The relationship between carbon dioxide fixation and chlorophyll a fluorescence during induction of photosynthesis in maize leaves at different temperatures and carbon dioxide concentrations

The rate of CO₂ fixation (F_c) and 680 nm chlorophyll fluorescence emission (F680) were measured simultaneously during induction of photosynthesis in Zea mays L. leaves under varying experimental conditions in order to assess the validity of fluorescence as an indicator of in vivo photosynthetic carbon assimilation. Z. mays leaves showed typical Kautsky fluorescence induction curves consisting of a fast rise in emission (O to P) followed by a slow quenching via a major transient (S-M) to a steady-state (T). After an initial lag, net CO₂ assimilation commenced at a point corresponding to the onset of the S-M transient on the F680 induction curve. Subsequently, F_c and F680 always arrived at a steady-state simultaneously. Decreasing the dark-adaption period increased the rate of induction of both parameters. Alteration of leaf temperature produced anti-parallel changes in induction characteristics of F_c and F680. Reducing the CO₂ level to below that required for saturation of photosynthesis also produced anti-parallel changes during induction, however, at CO₂ concentrations tenfold greater than the atmospheric level the rate of F680 quenching from P to T was appreciably reduced without a similar change in the induction of F_c. Removal of CO₂ at steady-state produced only a small increase in F680 and a correspondingly small decrease in F680 occurred when CO₂ was re-introduced. The complex relationship between chlorophyll fluorescence and carbon assimilation in vivo is discussed and the applicability of fluorescence as an indicator of carbon assimilation is considered.Abbreviations F_c rate of CO₂ fixation - F680 fluorescence emission at 680 nm