. Bacterial photosynthesis. Bacteria -- Physiology; Photosynthesis. ENERGY TRANSFER IN GREEN BACTERIA 417 + .004 - +.002 - < < .002 + .001 < < .001 400 450 500 WAVELENGTH IN m^Li 550 Fig. 4. Light-induced absorbancy changes in anaerobic green bacteria. Upper panel: changes in C. fliiosnlfatophil/iiii L caused by ^ light of "high" intensity (? x 10-9 einstein cm-2 sec-l). Lower panel: changes in Cps. cthylicuni caused by yU light of "low" intensity (l X 10-9 einstein cm-2 sec-l).. Please note that these images are extracted from scanned pag
. Bacterial photosynthesis. Bacteria -- Physiology; Photosynthesis. ENERGY TRANSFER IN GREEN BACTERIA 417 + .004 - +.002 - < < .002 + .001 < < .001 400 450 500 WAVELENGTH IN m^Li 550 Fig. 4. Light-induced absorbancy changes in anaerobic green bacteria. Upper panel: changes in C. fliiosnlfatophil/iiii L caused by ^ light of "high" intensity (? x 10-9 einstein cm-2 sec-l). Lower panel: changes in Cps. cthylicuni caused by yU light of "low" intensity (l X 10-9 einstein cm-2 sec-l).. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Symposium on Bacterial Photosynthesis (1963 : Yellow Springs, Ohio); Charles F. Kettering Research Laboratory (Yellow Springs, Ohio); Gest, Howard. Yellow Springs, Ohio, Antioch Press
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