Why does elevated CO₂ affect time of flowering? An exploratory study using the photoperiodic flowering mutants of Arabidopsis thaliana
2009
Song, Xin | Kristie, David N. | Reekie, Edward G.
Evidence is accumulating that the effect of CO₂ on time of flowering involves interactions with photoperiod, but the basis for this interaction is unclear. Here, which components of the photoperiod flowering pathway account for this interaction in Arabidopsis thaliana were examined. Ten mutants deficient in particular loci in the photoperiod pathway, as well as the wild type, were grown under short and long days at either ambient or elevated CO₂. Leaf number at flowering and the number of days required for induction of flowering were determined. Elevated CO₂ interacted with both the photoreceptors and the subsequent transduction reactions in the photoperiod pathway. The direction and magnitude of the effects varied with photoperiod. Elevated CO₂ also affected flowering by increasing rate of leaf production. The net effect of elevated CO₂ on time of flowering varies because CO₂ has a complex array of effects on different elements of the developmental pathway leading to flower induction that may either hasten or delay flowering depending upon the influence of other environmental factors such as photoperiod.
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