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Steady‐state stomatal responses of <scp>C<sub>3</sub></scp> and <scp>C<sub>4</sub></scp> species to blue light fraction: Interactions with <scp>CO<sub>2</sub></scp> concentration

Shuyang Zhen, Bruce Bugbee

2020Plant Cell & Environment24 citationsDOI

Abstract

Abstract Blue light induced stomatal opening has been studied by applying a short pulse (~5 to 60 s) of blue light to a background of saturating photosynthetic red photons, but little is known about steady‐state stomatal responses. Here we report stomatal responses to blue light at high and low CO 2 concentrations. Steady‐state stomatal conductance (g s ) of C 3 plants increased asymptotically with increasing blue light to a maximum at 20% blue (120 μmol m −2 s −1 ). This response was consistent from 200 to 800 μmol mol −1 atmospheric CO 2 (C a ). In contrast, blue light induced only a transient stomatal opening (~5 min) in C 4 species above a C a of 400 μmol mol −1 . Steady‐state g s of C 4 plants generally decreased with increasing blue intensity. The net photosynthetic rate of all species decreased above 20% blue because blue photons have lower quantum yield (moles carbon fixed per mole photons absorbed) than red photons. Our findings indicate that photosynthesis, rather than a blue light signal, plays a dominant role in stomatal regulation in C 4 species. Additionally, we found that blue light affected only stomata on the illuminated side of the leaf. Contrary to widely held belief, the blue light‐induced stomatal opening minimally enhanced photosynthesis and consistently decreased water use efficiency.

Topics & Concepts

PhotosynthesisBlue lightStomatal conductanceSteady state (chemistry)BlueshiftBotanyConductanceQuantum yieldLight intensityChemistryHorticultureBiologyPhysicsOpticsPhotoluminescenceFluorescenceCondensed matter physicsPhysical chemistryLight effects on plantsPhotosynthetic Processes and MechanismsPhotoreceptor and optogenetics research