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Effects of magnetic field irradiation on broccoli seed with accelerated aging

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Wpływ działania pola magnetycznego na przyspieszenie starzenia się nasion brokuła
Języki publikacji
In order to improve the physiological quality of aged broccoli seed (Brassica oleracea var. Waltham29), in this study a variable magnetic field (VMF) of 3.6 mT, 60 Hz by 5min was used as pre-sowing treatment. The accelerated aging treatment was applied for 0, 48 and 72 h (AA0h, AA48h and AA72h) and then the VMF treatment, under a randomised complete block design with 4 replications of 30 seeds. For seeds aged for 72 h a final germination of 20% was obtained, whereas without magnetic stimulation it was null. However, the magnetic bio-stimulation in 48 h aged seeds was significantly negative, reducing the final germination by 45.83% compared to the treatment without magnetic field, while the VMF effects in unaged seed were zero. The variable magnetic field effects depended on the seed aging time, resulting in positive, negative and null outcomes (responses) in vigour variables.
W celu uzyskania poprawy właściwości fizjologicznych nasion brokuła (Brassica oleracea var. Waltham 29) poddanych przyspieszonemu starzeniu, zastosowano przedsiewne zmienne pole magnetyczne (VMF) o wartości 3,6 mT, 60 Hz przez 5 min. Proces przyspieszonego starzenia prowadzono przez 0, 48 and 72 h (AA0h, AA48h i AA72h), po czym nasiona poddawano działaniu VMF. Badanie prowadzono metodą bloków losowych w 4 powtórzeniach po 30 nasion. Przyspieszone starzenie przez 72 godziny spowodowało wzrost wskaźnika kiełkowania nasion o 20%, podczas gdy dla próby bez działania pola magnetycznego wynik był zerowy. W przypadku nasion poddanych starzeniu przez 48 godzin efekt stymulacji magnetycznej był negatywny, powodując spadek końcowego wskaźnika kiełkowania o 45,83% w porównaniu do wariantu bez pola magnetycznego. Dla nasion niepoddawanych starzeniu wpływ działania VMF był zerowy. Wpływ działania zmiennego pola magnetycznego na nasiona był uzależniony od czasu starzenia nasion, powodując pozytywne, negatywne lub zerowe zmiany w wartościach wskaźników ich wigoru.
Opis fizyczny
  • Professional Unit 'Adolfo Lopez Mateos', National Polytechnic Institute, SEPI-ESIME "Zacatenco", Col.Lindavista, Mexico D.F., C.P.07738 Mexico
  • Professional Unit 'Adolfo Lopez Mateos', National Polytechnic Institute, SEPI-ESIME "Zacatenco", Col.Lindavista, Mexico D.F., C.P.07738 Mexico
  • Professional Unit 'Adolfo Lopez Mateos', National Polytechnic Institute, SEPI-ESIME "Zacatenco", Col.Lindavista, Mexico D.F., C.P.07738 Mexico
  • Professional Unit 'Adolfo Lopez Mateos', National Polytechnic Institute, SEPI-ESIME "Zacatenco", Col.Lindavista, Mexico D.F., C.P.07738 Mexico
  • Professional Unit 'Adolfo Lopez Mateos', National Polytechnic Institute, SEPI-ESIME "Zacatenco", Col.Lindavista, Mexico D.F., C.P.07738 Mexico
  • Afzal I., Mukhtar K., Qasim M., Basra S.M.A., Shahid M., Haq Z., 2012. Magnetic stimulation of marigold seed. Int. Agrophysics, 26, 335-339.
  • Aksyonov S.I., Bulychev A.A., Grunina T.Y., Goryachev S.N., Turovetsky V.B., 2001. Effects of ELF-EMF treatment on wheat seeds at different stages of germination and possible mechanisms of their origin. Electromagnetic Biology and Medicine, 20, 231-253. AOSA (Association of Official Seed Analysis), 1983. Seed vigor hand testing book, Contribution No. 32 to the handbook on seed testing. Springfield, IL. pp. 48
  • Bilalis D., Katsenios N., Efthimiadou A., Efthimiadis P., Karkanis A., 2012. Pulsed electromagnetic fields effect in oregano rooting and vegetative propagation: A potential new organic method. Acta Agriculturae Scandinavica, Section B-Soil & Plant Science, 62, 94-99.
  • Domínguez P.A., Hernández A.C., Cruz O.A., Ivanov R., Carballo C.A., Zepeda B.R., Martínez O.E., 2010. Influences of electromagnetic field on maize seed vigour (in Spanish). Fitotec. Mex., 33, 183-188.
  • Durán H.D., Gutiérrez H.G.F., Arellano V.J.L., García R.E., Virgen V.J., 2011. Caracterización molecular y germinación de semillas de maíces criollos azules con envejecimiento acelerado (in Spanish). Agronomía Mesoamericana, 22, 11-20.
  • FAO, 2006. (Food and Agriculture Organization). Brócoli (Brassica oleracea L.) (in Spanish).
  • Gholami A., Sharafi S., 2010. Effect of Magnetic Field on Seed Germination of Two Wheat Cultivars. World Academy of Science, Engineering and Technology, 62, 279-282.
  • Gutiérrez C.D., Zepeda B.R., Hernández A.C., Domínguez P.F.A., Cruz O.A., López B.J.L., 2011. Physical characteristics of grains of maize pre-sowing treated by electromagnetic fields. Acta Agrophysica, 18, 17-31.
  • Hernández A.C., Domínguez P.A., Carballo C.A., Cruz O.A., Ivanov R., López B.J.L., Valcarcel M.J.P., 2009. Alternating magnetic field irradiation effects on three genotype maize seed field performance. Acta Agrophysica, 170, 7-17.
  • Herr I., Büchler M.W., 2010. Dietary constituents of broccoli and other cruciferous vegetables: Implications for prevention and therapy of cancer. Cancer Treatment Reviews, 36, 377-383.
  • Huang H-H., Wang S-R., 2007. The Effects of 60Hz Magnetic Fields on Plant Growth. Nature and Science, 5, 60-68.
  • Huang H-H., Wang S-R., 2008. The Effects of Inverter Magnetic Fields on Early Seed Germination of Mung Beans. Bioelectromagnetics, 29, 649-657.
  • Hussein H.J., Shaheed A.I., Yasser O.M., 2011. Effect of accelerated aging conditions on viability of sunflower (Helianthus annus L.) seeds. Euphrates Journal of Agriculture Science, 3, 1-9.
  • Hussein J.H, Shaheed I.A., Yasser O.M., 2012. Effect of accelerated aging on vigor of local maize seeds in term of electrical conductivity and relative growth rate (RGR). Iraqi Journal of Science, 53, 285-291.
  • Hye Kim H., Goins G.D., Wheeler R.M., Sager J.C., 2004. Green-light supplementation for enhanced lettuce growth under red and blue light emitting diodes. HortScience, 39, 1617-1622.
  • Iqbal M., Haq Z.U., Jamil Y., Ahmad M.R., 2012.Effect of presowing magnetic treatment on properties of pea. International Agrophysics, 26, 25-31 ISTA (International Rules for Seed Testing), 2011. Rules Proposals for the International Rules for Seed Testing 2011 Edition. International Seed Testing Association.Zurich, Bassersdorf, Switzerland, 97 pp.
  • Jamil Y., Haq Z., Iqbal M., Perveen T., Amin N., 2012. Enhancement in growth and yield of mushroom using magnetic field treatment. Int. Agrophysics, 26, 375-380.
  • Kibinza S., Bazin J., Bailly C., Farrant M.J., Corbineaua F., El-Maarouf B.H., 2011. Catalase is a key enzyme in seed recovery from ageing during priming. Plant Science, 181, 309-315.
  • Li Y., Zhang T., Korkaya H., Liu S., Lee H-F., Newman B., Yu Y., Clouthier S.G., Schwartz S.J.,
  • Wicha M.S., Sun D., 2010. Sulforaphane, a Dietary Component of Broccoli/Broccoli Sprouts, Inhibits Breast Cancer Stem Cells. Clinical Cancer Research. American cancer association for cancer research, DOI: 10.1158/1078-0432.CCR-09-2937
  • Matwijczuk A., Kornarzyński K., Pietruszewski S., Krupa M., 2012. Effect of magnetic field and magnetically treated water on some morphological features and chemical composition of seedlings of sunflower (Helianthus annuus L.) (in Polish). Acta Agrophysica, 19, 621-630.
  • Moncaleano-E.J., Silva C.F.B., Silva R.S.S, Granja A.A.J., Alves J.L.M.C., Pompelli F.M., 2013. Germination responses of Jatropha curcas L. seeds to storage and aging. Industrial Crops and Products, 44, 684-690.
  • Moreno M. E., 1996. Análisis físico y biológico de semillas agrícolas. Universidad Nacional Autónoma de México, México.
  • Pietruszewski S., Kania K., 2010. Effect of magnetic field on germination and yield of wheat. International Agrophysics, 24, 297-302.
  • Pietruszewski S., Szymon S.P, Kania K., 2013. Effect of pre-sowing magnetic stimulation on germination of kernels of various spring wheat varieties (in Polish). Acta Agrophysics, 20, 415-425.
  • Podleoeny J., Pietruszewski S., Podleoena A., 2004. Efficiency of the magnetic treatment of broad bean seeds cultivated under experimental plot conditions. International Agrophysics, 18, 65-71.
  • Puntarulo S., Boveris A., 1990. Effect of natural and accelerated aging on the hydroperoxide metabolism of soybean embryonic axes. Plant Science, 68, 27-32.
  • Rochalska M., Grabowska K., Ziarnik A., 2008. Impact of low frequency magnetic fields on yield and quality of sugar beet. International Agrophysics, 23, 163-174.
  • Rochalska M., Grabowska-Topczewska K., Mackiewicz A., 2011. Influence of alternating low frequency magnetic field on improvement of seed quality. International Agrophysics, 25, 265-269
  • Sinefu F., Modi A., Mabhaudhi T., 2011. Seed quality components of a Bambara groundnut landrace from KwaZulu-Natal, South Africa. African Crop Science Conference Proceedings,10, 149-156
  • Tahir N.A.R., Karim, H.F.H., 2010. Impact of magnetic application on the parameters related to growth of chickpea (Cicerarietinum L.). Jordan Journal of Biological Sciences, 3, 175-184.
  • Vashist A., Nagarajan S., 2009. Germination characteristics of seeds of maize (Zea mays L.) exposed to magnetic fields under accelerated ageing condition. Journal of Agricultural Physics, 9, 50-58.
  • Vaz M.V.H., Moure C.S., Dourado-N.D., Lourenço P.T., Neves D.M.A., 2013. Seed vigor and initial growth of corn crop. Journal of Seed Science, 35, 64-69.Zepeda B.R., Hernandez A.C., Suazo L.F., Dominguez P.A., Cruz O.A., Martínez O.E., Hernández S.L.M., 2011. Physical characteristics of maize grain and tortilla exposed to electromagnetic field. Int. Agrophysics, 25, 389-393.
  • Zepeda-Bautista, C. Hernández-Aguilar, A. Domínguez-Pacheco, A. Cruz-Orea, J.J. Godina-Nava, E. Martínez-Ortíz, 2010. Electromagnetic field and seed vigour of corn hybrids. Int. Agrophysics, 24, 329-332.
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