American Journal of Life Sciences

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The Embryonic Development of Great Ramshorn Planorbarius Corneus under the Hypomagnetic Field

Received: 24 November 2014    Accepted: 01 December 2014    Published: 27 December 2014
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Abstract

The effect of a 100-300-fold attenuated geomagnetic field on the embryonic development of great ramshorn Planorbarius corneus and oxidation-reduction properties in water environment were studied in a hypomagnetic chamber. Mainly the hypomagnetic field effected beneficial influence on the development of mollusks: teratogenic effects were less massive, i.e. embryos that first occurred in hypomagnetic conditions were characterized by low death rate. The mobility index increased in embryos on the stage of late veliger and post-metamorphosis. Under the sharp increasing of the magnetic field to the normal level the embryos and juvenile mollusks rapidly perished (practically, their growth was stopped). Type of induction was dependent on adaptation of juvenile P. corneus to a magnetic field. Mollusks growth in the normal geomagnetic field would prefer the conditions with maximal induction, whereas mollusks developed in the hypomagnetic chamber, on the contrary, chose the conditions with minimal induction. It was revealed that the oxidation-reduction potential of water increased as magnetic induction attenuated pointing to a natural decline that testifies about the regular decreasing of internal energy of water molecules, which, in our opinion, is caused the inhibition of the mollusk embryonic development.

DOI 10.11648/j.ajls.s.2015030102.15
Published in American Journal of Life Sciences (Volume 3, Issue 1-2, January 2015)

This article belongs to the Special Issue Space Flight Factors: From Cell to Body

Page(s) 25-31
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Great Ramshorn Planorbarius Corneus, Embryogenesis, Mobility Index, Oxidation-Reduction Potential of Water, Hypomagnetic Field

References
[1] Koronovsky N.V.,“Magnetic field of geological Past of Earth,”System of life activity support,No.5,1996, pp. 56-63.
[2] Schulten K.,“Magnetic field effects in chemistry and biology,” In Festkörperprobleme (J. Treusch, ed.). Braunschweig: Vieweg, vol. 22, 1982, pp. 61-83.
[3] Mizun Yu.G., Mizun P.G., “Space and Health,” M., 1984, 144p (in Russian).
[4] Gould J.L.,“Magnetic Field Sensitivity in Animals,” Ann. Rev. Physiol.,vol. 46,1984, pp. 585-598.
[5] Nefedova E.L., Levinskich M.A., Derendyaeva T.A., Tsetlin V.V.,“The investigation of model effects of low doses of ionized radiation under the lowering level of geomagnetic field on growing characteristics of the seeds of high plants conforming to the conditions of long-term interplanetary expeditions,” Proceedings of VIII International conference «Space and Biosphere». 28 September – 3 October 2009. Sudak. Ukraine. Kiev. 2009,pp. 226-227(in Russian).
[6] Tsetlin V.V., Zenin S.V., Golovkina T.V. et al.,“The role of water medium in the mechanism of action of supperlow doses of ionized radiation,”Biomeditsinski etehnologii I radioelectronika, No. 12,2003,pp. 20-25 (in Russian).
[7] Tsetlin V.V.,“The investigation of water reaction on the variations of cosmo-physical and geophysical factors of environment,”Aviakosm. I ekol. med.,No. 6,2010, pp. 26-31(in Russian).
[8] Tsetlin V.V., Fainshtein G.S.,“About the influence of cosmo-physical, geophysical and radiation factors on electro-physical and biological properties of water,”Metafizika, No. 2 (4),2012, pp. 81-89(in Russian).
[9] Bahir I.M.,“The determination of the terms “water” and “solution” conforming to technology of electro-chemical activation,”Elektrohimicheskaya aktivacia v meditsine, selskom hozjaistve, promyshlennosti, No. 14, 1999, pp. 41-47(in Russian).
[10] Detlaf T.A., Detlaf A.A.,“Unsized criterions as a method of quantitative characteristic of animal development,”Matematicheskaya biologia razvitia, M. Nauka, 1982,pp. 25-39(in Russian).
[11] Zotin A.A., Kleimenov S.Yu.,“The speed of oxygen consumption in embryo development of Lymnaea stagnalis (Gastropoda),”Ontogenez,vol. 37,No. 3, 2006, pp. 167-172.
[12] RassadkinYu..P.,“Water usual and unusual,” M., 2008, 840 p. (in Russian)
[13] Tsetlin V.V., Zenin S.V., Lebedeva N.E.,“Mechanism of the effect of supperlow doses of ionized radiation on water medium,” Biomed. Tehnologii I radioelektronika,No. 6, 2005,pp. 53-58.
[14] Voronezhskaya E.E., Nezlin L.P., Habarova M.Yu.,“What tell snails to your larvas, ”Priroda, No. 2,2008, pp. 14-22(in Russian).
Author Information
  • Laboratory of monitoring of radiation conditions of the environment of cosmic stations crews, State Scientific Center of The Russian Federation, Institution of Biomedical Problems of The Russian Academy of Sciences, Moscow, Russia

  • Laboratory of evolutional developmental biology, Kol’tsov Institute of Developmental Biology of The Russian Academy of Sciences, Moscow, Russia

  • Laboratory of monitoring of radiation conditions of the environment of cosmic stations crews, State Scientific Center of The Russian Federation, Institution of Biomedical Problems of The Russian Academy of Sciences, Moscow, Russia

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    S. S. Moisa, A. A. Zotin, V. V. Tsetlin. (2014). The Embryonic Development of Great Ramshorn Planorbarius Corneus under the Hypomagnetic Field. American Journal of Life Sciences, 3(1-2), 25-31. https://doi.org/10.11648/j.ajls.s.2015030102.15

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    ACS Style

    S. S. Moisa; A. A. Zotin; V. V. Tsetlin. The Embryonic Development of Great Ramshorn Planorbarius Corneus under the Hypomagnetic Field. Am. J. Life Sci. 2014, 3(1-2), 25-31. doi: 10.11648/j.ajls.s.2015030102.15

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    AMA Style

    S. S. Moisa, A. A. Zotin, V. V. Tsetlin. The Embryonic Development of Great Ramshorn Planorbarius Corneus under the Hypomagnetic Field. Am J Life Sci. 2014;3(1-2):25-31. doi: 10.11648/j.ajls.s.2015030102.15

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  • @article{10.11648/j.ajls.s.2015030102.15,
      author = {S. S. Moisa and A. A. Zotin and V. V. Tsetlin},
      title = {The Embryonic Development of Great Ramshorn Planorbarius Corneus under the Hypomagnetic Field},
      journal = {American Journal of Life Sciences},
      volume = {3},
      number = {1-2},
      pages = {25-31},
      doi = {10.11648/j.ajls.s.2015030102.15},
      url = {https://doi.org/10.11648/j.ajls.s.2015030102.15},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajls.s.2015030102.15},
      abstract = {The effect of a 100-300-fold attenuated geomagnetic field on the embryonic development of great ramshorn Planorbarius corneus and oxidation-reduction properties in water environment were studied in a hypomagnetic chamber. Mainly the hypomagnetic field effected beneficial influence on the development of mollusks: teratogenic effects were less massive, i.e. embryos that first occurred in hypomagnetic conditions were characterized by low death rate. The mobility index increased in embryos on the stage of late veliger and post-metamorphosis. Under the sharp increasing of the magnetic field to the normal level the embryos and juvenile mollusks rapidly perished (practically, their growth was stopped). Type of induction was dependent on adaptation of juvenile P. corneus to a magnetic field. Mollusks growth in the normal geomagnetic field would prefer the conditions with maximal induction, whereas mollusks developed in the hypomagnetic chamber, on the contrary, chose the conditions with minimal induction. It was revealed that the oxidation-reduction potential of water increased as magnetic induction attenuated pointing to a natural decline that testifies about the regular decreasing of internal energy of water molecules, which, in our opinion, is caused the inhibition of the mollusk embryonic development.},
     year = {2014}
    }
    

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    AU  - A. A. Zotin
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    AB  - The effect of a 100-300-fold attenuated geomagnetic field on the embryonic development of great ramshorn Planorbarius corneus and oxidation-reduction properties in water environment were studied in a hypomagnetic chamber. Mainly the hypomagnetic field effected beneficial influence on the development of mollusks: teratogenic effects were less massive, i.e. embryos that first occurred in hypomagnetic conditions were characterized by low death rate. The mobility index increased in embryos on the stage of late veliger and post-metamorphosis. Under the sharp increasing of the magnetic field to the normal level the embryos and juvenile mollusks rapidly perished (practically, their growth was stopped). Type of induction was dependent on adaptation of juvenile P. corneus to a magnetic field. Mollusks growth in the normal geomagnetic field would prefer the conditions with maximal induction, whereas mollusks developed in the hypomagnetic chamber, on the contrary, chose the conditions with minimal induction. It was revealed that the oxidation-reduction potential of water increased as magnetic induction attenuated pointing to a natural decline that testifies about the regular decreasing of internal energy of water molecules, which, in our opinion, is caused the inhibition of the mollusk embryonic development.
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