References

1.    Alerstam, Thomas, Anders Hedenström, and Susanne Åkesson. 2003. Long-distance migration: evolution and                        determinants.  OIKOS 103:247 – 260. (abstract)

2.    Cain, Shaun D., Larry C. Boles, John H. Wang, and Kenneth J. Lohmann. 2005. Magnetic Orientation and Navigation in        Marine Turtles, Lobsters, and Molluscs: Concepts and Conundrums. Integrative and Comparative Biology 45:539 –546.         (abstract)

3.    Lohmann Lab Department of Biology University of North Carolina Chapel Hill.  Electronic document,                                      http://www.unc.edu/depts/geomag/.

4.    Walker, Michael M., Carol E. Diebel, Cordula V. Haugh,  Patricia M.Pankhurst, John C.Montgomery, and Colin                     R.Green. 1997.  Structure and function of the vertebrate magnetic sense.  Nature 390: 371-376. (abstract)

5.     Mann, Stephen, Nicholas H.H. Sparks, Michael M. Walker, and Joseph L. Kirschvink.  1988.  Ultrastructure,                           Morphology and Organization of biogenic magnetite from Sockeye salmon, Oncorhynchus nerka: implications for                     magnetoreception.  Journal of Experimental Biology 140: 35-49. (abstract)

6.    Deutschlander, M.E., J.B. Phillips and S.C. Borland 1999. The case for light-dependent magnetic orientation in animals.         Journal of Experimental Biology 202: 891-908 (abstract

7.    Magnetotactic Bacteria Photo Gallery. Electronic document, http://www.calpoly.edu/~rfrankel/mtbphoto.html

8.     Dalvia, Alfonso F. 2005. Detection and function of Biogenic Magnetite.  Ph.D. Dissertation Faculty of Geoscience LMU         Munich (abstract)

9.     Kirschvink, Joseph L. Michael M. Walker, and Carol E. Diebel. 2001.  Magnetite-based magnetoreception. Current Opinion in
        Neurobiology 11:462-467 (abstract)

10.   Kirschvink, Joseph L. 1989. Magnetite biomineralization. Bioelectromagnetics 10: 239-259 (abstract)

11.   Generation of Electromagnetic Radiation. 2005. Electronic document,                                                                                          http://physics.uoregon.edu/~jimbrau/BrauImNew/Chap03/FG03_06.jpg

12.     Martin, Aidan, R. 2003. Biology of Sharks and Rays. Electronic document,                                                                               http://www.elasmo-research.org/education/white_shark/electroreception.htm

13.    Walcott, Charles. 1996. Pigeon Homing: Observations, Experiments and Confusions. The Journal of Experimental                  Biology 199: 21–27 (abstract)

14.    Dittman, Andrew H. and Thomas P. Quinn. 1996. Homing in Pacific Salmon: Mechanisms and Ecological Basis. The              Journal of Experimental Biology 199: 83–91 (abstract)

15.    NOAA Fisheries: Office of Protected Resources. 2006. Electronic document                                                                              http://www.nmfs.noaa.gov/pr/species/fish/sockeye.htm

16.   Wiltschko, Roswitha and Wolfgang Wiltschko. 2006. Magnetoreception. BioEssays 28: 157-168 (abstract)

17.    Lohmann, Kenneth and Catherine M. Fittinghoff Lohmann. 1994. Acquisition of Magnetic Directional Preference in                  Hatchling Loggerhead Sea Turtles. The Journal of Experimental Biology 190: 1–8 (abstract)

18.   Lohmann, Kenneth and Catherine M. Fittinghoff Lohmann. 1996. Orientation and Open-sea Navigation in Sea Turtles.             The Journal of Experimental Biology 199: 73–81 (abstract)

19.   Wiltschko, Wolfgang and Roswitha Wiltschko. 2005. Magnetic orientation and magnetoreception in birds and other                 animals. Journal of Comparative Physiology A: Neuroethology, Sensory, Neural, and Behavioral Physiology 191:                     675–693 (abstract)

20.   Wang, John H., Shaun D. Cain and Kenneth J. Lohmann. 2003. Identification of magnetically responsive neurons in the         marine mollusc Tritonia diomedea. The Journal of Experimental Biology 206: 381-388 (abstract)

21.   Wang, John H., Shaun D. Cain and Kenneth J. Lohmann. 2004.  Identifiable neurons inhibited by Earth-strength magnetic stimuli
        in the mollusc Tritonia diomedea.
The Journal of Experimental Biology 207: 1043-1049 (abstract)