[17] Beccari N. Richerche sulle cellule e sulle fibre di Mauthner e sulle loro connesioni in pesci e anfibi // Arch. ital. Anat. Embriol. 1907. Vol. 6. Р. 660–708 (ref. from Stefanelli, 1951).

[18] Becher H. Über ein vegetatives, zentralnervöses Kerngebiet in der Netzhaut des Menschen und der Säugetiere // Acta neuroveget. 1954. Vol. 8. No. 4. S. 421–436.

[19] Becher H. Beitrag zum feineren Bau der Retina // Verhandl. Anat. Ges. 1954. Bd. 100. S. 166–184.

[20] Bodian D. The structure of vertebrate synapse. A study of the axon endings on Mauthner’s cell and neighboring centers in the goldfish // J. Сomp. Neurol. 1936. Vol. 68. P. 117–159.

[21] Carmichael L. The development of behavior in vertebrates experimentally removed from the influence of external stimulation // Psychol. Rev. 1926. Vol. 33. P. 51–58.

[22] Carmichael L. A further study of the development of behavior in vertebrates experimentally removed from the influence of external stimulation // Psychol. Rev. 1927. Vol. 34. P. 34–47.

[23] Carmichael L. A further study of the development of behavior // Psychol. Rev. 1928. Vol. 35. P. 253–260.

[24] Carmichael L. The growth of the sensory control of behavior before birth // Psychol. Rev. 1947. Vol. 54. P. 316–324.

[25] Coghill G. E. The proliferation of cells in the spinal cord as a factor in the individuation of reflexes of the hind leg of Amblystoma punctatum, Cope // J. Compar. Neurol. 1933. Vol. 57. P. 327–360.

[26] Coghill G. E. Myogenic action in embryos of Fundulus // Proc. Soc. Exp. Biol. & Med. 1934. Vol. 31. P. 62–64.

[27] Coghill G. E. New anatomical relations and the probable function of Mauthner’s fibers // Psych. en Neurolog. Bladen. 1934. Vol. 38. P. 386–391.

[28] Detwiler S. R. Further experiments upon the extirpation of Mauthner’s neurones in amphibian embryos (Amblystoma mexicanum) // J. Exp. Zool. 1933. Vol. 64. P. 415–432.

[29] Detwiler S. R. Vertebrate photoreceptors. N. Y., 1943.

[30] Detwiler S. R. Quantitative studies on the locomotor capacity of larval Amblystoma (A. jeffersonianum) lacking Mauthner’s neurone or the ear // J. Exp. Zool. 1947. Vol. 104. No. 3. P. 343–352.

[31] Detwiler S. R., Copenhaver W. M. The growth and pigmentary responses of eyeless Amblystoma embryos reared in light and darkness // Anat. Rec. 1940. Vol. 76. No. 2. P. 241–254.

[32] Granit R. Receptors and sensory perception. New Haven: Yale University Press, 1955.

[33] Gray J. The role of peripheral sense organs during locomotion in the vertebrates // Sуmр. Soc. Exp. Biol. 1950. Vol. 4. P. 112–124.

[34] Greene W. F. Histogenesis of Mauthner’s neurone in Amblystoma // Anat. Rec. 1947. Vol. 97. P. 389.

[35] Herrick C. J. The medulla oblongata of larval Amblystoma // J. Comp. Neurol. 1914. Vol. 24. P. 343–427.

[36] von Holst E. 1935 Über den Prozeß der Zentralnervösen Koordination // Pflüg. Arch. 1935. Vol. 236. S. 149–158.

[37] von Holst E. Über die nervöse Funktionsstruktur des rhytmischtätigen Fischrückenmarks // Pflüg. Arch. 1939. Vol. 241. S. 569–612.

[38] Hoyle G. The response mechanism in ascidians // J. Mar. Biol. Assoc. 1952. Vol. 31. P. 288– 305.

[39] Kauri H. Das Licht als Hemmender Faktor bei der Larvenentwicklung der Wechselköte (Bufo viridis Laur.) // Oikos. 1955. 6 (1). S. 78–91.

[40] Kneight A. R. Ethology and psychology // Adv. Sci. 1955. 12 (45). P. 24–27.

[41] Kolmer W. Über einen sekretärtifen Bestandteil der Stäbchenzapfenschicht dar Wirbeltierrètina // Pfl. Arch. 1909. Vol. 129. S. 35–45.

[42] Lehman D. A critique of Lorenz’s theory of instinctive behavior // Quart. Rev. Biol. 1953. No. 28. P. 337–363.