Oscillations in photosynthetic carbon assimilation and chlorophyll fluorescence are different in Amaranthus caudatus, a C4 plant, and Spinacia oleracea, a C3 plants

• Published in: Planta Vol. 195; no. 4; pp. 471 - 477
• Main Authors: Raghavendra, A.S, Gerst, U, Heber, U
• Format: Journal Article
• Language: English
• Published: 1995
• Subjects: Amaranthus caudatus; biochemical pathways; carbon; chlorophyll; electron transfer; fluorescence; light; light relations; net assimilation rate; oscillation; photon flux density; photoperiod; Spinacia oleracea; temperature
• ISSN: 0032-0935; 1432-2048

The characteristics of oscillations in photosynthetic carbon fixation and chlorophyll fluorescence in leaves of the C4 plant Amaranthus caudatus L. were compared to those shown by the C3 plant Spinacia oleracea L. As in spinach, oscillations could be observed in Amaranthus when leaves were illuminated after periods of darkening, particularly at temperatures below 20 degrees C, less so or not at all at higher temperatures. However, in contrast to spinach, pronounced oscillations occurred in Amaranthus after a sudden dark/light transition only at low, not at high photon flux densities. Whereas in spinach maxima in carbon uptake were observed slightly after minima in chlorophyll fluorescence had occurred, in Amaranthus maxima in carbon uptake were close to maxima in chlorophyll fluorescence. Since the quantum efficiency of electron transport through photosystem II of the chloroplast electron-transport chain was higher during the minima of chlorophyll fluorescence than during the maxima, the observations suggest that in Amaranthus photosynthetic water oxidation did not occur as synchronously with carbon uptake as in spinach. It is proposed that, in contrast to spinach, photosynthetic oscillations in Amaranthus are related to the diffusional transport of photosynthetic intermediates between mesophyll and bundle-sheath cells.