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• W2066703606 abstract "Annals of the New York Academy of SciencesVolume 117, Issue 1 p. 386-406 THE BLINDED FIDDLER CRAB: AN INVERTEBRATE MODEL OF CIRCADIAN DESYNCHRONIZATION *† Gwen J. Stephens, Gwen J. Stephens Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this authorFranz Halberg, Franz Halberg Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this authorGrover C. Stephens, Grover C. Stephens Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this author Gwen J. Stephens, Gwen J. Stephens Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this authorFranz Halberg, Franz Halberg Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this authorGrover C. Stephens, Grover C. Stephens Departments of Pathology and Zoology, University of Minnesota, Minneapolis, MinnesotaSearch for more papers by this author First published: September 1964 https://doi.org/10.1111/j.1749-6632.1964.tb48195.xCitations: 2 * Supported by United States Public Health Service Grants C-4359, NB-04531-02, 5-K6-GM-13, 981 and 06378 and by the American Nurses' Foundation. † Dedicated to the memory of Professor John J. Bittner. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat REFERENCES 1 Stephens, G. C. 1957. Twenty-four hour cycles in marine organisms. Am. Naturalist 91: 135–152. 2 Halberg, P. & R. L. Conner. 1961. Circadian organization and microbiology: variance spectra and a periodogram on behavior of Escherichia coli growing in fluid culture. Proc. Minn. Acad. Sci. 29: 227–239. 3 Halberg, F. 1960. Temporal coordination of physiologic function. In Cold Spring Harbor Symposia on Quantitative Biology. 25: 289–310 Long Island Biolog. Assoc. New York , N. Y. 4 Halberg, F. 1960. The 24-hour scale: a time dimension of adaptive functional organization. Persp. Biol. Med 3: 491–527. 5 Pittendrigh, C. S. 1960. Circadian rhythms and the circadian organization of living systems. In Cold Spring Harbor Symposia on Quantitative Biology. 25: 159–184. Long Island Biological Association. New York , N. Y. 6 Halberg, F. 1954. Beobachtungen über 24 Stunden-Periodik in standard-isierter Versuehsanordnung vor undn ach Epinephrektomie und bilateraler optischer Enukleation. 20th Meeting Germany Physiologic Society. Hamburg/Saar. In Berichte Ges. Physiol. 162: 354–355. 7 Halberg, F. 1959. Physiologic 24-hour periodicity; general and procedural considerations with reference to the adrenal cycle. Z. Vitamin-Hormon- und Fermentforsch. 10: 225–296. 8 Halberg, F., M. B. Visscher & J. J. Bittner. 1954. Relation of visual factors to eosinophil rhythm in mice. Am. J. Physiol. 179: 229–235. 9 Aschoff, J. 1963. Comparative physiology: diurnal rhythms. Ann. Rev. Physiol. 25: 581–600. 10 Halberg, F., R. Loewenson, R. Winter, J. Bearman & G. H. Adkins. 1960. Circadian systems: Differences in period of circadian rhythms or in their component frequencies. Minn. Acad. Sci. 28: 53–75. 11 Brown, F. A., Jr. 1940. The crustacean sinus gland and chromatophore activation. Physiol. Zool. 13: 343–355. 12 Welsh, J. H. 1961. Neurohumors and neurosecretion. In The Physiology of Crustacea. 2: 281–311. Academic Press. New York , N. Y. 13 Guthrie, M. J. & J. M. Anderson. 1957. General Zoology : 437. John Wiley & Sons. New York , N. Y. 14 Waterman, T. H. 1961. Light sensitivity and vision. In The Physiology of Crustacea. 2: 1–64. Academic Press. New York , N. Y. 15 Hogben, L. T. & D. Slome. 1931. The pigmentary effector system. VI. The dual character of endocrine coordination in amphibian color change. Proc. Roy. Soc. London. 108: 10–53. 16 Brown, F. A., Jr. & H. M. Webb. 1948. Temperature relations of an endogenous daily rhythmicity in the fiddler crab, Uca. Physiol. Zool. 21: 371–381. 17 Brown, F. A., Jr. & H. M. Webb. 1949. Studies of the daily rhythmicity of the fiddler crab, Uca. Modifications by light. Physiol. Zool. 22: 136–148. 18 Brown, F. A., Jr. & G. C. Stephens. 1951. Studies of the daily rhythmicity of the fiddler crab, Uca. Modification by photoperiod. Biol. Bull. 101: 71–83. 19 Brown, F. A., Jr. & M. N. Hines. 1952. Modifications in the diurnal pigmentary rhythm of Uca effected by continuous illumination. Physiol. Zool. 21: 371–381. 20 Stephens, G. C. 1957. The influence of temperature fluctuations on the diurnal melanophore rhythm of the fiddler crab, Uca. Physiol. Zool. 30: 55–69. 21 Brown, F. A., Jr., M. Fingerman, M. I. Sandeen & H. M. Webb. 1953. Persistent diurnal and tidal rhythms of color change in the fiddler crab, Uca pugnax. J. Exptl. Zool. 123: 29–60. 22 Webb, H. M. & F. A. Brown, Jr. 1959. Timing long-cycle physiological rhythms. Physiol. Rev. 39: 127–161. 23 Brown, F. A. Jr. 1961. Physiological rhythms. In The Physiology of Crustacea. 2: 401–430. T. H. Waterman, Ed. Academic Press. New York , N. Y. 24 Kleinholz, Lewis H. 1961. Pigmentary effectors. In The Physiology of Crustacea. 2: 133–169. T. H. Waterman. Ed. Academic Press. New York , N. Y. 25 Stephens, Grover C. 1962. Circadian melanophore rhythms of the fiddler crab: interaction between animals. Ann. N. Y. Acad. Sci. 98: 926–939. 26 Brown, F. A., Jr. 1938. An internal secretion affecting viability in Crustacea. Proc. Nat. Acad. Sci. (Washington) 24: 551–555. 27 Brown, F. A., Jr. & O. Cunningham. 1939. The influence of the sinus gland of crustaceans on normal viability and ecdysis. Biol. Bull. 77: 104–114. 28 Smith, R. I. 1940. Studies on the effects of eyestalk removal on young crayfish (Cambarus clakii Girard). Biol. Bull. 79: 145–152. 29 Scudamore, H. H. 1947. The influence of the sinus glands upon molting and associated changes of the crayfish. Physiol. Zool. 20: 187–208. 30 Passano, L. M. 1953. Neurosecretory control of molting in crabs by the X-organ sinus gland complex. Physiol. Comparata Oecol. 3: 155–189. 31 Koehler, F., F. K. Okano, L. R. Elveback, F. Halberg & J. J. Bittner. 1956. Periodograms for study of physiologic daily periodicity in mice and in man. Exptl. Med. Surg. 14: 5–30. 32 Halberg, F. & H. Panofsky. 1961. I. Thermo-variance spectra; method and clinical illustrations. Exptl. Med. Surg. 19: 284–309. 33 Panofsky, H. & F. Halberg. 1961. II. Thermo-variance spectra; simplified computational example and other methodology. Exptl. Med. Surg. 19: 323–338. 34 Webb, H. M., F. A. Brown, Jr. & M. I. Sandeen. 1954. A modification in the frequency of the persistent daily rhythm of the fiddler crab. Anat. Rec. 120: 796. 35 Sandeen, M. I. & J. H. Wheatley. 1962. Comparative study of motor activities and black chromatophore responses of the fiddler crab Uca pugilator. Am. Zool. 2: 554. 36 Geisler, Marianne. 1961. Untersuchungen zur Tagesperiodik des Mistkäfers Geotrupes silvaticus Panz. Zeitschr. Tierpsych. 18: 389–420. 37 Rensing, L. 1961. Aktivitätsperiodik des Wasserläufers Velia currens F. Zeitschr. Vergleich. Physiol. 44: 292–322. 38 Birukow, G. 1962. Tages- und Lunarperiodizität bei der Aktivität und Orientierung des Kornkäfers Calandra granaria L. Verhandl. Deutsch. Zoologisch. Gesellsch. (Wien). Citing Literature Volume117, Issue1Photo‐Neuro‐Endocrine Effects in Ciradian Systems, with Particular Reference to the EyeSeptember 1964Pages 386-406 ReferencesRelatedInformation" @default.
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