AUTHOR INDEX 



575 



Fleischer, W. E.: Photosynthesis in chlorotic plants, 337-339, 428. 



Fockler, H.: Effect of violet and ultraviolet light on photosynthesis and respbation, 

 564-565; photoxidation in shade plants exposed to strong light, 533, 535. See 

 also Montfort, C. 



Foster, J. W. : Oxidation of isopropanol to acetone by purple bacteria in hght, 107. See 

 also Carson, S. F. 



Franck, J.: Interpretation of cyanide inhibition of photosynthesis, 307; interpretation 

 of photochemical carbon dioxide gush, 167; multiplicity of nonphotochemical re- 

 actions in photosynthesis, 172-173, 285. See also Livingston, R. ; Weller, S. 



and French, C. S.: Aftereffects of photoxidation, 566; photoxidation in carbon di- 

 oxide starved plants, 527-531, 536; photoxidation poisons the photosynthetic 

 apparatus, 329, 532, 536. 



, French, C. S., and Puck, T. T.: Fluorescence and photosynthesis, nonUmiting 



catalji-ic reactions in photosynthesis, 167, 307, 310. 



and Herzfeld, K. F.: Delayed photochemical dissociation of large molecules, 484; 



first (four quanta) theory of photosynthesis, 287-290; second (eight quanta) 

 theory of photosynthesis, 154, 155, 162-164, 545, 550, 555. 



and Livingston, R.: Tautomerization of chlorophyll in solution, 490-491, 493. 



and Pringsheim, P.: Oxygen production by first hght flash after anaerobiosis, 



demonstrated by phosphorescence quenching method, 327. 



and Wood, R. W., Dissociation within the sensitizer-substrate complex as mecha- 

 nism of sensitization by chlorophyll 521; fluorescence and primary dissociation 

 of chlorophyll in solution, 484. 



Franzen, H. See Curtius, Th. 



French, C. S.: Pigments and photochemical metaboUsm of bacteria, 101, 110, 388. 

 See also Franck, J. 



Frenkel, A. W.: Location of carbon dioxide acceptor in the cell, 204. See also Ruben, S. 



G 



Gaffron, H.: Bacteriochlorophyll as sensitizer in vitro, 514-515; effect of hydroxylamine 

 and other inhibitors on adaptation, de-adaptation, and photoreduction in algae, 

 313, 315, 318-319; inhibition of photosynthesis and photoreduction by cyanide, 

 305-311; inhibition of photosynthesis by oxygen deficiency, 327-329; long-Uved 

 active states of autoxidation substrates, 516; metabohsm of anaerobically incuba- 

 ted algae (adaptation, de-adaptation, photoreduction, oxyhydrogen reaction), 

 128-148; metaboUsm of purple bacteria, 101, 104, 106, 108-110; nonoccurrence of 

 hydrogen peroxide as intermediate in photosynthesis and chemosynthesis, 286; 

 peroxide formation and inhibition of photosynthesis by photoxidation, 293, 508, 

 511; photosynthesis of algae in which respiration is completely inhibited, 285-286, 

 305-306, 570; primary photochemical process in purple bacteria, 168-170; quan- 

 tum yield of chlorophyll-sensitized autoxidations in vitro, 509, 513, 518; relation 

 of photosynthesis and respiration, 562, 563, 569, 570; specific poisoning of different 

 partial reactions in photosynthesis, 300. See also Rieke, F. F. 



Gaidukov, N. I. See Engelmann, Th. W. 



Gessner, F.: Effect of ultraviolet light on respiration, 564, 569. 



Ghosh, J. C., and Sen-Gupta, S. B.: Quantum yield of chlorophyll-sensitized reaction of 

 methyl red with phenylhydrazine, 513-514. 



Godnev, T. N., and KaUshevich, S. V.: Chlorophyll content of single chloroplasts, 411. 



Granick, S.: Separation and analysis of chloroplastic matter, 369-375. 



Green, L. See Emerson, R. 



Greenfield, S. S. : Inhibition of photosynthesis by various cations and anions, 340-342. 



Griessmeyer, H. See Noack, K. 



