299
Geomagnetic Field Effects on Living Systems
Vácha, M. 2020. Invertebrate magnetoreception–In between orientation and general sensitivity. In: Te
Senses: A Comprehensive Reference,2nd Edition.Vol. 7, Mechanosensory Lateral Line, Electroreception,
Magnetoreception, Fritzsch, B. (Ed.) Elsevier, Amsterdam, Netherlands, pp. 445–458.
Vácha, M., Půzová, T., and Drstková, D. 2008. Ablation of antennae does not disrupt magnetorecep
tive behavioural reaction of the American cockroach to periodically rotated geomagnetic feld.
Neurosci Lett 435(2):103–107.
Vácha, M., Půzová, T., and Kvíćalová, M. 2009. Radio frequency magnetic felds disrupt magnetorecep
tion in American cockroach. J Exp Biol 212(21):3473–3477.
Valet, J.P., and Plenier, G. 2008. Simulations of a time-varying non dipole feld during geomagnetic
reversals and excursions. Phys Earth Planetary Inter 169:178–193.
Valet, J.P., Fournier, A., Courtillot, V., and Herrero-Bervera, E. 2012. Dynamical similarity of geomag
netic feld reversals. Nature 490(7418):89–94.
Valet, J.P., Bassinot, F., Simon, Q., Savranskaia, T., Touveny, N., Bourlés, D.L., and Villedieu, A. 2019.
Constraining the age of the last geomagnetic reversal from geochemical and magnetic analyses of
Atlantic, Indian, and Pacifc Ocean sediments. Earth Planet Sci Lett 506:323–331.
Vanderstraeten, J., Gailly, P., and Malkemper, E.P. 2018. Low-light dependence of the magnetic feld
efect on cryptochromes: Possible relevance to plant ecology. Front Plant Sci 9:121.
Vaquero, J.M., and Gallego, M.C. 2007. Sunspot numbers can detect pandemic infuenza A: Te use of
diferent sunspot numbers. Med Hypotheses 68:1189–1190.
Veizer, J., Ala, D., Azmy, K., Bruckschen, P., Buhl, D., Bruhm, F., Carden, G.A.F., Diener, A., Ebneth,
S., Godderis, Y., Jasper, T., Korte, C., Pawellek, F., Podlaha, O.G., and Strauss, H. 1999. 87Sr/86Sr,
δ13Ccarb and δ18Ocarb evolution of Phanerozoic seawater. Chem Geol 161:59–88.
Vidal-Gadea, A., Ward, K., Beron, C., Ghorashian, N., Gokce, S., Russell, J., Truong, N., Parikh, A.,
Gadea, O., Ben-Yakar, A., and Pierce-Shimomura, J. 2015. Magnetosensitive neurons mediate geo
magnetic orientation in Caenorhabditis elegans. eLife 4:e07493.
Vladimirsky, B.M. 1980. Biological rhythms and the solar activity. In: Problems of Cosmic Biology, Vol.
41, Chernigovsky, V.N. (Ed.) Nauka, Moscow, Russia, pp. 289–315.
Vogt, J., Zieger, B., Glassmer, K.H., Stadelmann, A., Kallenrode, M.B., Sinnhuber, M., and Winkler, H.
2007. Energetic particles in the paleomagnetosphere: Reduced dipole confgurations and quadru
polar contributions. J Geophys Res Space Phys 112(A6):A06216.
Volpe, P. 2003. Interactions of zero-frequency and oscillating magnetic felds with biostructures and
biosystems. Photochem Photobiol Sci 2(6):637–648.
Voosen, P. 2021. Kauri trees mark magnetic fip 42,000 years ago. Science 371(6531):766.
Voss, J., Keary, N., and Bischof, H.J. 2007. Te use of the geomagnetic feld for short-distance orientation
in zebra fnches. Behaviour 18:1053–1057.
Wajnberg, E., Acosta-Avalos, D., Alves, O.C., de Oliveira, J.F., Srygley, R.B., and Esquivel, D.M. 2010.
Magnetoreception in eusocial insects: an update. R Soc Interface 7(Suppl 2):S207–S225.
Walker, M.M., Diebel, C.E., Haugh, C.V., Pankhurst, P.M., Montgomery, J.C., and Green, C.R. 1997.
Structure and function of the vertebrate magnetic sense. Nature 390(6658):371–376.
Wallraf, H.G. 1999. Te magnetic map of homing pigeons: An evergreen phantom. J Teor Biol
197:265–269.
Wan, G.J., Jiang, S.L., Zhao, Z.C., Xu, J.J., Tao, X.R., Sword, G.A., Gao, Y.B., Pan, W.D., and Chen, F.J.
2014. Bio-efects of near-zero magnetic felds on the growth, development and reproduction of
small brown planthopper, Laodelphax striatellus and brown planthopper, Nilaparvata lugens. J
Insect Physiol 68:7–15.
Wan, G., Liu, R., Li, C., He, J., Pan, W., Sword, G.A., Hu, G., and Chen, F. 2020a. Change in geomagnetic
feld intensity alters migration-associated traits in a migratory insect. Biol Lett 16(4):20190940.
Wan, G.J., Jiang, S.L., Zhang, M., Zhao, J.Y., Zhang, Y.C., Pan, W.D., Sword, G.A., and Chen, F.J. 2020b.
Geomagnetic feld absence reduces adult body weight of a migratory insect by disrupting feeding
behavior and appetite regulation. Insect Sci 28(1):251–260.