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Warming triggers stomatal opening by enhancement of photosynthesis and ensuing guard cell <scp>CO<sub>2</sub></scp> sensing, whereas higher temperatures induce a photosynthesis‐uncoupled response

Nattiwong Pankasem, Po‐Kai Hsu, Bryn N. K. Lopez, Peter J. Franks, Julian I. Schroeder

2024New Phytologist36 citationsDOIOpen Access PDF

Abstract

Summary Plants integrate environmental stimuli to optimize photosynthesis vs water loss by controlling stomatal apertures. However, stomatal responses to temperature elevation and the underlying molecular genetic mechanisms remain less studied. We developed an approach for clamping leaf‐to‐air vapor pressure difference (VPD leaf ) to fixed values, and recorded robust reversible warming‐induced stomatal opening in intact plants. We analyzed stomatal temperature responses of mutants impaired in guard cell signaling pathways for blue light, abscisic acid (ABA), CO 2 , and the temperature‐sensitive proteins, Phytochrome B (phyB) and EARLY‐FLOWERING‐3 (ELF3). We confirmed that phot1‐5/phot2‐1 leaves lacking blue‐light photoreceptors showed partially reduced warming‐induced stomatal opening. Furthermore, ABA‐biosynthesis, phyB, and ELF3 were not essential for the stomatal warming response. Strikingly, Arabidopsis (dicot) and Brachypodium distachyon (monocot) mutants lacking guard cell CO 2 sensors and signaling mechanisms, including ht1 , mpk12/mpk4‐gc , and cbc1/cbc2 abolished the stomatal warming response, suggesting a conserved mechanism across diverse plant lineages. Moreover, warming rapidly stimulated photosynthesis, resulting in a reduction in intercellular (CO 2 ). Interestingly, further enhancing heat stress caused stomatal opening uncoupled from photosynthesis. We provide genetic and physiological evidence that the stomatal warming response is triggered by increased CO 2 assimilation and stomatal CO 2 sensing. Additionally, increasing heat stress functions via a distinct photosynthesis‐uncoupled stomatal opening pathway.

Topics & Concepts

Guard cellPhotosynthesisAbscisic acidBrachypodium distachyonArabidopsisStomatal conductancePhototropinBiologyBotanyPlant physiologyBiophysicsCell biologyMutantChemistryBiochemistryGeneGenomePhotosynthetic Processes and MechanismsLight effects on plantsPlant Stress Responses and Tolerance
Warming triggers stomatal opening by enhancement of photosynthesis and ensuing guard cell <scp>CO<sub>2</sub></scp> sensing, whereas higher temperatures induce a photosynthesis‐uncoupled response | Litcius