References
- von Baumgarten R. Possible physiological mechanisms of space motion sickness. Sensory-motor functions under weightlessness and space motion sickness, G Mitarai, M Igarashi. The University of Nagoya Press, Nagoya 1985; 65–72
- Diamond S G, et al. Validating the hypothesis of otolith asymmetry as a cause of space motion sickness. Ann N Y Acad Sci. 1992; 656: 725–31
- Anken R H, Ibisch M, Bremen D, Hilbig R, Rahmann H. Mass analytical and morphological investigations on teleost otoliths and their relevance for the internalisation of graviception. Proceedings of the C.E.B.A.S. Workshops, Annual Issue, R Braucker. Ruhr University Bochum, 1995; 73–82, 1995
- Watanabe S, Takabayashi A, Tanaka M, Yanagihara D. Neurovestibular physiology in fish. Adv Space Biol Med, S Bonting. Jai Press, Greenwich, Connecticut 1991; Vol 1: 99–128
- Wetzig J. Untersuchungen über das Schwimmverhalten einseitig entstateter Fische unter kurzzeitiger Ein-wirkung von Schwerelosigkeit. Ph.D. Dissertation, University of Mainz, Germany 1983
- Ijiri K. How the four fish astronauts were selected. The first vertebrate mating in space-A fish story, K Ijiri. Published by RICUT, Tokio 1995; 39–50
- Jones G M, et al. A theoretical and comparative study of the functional dependence of the semicircular canal upon its physical dimensions. Proc R Soc Lond [B]. 1963; 157: 403–419