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OnGuard3e: A predictive, ecophysiology‐ready tool for gas exchange and photosynthesis research

Thanh‐Hao Nguyen, Fernanda A. L. Silva‐Alvim, Adrian Hills, Michael R. Blatt

2023Plant Cell & Environment12 citationsDOIOpen Access PDF

Abstract

Abstract Gas exchange across the stomatal pores of leaves is a focal point in studies of plant‐environmental relations. Stomata regulate atmospheric exchange with the inner air spaces of the leaf. They open to allow CO 2 entry for photosynthesis and close to minimize water loss. Models that focus on the phenomenology of stomatal conductance generally omit the mechanics of the guard cells that regulate the pore aperture. The OnGuard platform fills this gap and offers a truly mechanistic approach with which to analyse stomatal gas exchange, whole‐plant carbon assimilation and water‐use efficiency. Previously, OnGuard required specialist knowledge of membrane transport, signalling and metabolism. Here we introduce OnGuard3e, a software package accessible to ecophysiologists and membrane biologists alike. We provide a brief guide to its use and illustrate how the package can be applied to explore and analyse stomatal conductance, assimilation and water use efficiencies, addressing a range of experimental questions with truly predictive outputs.

Topics & Concepts

Guard cellCarbon assimilationPhotosynthesisStomatal conductanceSoftware packageConductanceAssimilation (phonology)Phenomenology (philosophy)EcophysiologyComputer scienceSoftwareEnvironmental scienceBotanyBiologyPhysicsLinguisticsProgramming languageCondensed matter physicsEpistemologyPhilosophyPlant Water Relations and Carbon DynamicsPhotosynthetic Processes and MechanismsPlant Stress Responses and Tolerance
OnGuard3e: A predictive, ecophysiology‐ready tool for gas exchange and photosynthesis research | Litcius