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Effect of 50 Hz magnetic field on chicken embryo development and course of hatching

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Języki publikacji
EN
Abstrakty
EN
The effect of additional extremely low frequency (ELF) magnetic field (50 Hz) on the development of chick embryo was investigated. The experiment was carried out in three variants for induction values 15, 10 or 5 μT. Magnetic field (MF) in the experimental incubator was generated by a set of three Helmholtz coils. The following analyses were performed: embryopathological analysis; evaluation of the hatched chicks for quality; analysis of the course and synchronization of hatching Early embryo mortality in groups exposed to MF 10 and 15 μT compared to the control was higher by about 3 percentage points. Simultaneously, in these groups the hatching processes accelerated, but the quality of hatched chicks was much lower.
Rocznik
Strony
44--49
Opis fizyczny
Bibliogr. 29 poz., tab.
Twórcy
  • Department of Veterinary, Animal Reproduction and Welfare, University of Agriculture in Krakow, al. Mickiewicza 24/28, 30-059 Krakow, Poland
Bibliografia
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  • 6. Engels S, Schneider N., Lefeldt N, Hein C.M, Zapka M, Michalik A. Elbers D, Kittel A, Hore P.J, Mouritsen, H. Anthropogenic electromagnetic noise disrupts magnetic compass orientation in a migratory bird. Nature, 2014;509:353–556.
  • 7. Füllekrug M, Mezentsev A, Watson R, Gaffet S, Astin I, Smith N, Evans A. Map of low-frequency electromagnetic noise in the sky. Geophysical Research Letters, 2015;42:4648–4653.
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  • 11. Niedziółka J, Janowski T.M The effect of weak electromagnetic field (50 Hz) in house incubators on the course of hatching in hens, Acta Agraria et Silvestria, Ser. Zootechnika 1996;34:21–30.
  • 12. Camerton I.L, Hardman W.E, Winters W.D, Zimmerman S., Zimmerman A.M. Environmental magnetic fields. Influences on early embryogenesis. Journal of Cellular Biochemistry, 1993;51:417–425.
  • 13. Farrell J.M, Litovitz T.L, Penafiel M, Montrose C.J, Doinov P, Barber M, Brown K.M, Litovitz T.A. The effect of pulsed and sinusoidal magnetic fields on the morphology of developing chick embryos., Bioelectromagnetics, 1997;18:431–438.
  • 14. Lahijani M.S, Ghafoori M. Teratogenic effects of sinusoidal extremely low frequency electromagnetic fields on morphology of 24 hr chick embryos. Indian Journal of Experimental Biology, 2000;38:692–9.
  • 15. Coulton L.A, Barker A.T. The effect of low-frequency pulsed magnetic fields on chick embryonic growth. Physics in Medicine and Biology, 1991;36: 369-381.
  • 16. Brent R.L. Reproductive and teratological effect of low-frequency electromagnetic fields; a review of in vivo and in vitro studies using animal models. Teratology, 1999;59:261–286.
  • 17. Sechman A, Niedziólka J, Lis M, Rzasa J. Changes in thyroid hormone levels in chicken embryos exposed to extremely low frequency electromagnetic field. Archiv Fur Geflugelkunde 2006;70:41–47.
  • 18. Lis M.W, Andres K. The course of hatch of Old Polish Crested Fowl chicks in comparison to selected breeds of native hens. Annals of Animal Science, 2007;Supplement,1:93–96.
  • 19. Ubeda A, Trillo M.A, Chacón L, Blanco M.J, Leal J. Chick embryo development can be irreversibly altered by early exposure to weak extremely-low-frequency magnetic fields. Bioelectromagnetics, 1994;15:385–398.
  • 20. Borzemska W.B, Janowski T.M. Zoohigieniczne i biologiczne podstawy inkubacji jaj kurzych. Medycyna Weterynaryjna, 1984;40:603–607.
  • 21. Fiorani M, Biagiarelli B, Vetrano F. In vitro effects of 50 Hz magnetic fields on oxidatively damaged rabbit red blood cells. Bioelectromagnetics, 1997;18:125–131.
  • 22. Mannerling A.C, Mild K.H, Mattsson M.O. Extremely low-frequency magnetic field exposure and protection against UV-induced death in chicken embryos. Electromagnetic Biology and Medicine, 2007;26:73–81.
  • 23. Cooper P.D. Rescue of Moribund Chicken Embryos by Extremely Low-Frequency Electric Fields. Explore, 2016;12:451–454.
  • 24. Lis M, Sechman A, Pawlak K, Tombarkiewicz B, Niedziółka J, Rząsa J. Effects of in ovo exposure to acetylsalicylic acid and hyperthermia on the hatchability and thyroid hormone concentrations in newly-hatched chicks. Bulletin of the Veterinary Institute in Pulawy. 2009;53:527–534.
  • 25. Lis M. Niedziółka J, Borzemska W.B, Tombarkiewicz B. Występowanie wad rozwojowych zarodków kurzych w wyniku działania dodatkowego pola magnetycznego podczas inkubacji. Prace Komisji Nauk Rolniczych i Biologicznych BTN seria B, 2000; 46,34:111–118.
  • 26. Di-Carlo A.L, Litovitz T.A. Is genetics the unrecognized confounding factor in bioelectromagnetics? Flock-dependence of field induce anoxia protection in chick embryos. Bioelectrochemistry and Bioenergetics, 1999; 48:209–215.
  • 27. Jove M, Torrente M, Gilabert R, Espinar A, Cobos P, Piera V. Effects of static electromagnetic fields on chick embryo pineal gland development. Journal of Cells Tissues Organs, 1999;165:74–80.
  • 28. Borzemska W.B, Niedziółka J, Lis M. Effects of additional magnetic field on hatching indicators and embryopathology of dead embryos in the Japanese quail (Coturnix coturnix japonica). Annals Animal Science, 2000;Supplement,1:59–62
  • 29. Niedziółka J, Lis M, Borzemska W.B. Effect of additional magnetic field on hatchability of Japanese quail eggs (Coturnix coturnix japonica). Annals Animal Science, 2000;Supplement,1:55–58.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6ea782cb-01c2-4d51-817e-0d8114e64b23
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