THE RHYTHMIC NATURE OF LIFE 303 



Brett, J. W., 1953. Persistent diurnal rhythmicity in Drosophila emergence. Doctoral 



dissertation, Northwestern University. 

 Brown, F. A., Jr., 1954a. Simple, automatic, continuous-recording respirometer. Rev. 



Sci. Instr. 25, 415-417. 

 Brown, F. A., Jr., 1954b. Persistent activity rhythm.s in the oyster. Anter. Jour. 



Physiol. 178, 510-514. 



Brown, F. A., Jr., M. F. Bennett, and C. L. Ralph, 1955. An apparent reversible in- 

 fluence of cosmic-ray-induced showers upon a biological system. Proc. Soc. Exp. 

 Biol, and Med. 89, 332-337. 



Brown, F. A., Jr., M. F. Bennett, H. M. Webb, and C. L. Ralph, 1956. Persistent 

 daily, monthly, and 27-day cycles of activity in the oyster and quahog. Jour. Exp. 

 Zool. 131, 235-262. 



Brown, F. A., Jr., AI. Fingerman, M. I. Sandeen, and H. M. Webb, 1953. Persistent 

 diurnal and tidal rhythms of color change in the fiddler crab, Uca. pugnax. Jour. 

 Exp. Zool. 123,29-60. 



Brown, F. A., Jr., R. O. Freeland, and C. L. Ralph, 1955. Persistent rhythms of 

 O, -consumption in potatoes, carrots, and the sea-weed, Fucus. Plant Physiol. 30, 

 280-292. 



Brown, F. A., Jr., and H. \i. Webb, 1948. Temperature relations of an endogenous 

 daily rhj^hmicity of the fiddler crab, Uca. Physiol. Zool. 21, 371-381. 



Brown, F. A., Jr., and H. M. Webb. 1949. Studies of the daily rhythmicity of the 

 fiddler crab, Uca. Modification by light. Physiol. Zool. 22, 136-148. 



Brown, F. A., Jr., H. M. Webb, and M. F. Bennett, 1955. Proof for an endogenous 

 component in persistent solar and lunar rhythmicity in organisms. Proc. Nat. Acad. 

 Sci., Washington 41, 93-100. 



Brown, F. A., Jr., H. M. Webb, M. F. Bennett, and M. I. Sandeen, 1954. Temperature- 

 independence of the frequency of the endogenous tidal rhythm of Uca. Physiol. 

 Zool. 27, 345-349. 



Brown, F. A., Jr., H. M. Webb, M. F. Bennett, and M. I. Sandeen, 1955. Evidence 

 for an exogenous contribution to persistent diurnal and lunar rhythmicity under 

 so-called constant conditions. Biol. Bull. 109, 238-254. 



Blinning, E., 1935. Zur Kenntnis endonomen Tagesrhythmik bei Insecten und bei 

 Pflanzen. Ber. deutsch. bot Gesellsch. 53, 594-623. 



Caspers, H., 1951. Rhythmische Erscheinungen in der Fortpflanzung von Clunio 

 niarinus (Dipt. Ciron.) und das Problem der lunaren Periodizitat bei Organismen. 

 Arch. f. Hydrobiol. 18, 415-594. 



Clark, F. N., 1925. The life history of Leuresthes tenuis, an atherine fish with tide 

 controlled spawning habits. Calif. Fish and Game Comm., Fish Bull. 10. 



Hoagland, H., 1933. The physiological control of judgements of duration : evidence 

 for a chemical clock. Jour. Gen. Psych. 9, 267-286. 



Hoyt, W. D., 1927. The periodic fruiting of Dictyota and its relation to the environ- 

 ment. Am. J. Bot. 14, 592-619. 



Huntsman, A. G., 1948. Odontosyllis at Bermuda and lunar periodicity. Jour. Fish 

 Res. Bd., Canada 7, 363-369. 



Johnson, M. S., 1939. Effect of continuous light on periodic activity of white-footed 

 mice (Peromyscus). Jour. Exp. Zool. 82, 315-328. 



Kramer, G., 1952. Experiments on bird orientation. Ibis 94, 265-285. 



Pardi, L., and F. Papi, 1953. Ricerche sull' orientamento di Tcditrus saltator (Monta- 

 gu) I. L'orientamento durante il giorno in una populazione del litorale tirrenico. 

 Zeitschr. vergl. Physiol. 35, 459-489. 



