282

Bioelectromagnetism

Fields, A.T., Feldheim, K.A., Gelsleichter, J., Pfoertner, C., and Chapman, D.D. 2016. Population struc­

ture and cryptic speciation in bonnethead sharks Sphyrna tiburo in the south-eastern U.S.A. and

Caribbean. J Fish Biol 89(5):2219–2233.

Fischer, J.H., Freake, M.J., Borland, S.C., and Phillips, J.B. 2001. Evidence for the use of magnetic map

information by an amphibian. Anim Behav 62:1–10.

Fleissner, G., Holtkamp-Rotzler, E., Hanzlik, M., Winklhofer, M., Fleissner, G., Petersen, N., and

Wiltschko, W. 2003. Ultrastructural analysis of a putative magnetoreceptor in the beak of homing

pigeons. J Comp Neurol 458(4):350–360.

Fleissner, G., Stahl, B., Talau, P., Falkenberg, G., and Fleissner, G. 2007. A novel concept of Fe-mineral­

based magnetoreception: Histological and physicochemical data from the upper beak of homing

pigeons. Naturwissenschafen 94(8):631–642.

Foley, L.E., Gegear, R.J., and Reppert, S.M. 2011. Human cryptochrome exhibits light-dependent magn­

etosensitivity. Nat Commun 2:356.

Formicki, K., Korzelecka-Orkisz, A., and Tandki, A. 2019. Magnetoreception in fsh. J Fish Biol 95:73−91.

Frankel, R.B. 2009. Te discovery of magnetotactic/magnetosensitive bacteria. Chin J Oceanol Limnol

27(1):1–2.

Frankel, R.B., Blakemore, R.P., and Wolfe, R.S. 1979. Magnetite in freshwater magnetotactic bacteria.

Science 203(4387):1355–1356.

Fransson, T., Jakobsson, S., Johansson, P., Kullberg, C., Lind, J., and Vallin, A. 2001. Magnetic cues trig­

ger extensive refuelling. Nature 414(6859):35–36.

Freire, R., Munro, U.H., Rogers, L.J., Wiltschko, R., and Wiltschko, W. 2005. Chickens orient using a

magnetic compass. Curr Biol 15:R620–R621.

Freire, R., Munro, U., Rogers, L.J., Sagasser, S., Wiltschko, R., and Wiltschko, W. 2008. Diferent

responses in two strains of chickens (Gallus gallus) in a magnetic orientation test. Anim Cogn

11(3):547–552.

French, B. 1998. Traces of Catastrophe: A Handbook of Shock-Metamorphic Efects in Terrestrial

Meteorite Impact Structures, LPI Contribution. No. 954. Lunar and Planetary Institute, Houston,

TX, p. 120.

Frost, D.A., Lasbleis, M., Chandler, B., and Romanowicz, B. 2021. Dynamic history of the inner core

constrained by seismic anisotropy. Nat Geosci 14:531–535.

Furuyama, K., Nagao, K., Kasatani, K., and Mitsui, S. 1993. K-Ar ages of the Kannabe Volcano Group

and the adjacent basaltic monogenetic volcanoes, east San-in district. Earth Sci (Chikyu Kagaku)

47(5):377–390.

Gallet, Y., Pavlov, V., and Courtillot, V. 2003. Magnetic reversal frequency and apparent polar wander

of the Siberian platform in the earliest Palaeozoic, inferred from the Khorbusuonka river section

(northeastern Siberia). Geophys J Int 154:829–840.

Gallet, Y., Pavlov, V., and Korovnikov, I. 2019. Extreme geomagnetic reversal frequency during the

Middle Cambrian as revealed by the magnetostratigraphy of the Khorbusuonka section (north­

eastern Siberia). Earth Planet Sci Lett 528:115823.

Garcia, R., Sosner, P., Laude, D., Hadjadj, S., Herpin, D., and Ragot, S. 2014. Spontaneous barorefex

sensitivity measured early afer acute myocardial infarction is an independent predictor of cardio­

vascular mortality: Results from a 12-year follow-up study. Int J Cardiol 177(1):120–122.

Garreaud, R.D., Molina, A., and Farias, M. 2010. Andean uplif, ocean cooling and Atacama hyperarid­

ity: A climate modeling perspective. Earth Planet Sci Lett 292(1):39–50.

Gegear, R.J., Casselman, A., Waddell, S., and Reppert, S.M. 2008. Cryptochrome mediates light-depen­

dent magnetosensitivity in Drosophila. Nature 454(7207):1014–1018.

Gegear, R.J., Foley, L.E., Casselman, A., and Reppert, S.M. 2010. Animal cryptochromes mediate magne­

toreception by an unconventional photochemical mechanism. Nature 463(7282):804–807.

Ghione, S., Mezzasalma, L., Del Seppia, C., and Papi, F. 1998. Do geomagnetic disturbances of solar

origin afect arterial blood pressure? J Hum Hypertens 12:749–754.