah Journal For Agriculture Sciences
Volume 14, Issue 1, June 2024, Pages 1-11    PDF (810.7 K)
Document Type: Research Paper
DOI: 10.33794/qjas.2024.145712.1154
Authors
yasser J Al Salama* 1; Ibrahim Alghoraibi* 2; Muhammad Abdulrzak Almola Salem* 3
1Al Furat University ACSAD
2Department of Physics, Faculty of Science,Damascus University, Syria.
3Faculty of Agriculture - Al-Furat University - Syria
Abstract
A factorial experiment was carried out by foliar application of zinc in two forms zinc sulphate (ZnSO4) and zinc oxide nanoparticles (ZnO NPs) prepared from aqueous zinc acetate using a wet chemistry method, which were characterized using an atomic force microscope (AFM) as having dimensions of 40-80 nanometres. The foliar of two zinc forms were applied in three concentrations (25, 50 and 100 ppm) in addition to distilled water with the aim of studying their effect on the growth and productivity of durum wheat plants ( Triticum durum, L var. Sham 7) grown under the conditions of Deir Ez-Zor Governorate-Syria. The results showed that adding zinc had a significant effect on all tested morphological indicators (plant heights - chlorophyll - number of branches/plant - number of spikes /plant) and productivity (1000 kernel weight, grain and straw productivity), as well as the grain content of some elements (nitrogen, phosphorus, potassium and zinc). The treatments for adding zinc oxide nanoparticles were significantly superior to those of zinc sulphate in all tested indicators. as the lowest values for the tested indicators were recorded in the regular zinc sulphate treatment at a concentration of 25 ppm compared to the rest of the treatments except for the control treatment, while the Nano zinc oxide treatments at a concentration of 50 and 100 ppm showed superiority significantly in all studied indicators especially in increasing wheat productivity by 24- 26%, compared to the control treatment.
Keywords
: Wheat; Foliar; Zinc oxide nanoparticles; Zinc sulphate
References
  1. Mehrotra A, Nagarwal RC, Pandit JK (2010). Fabrication of Lomustine Loaded Chitosan Nanoparticles by Spray Drying and in Vitro Cytostatic Activity on Human Lung Cancer Cell Line L132. J Nanomedic Nanotechnolo 1: 103. DOI:10.4172/2157-7439.1000103
  2. Al-Younis, Abdel Hamid Ahmed. 1992. Production and improvement of field crops. Ministry of Higher Education and Scientific Research. University of Baghdad. p.p. 469.
  3. Tony, W.( 2006). Growing Food. A Guide to food production. Pp:333. DOI:1007/978-1-4020-49750
  4. Abdul, Karim Saleh. 1988. Physiology of nutrients in plants. Ministry of Higher Education and Scientific Research. Saladin University.
  5. Brayan, C. 1999. Foliar fertilization secrets of success proc symp "Byond foliar application"10-14June, Adelaid. Australia. Publ. Adelaid Univ..pp:30-36.
  6. Joly , C. 1993. Mineral fertilizers : Plant nutrient content , formulation an efficiency cited by R. Dudal and R. N. Roy. 1995. Integrated plant nutritionsystem F. A. O. pp: 267-280. https://www.fao.org/3/v5250e/v5250e.pdf
  7. Davarpanah, s ;Tehranifar, A ;Davarynejad, G ;Abadia, J ;Khorasani, R. (2016).Effects of Foliar applications of Zinc and boron nano-Fertililzers on pomegranate (punica grntumcr.Ardestani) Fruit yield and quality. sci. Hort., 210, 57-64. DOI:1016/j.scienta.2016.07.003
  8. Al-Ameri, Baydaa Hassan Alwan 2001. Behavior and efficiency of some zinc fertilizers in calcareous soils. Master's degree, Faculty of Agriculture. Baghdad University.https://www.researchgate.net/publication/326914341
  9. Mukhopadhyay, S.S.(2014).Nanotechnology in agriculture: prospects and constraints. Nanotechnology, Science and Applications, 7: 63-71. doi: 2147/NSA.S39409
  10. Afshar, I, Rahimihaghighi A., Shiraz M., (2014). comparison the effects of spraying different amounts of nano zincoxide and zinc oxide on wheat .International journal of Advanced Biological and Biomedical Research. 2(4):318-325. http://www.ijabbr.com.
  11. Mahmoud, R. Sofy, Abd El-Monem M. A. Sharaf, Abdelatty, I. Nowwar. (2017). Biochemical changes in plant growth in response to Zn nanoparticles International Journal of Innovative Science, Engineering & Technology,. 4(11) :125-146. https://www.ijiset.com
  12. Reuter,D.J. and J.B. Robinson. 1997. Plant analysis: An interpretation manual (2nd edition). CSIRO publ.,Australia.https://www.vgls.vic.gov.au/client/en_AU/vgls/search/detailnonmodal?qu=D.+Robinson.&d=ent%3A%2F%2FSD_ILS%2F0%2FSD_ILS%3A119164%7EILS%7E0&ic=true&ps=300
  13. Rashid, A. 1986. Mapping Zinc fertility of soil using indicator plant and soil analysis. Ph. D Dessrtation. University of Hawaii, HI, USA. http://www.sciepub.com/reference/37833
  14. Van Schouwenberg, J.C. and I. Walinga. 1967. The rapid determination of phosphorus in presence of arsenic, silicon and germanium. Anal. Chim. Acta. 37: 271-274. https://doi.org/10.1016/S0003-2670(01)80671-1
  15. Rubaye,Baqer Challab Hadi and Salam Hassan Ali. (2011). The effect of foliar spraying and cultivation method on the growth and yield of tomato plant, Polyana variety, grown in greenhouses, ORAC Journal of Scientific Research. 4(1):25-42 .https://scholar.google.com/citations?user=ogtEGEcAAAAJ&hl=en
  16. Rubaye,Baqer Challab Hadi, Jassim Abu Talisha, and Hakam Karim Adani. (2011). The effect of foliar nutrients and cultivation method on the growth and yield of Cucumis sativus L. Rami cucumber plants grown in greenhouses. Al-Qadisiyah Journal of Agricultural Sciences.1(1):42-51. https://www.iasj.net/iasj/pdf/ea76d9116a6cb8e5
  17. El-Moniem,E.A and A.A.Abd-Allah.(2008).Effect of green algae cells extract as foliar spray on vegetative growth yield andberries quality of superior grapevines. J. Agric and Environ Sci.4(4):427-433. https://www.idosi.org/aejaes/jaes4(4)/5.pdf
  18. Pullagurala, V.L.R.; Adisa, I.O.; Rawat, S.; Kalagara, S.; Hernandez-Viezcas, J.A.; Peralta-Videa, J.R.; Gardea-Torresdey, J.L. 2018. nO nanoparticles increase photosynthetic pigments and decrease lipid peroxidation insoilgrowncilantro (Coriandrumsativum). Plant. Physiol. Biochem. 132,120–127.https://pubmed.ncbi.nlm.nih.gov/30189415/
  19. Garcia, J. E., Maroniche, G., Creus, C., Suárez-Rodríguez, R., Ramirez-Trujillo, J. A., & GroPpa, M. D.(2017). In vitro PGPR properties and osmotic tolerance of different Azospirillum native strains and their effects on growth of maize under drought stress. MicrobiologicalResearch,202,21–29.https://doi.org/10.1016/j.micres.2017.04.007.
  20. Armin, M., Akbari, S., & Mashhadi, S. (2014). Effect of time and concentration of nano-Fe foliar aPplication on yield and yield components of wheat. International Journal of Biosciences (IJB), 6655, 69–75. https://doi.org/10.12692/ijb/4.9.69-75.
  21. Babaei, K., Sharifi, R. S., Pirzad, A., & Khalilzadeh, R. (2017). Effects of bio fertilizer and nano zn-fe oxide on physiological traits, antioxidant enzymes activity and yield of wheat (Triticum aestivum l.) under salinity stress. Journal of Plant Interactions, 12(1), 381–389. https://doi.org/10.1080/17429145.2017.1371798.
  22. Dapkekar, A., Paresh D., Manoj D. Oak, Kishore M. Paknikar &Jyutika M. Rajwade. (2018). Zinc use efficiency is enhanced in wheat through nanofertilization Scientific Reports 8:(6832): 1-7.https://www.nature.com/articles/s41598-018-25247-5
  23. A, M. Rizwanb, M. Kashifa, A. Shahzada, S. Alib, N. Amina, R. Zahida, M. F. E. Alama, M. Imran. (2018).Effect Of Zinc Oxide Nanoparticles On The Growth And Zn Uptake In Wheat(Triticum aestivum L.) by seed priming method. digest journal of nanomaterials and biostructures 13 (1) : 315 – 323.https://www.chalcogen.ro/315_MunirT.pdf
  24. Du, W.; Yang, J.; Peng, Q.; Liang, X.; Mao, H.(2019). Comparison study of zinc nanoparticles and zinc sulphate on wheat growth: From toxicity and zinc biofortification. Chemosphere, 227, 109–116.DOI:1016/j.chemosphere.2019.03.168
  25. Abd El-Aziz, G.H., Ahmed, S.S., Radwan, K.H., Fahmy, A.H. (2022) Positive and negative environmental effect of using zinc oxide nanoparticles on wheat under drought stress. Open Journal of Applied Sciences, 12, 1026-1044. DOI: https://doi.org/10.4236/ojapps.2022.126070
  26. Ali, Nooruldeen. S. and B.H. A. AlAmery,.2015. Agronomic efficiency of ZnDTPA and boric acid fertilizers applied to calcareous Iraqi soil .The Iraqi J. Agric. Sc. 46(6):1117-1122.https://archive-jcoagri.uobaghdad.edu.iq/wp-content/uploads/sites/8/uploads/Latest%20Issue/2015/6/25.pdf
  27. Slman, Isam S .(2017). Effect of Interrelationship Between Some Wheat Varieties and Nitrogen Fertilization On Zinc Uptake .Ph.D. Dissertation, College of Agric., Univ. of Baghdad,pp130.https://www.iasj.net/iasj/article/149534
  28. Khaghani, S., & Ghanbari, B. (2016). Microwave Synthesis of Fe2O3 and ZnO Nanoparticles and Evaluation Its APplication on Grain Iron and Zinc Concentrations of Wheat (Triticum aestivum L.) and their Relationships to Grain Yield. Journal of Nanostructures, 6(2), 149-155. https://doi.org/10.7508/jns.2016.02.007.
  29. Al-Juthery, H. W. A., Hardan, H. M., Al-Swedi, F. G. A., Obaid, M. H., & AlShami, Q. M. N. (2019). Effect of foliar nutrition of nano-fertilizers and amino acids on growth and yield of wheat. IOP Conference Series: Earth and Environmental Science, 388(1). https://doi.org/10.1088/17551315/388/1/012046.
  30. Dey, K, J., Das, S. & Mawlong, L. G. (2018). Nanotechnology and its Importance in Micronutrient Fertilization. Int. J. Curr. Microbiol. APpl. Sci. 7, 2306–2325. https://doi.org/10.20546/ijcmas.(2018).705.267.
  31. Yasser, A. M. Abdulhady1, Hanan, H. Abdel- Kader, Saleh, A. L..(2018). Effect of Treated Irrigating Water by Iron Nanoparticles and (MINP) Coated with (NPK) as Foliar Nano-Fertilizer on Wheat Grains (Triticum aestivium L.) Yields (El Fayum-Egypt).Australian Journal of Basic and Applied Sciences, 12(9): 146-156. DOI: 10.22587/ajbas.2018.12.9.24.
  32. Ahmed, A.M., Mostafa, M.R., Wael, M.S., Eman, E.B., Wail, M.O., Hatim, M.A. and Esmat, F. (2021). Foliar Nourishment with Different Zinc-Containing Forms Effectively Sustains Carrot Performance in Zinc-Deficient Soil. Agronomy, 11, 1853 https://doi.org/10.3390/agronomy11091853.
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