The aim of this work was investigating the accumulation of the element's contents in plant leaves using magnetized and non-magnetized water for irrigation. Sunflower and tomato were irrigated using magnetized water conducted with magnetic field in the range of 250 mT and irrigate with normal water for comparison in an open land. The measurement of elements was performed using atomic absorption spectroscopy to identify the levels of Calcium, Iron, Potassium and Zinc in the leaves of the plants under survey. The results are evaluated using different statistical methods from data obtained to assess the levels of elements enhanced in these leaves. The leaf elements quantity in plants treatment with a magnetic field has a significant impact on plant yield and food quality.
Dhawi F. Why magnetic fields are used to enhance a plant’s growth and Productivity. Annual Research & Review in Biology Sciencedomain International 2014; 4(pt.6): 886-896.
Sadeghipour O, Aghaei P. Improving the growth of cowpea (Vignaunguiculata L. Walp.) by magnetized water. Journal of Biodiversity and Environmental Sciences 2013; 3(pt. 1): 37-43.
El Sayed H, El Sayed A. Impact of magnetic water irrigation for improvethe growth, chemical composition and yieldproduction of broad bean (Viciafaba L.) Plant. American Journal of Experimental Agriculture, Sciencdomain International 2014; 4(pt.4): 476-496.
Nagy I, Georgescu R, Balaceanu L. et al. Effects of pulsed variable magnetic fields over plant seeds. Romanian Journal of Biophysics 2005; 15: 133-139.
De Souza A, García D, Sueiro L, Licea L, Porras E.. Pre-sowing magnetic treatment of tomato seeds: effects on the growth and yield of plants cultivated late in the season. Spanish Journal of Agricultural Research 2005; 3(pt.1): 113-122. http://dx.doi.org/10.5424/sjar/2005031-131
Dhawi F, Al-Khayri JM. Magnetic fields induce changes in photosynthetic pigments content indate Palm (Phoenix dactylifera L.) Seedlings. The Open Agriculture Journal 2009; 3: 1-5.
Goodman EM, Greenebaum B, Marron Michael T. Altered protein synthesis in a cell-free system exposed to a sinusoidal magnetic field. Biochimica Biophysica Acta 1993; 12(pt.2): 107-112. http://dx.doi.org/10.1016/0167-4838(93)90070-8
Huang H-H, Wang S-R. The effects of 60Hz magnetic fields on plant growth. Nature and Science 2007; 5(pt.1): 60-68.
Cai R, Yang H, He J, Zhu W. The effects of magnetic fields on water molecular hydrogen bonds. Journal of Molecular Structure 2009; 938: 15-19. http://dx.doi.org/10.1016/j.molstruc.2009.08.037
Rawabdeh H, Shiyab S, Shibli R. The effect of irrigation by magnetically water on chlorophyll and macro-elements uptake of pepper (Capsicum annuum L.) Jordan. Journal of Agricultural Sciences 2014; 10(pt.2): 205-214.
Pang XF, Deng B. The changes of macroscopic features and microscopic structures of water under influence of magnetic field. Physica B 2008; 403: 3571-3577. http://dx.doi.org/10.1016/j.physb.2008.05.032
Fujimura Y, Iino M. Magnetic field increases the surface tension of water. Journal of Physics Conference Series 2009; 156: 12-28. http://dx.doi.org/10.1088/1742-6596/156/1/012028
Ijaz B, Jatoi SA, Ahmad D, Masood MS, Siddiqui S. Changes in germination behavior of wheat seeds exposed to magnetic field and magnetically structured water. African Journal of Biotechnology 2012; 11: 3575-3582.
Aladjadjiyan A. Study of the influence of magnetic field on some biological characters of Zeamais. Journal of Central European Agriculture 2002; 4: 90-94.
Ahmad M, Galland P, Ritz T, Wiltschko R, Wiltschko W. Magnetic intensity affects cryptochrome–dependent responses in Arabidopsis thaliana. Planta 2007; 225-615. http://dx.doi.org/10.1007/s00425-006-0383-0
Belyavskaya NA. Biological effects due to weak magnetic field on plants. Adv Space Res 2004; 34: 1566-1574. http://dx.doi.org/10.1016/j.asr.2004.01.021
Ayrapetyan SN, Grigorian KV, Avanesian AS, Stamboltsian KV. Magnetic fields alter electrical properties of solutions and their physiological effects. Bioelectromagnetics 1994; 15: 133-142. http://dx.doi.org/10.1002/bem.2250150205
Stange BC, Rowland RE, Rapley BI, Podd JV. ELF Magnetic field increase amino acid uptake into Viciafaba L. roots and alter ion movement across the plasma membrane. Bioelectromag 2002; 33: 347-354. http://dx.doi.org/10.1002/bem.10026
Esitken A, Turan M. Alternating magnetic field effects on yield and plant nutrient element composition of strawberry (Fragaria x ananassa cv. Camarosa). Acta Agric Scand Sect B Soil and Plant Sci 2003; 54: 135-139.
Çelik Ö, Atak Ç, Rzakulieva A. Stimulation of raped regeneration by a magnetic field in Paulownia node cultures. Journal of Central European Agriculture 2008; 9(pt.2): 297-304.
Shabrangi A, Majd A. Effect of magnetic fields on growth and antioxidant systems in agricultural plants, PIERS Proceedings, Beijing, China 2009; 1142-1147.
Alexander MP, Doijode SD. Electromagnetic field, a novel tool to increase germination and seedling vigour of conserved onion [Allium cepa L.
Bilalis DJ, et al. Magnetic field pre-sowing treatment as an organic friendly technique to promote plant growth and chemical elements accumulation in early stages of cotton. Australian Journal of Corp Science 2013; 7(pt.1): 46-50.
Boe AA, Salunkhe DK. Effect of magnetic fields on tomatoes ripening. Nature 1963; 199: 91-92. http://dx.doi.org/10.1038/199091a0
Subber ARH, AbulHail RC, Jabail WA, Hussein HF. Effects of magnetic field on the growth development of Zea mays seeds, Scholars Research Library. J Nat Prod Plant Resources 2012; 2(pt.3): 456-459.
Mahmoud H, Qados AMSA. Magnetic water application for improving wheat (Triticumaestivum L.) crop production. Agriculture and Biology Journal of North America, Science-Hu? 2010; 677-682.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Copyright (c) 2015 Abdelaziz A.M. El Shokali, Abdelrazig M. Abdelbagi , M.D. Abdallah