Stomata under salt stress—what can mechanistic modeling tell us?

Thu, N. B.A. , Amtmann, A. , Blatt, M. R. and Nguyen, T.-H. (2022) Stomata under salt stress—what can mechanistic modeling tell us? In: Shabala, S. (ed.) Stomata Regulation and Water Use Efficiency in Plants under Saline Soil Conditions. Series: Advances in botanical research (103). Academic Press: Amsterdam, pp. 139-162. ISBN 9780323912174 (doi: 10.1016/bs.abr.2022.02.012)

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Abstract

Stomata are pores that form between pairs of guard cells and are commonly found in the leaf epidermis. The pores allow gaseous exchange between the inner air spaces of the leaf and the atmosphere, opening for CO2 entry to support photosynthesis and closing to reduce transpirational water loss. Guard cell membrane transport and its coordination play a central part in regulating the pore aperture. We know how guard cells respond to light, CO2 and drought with sufficient detail to model with quantitative accuracy their mechanics. By contrast, there is surprisingly little detail about the impact of salt stress on guard cells. Here we review the topic and introduce Na+ transport within the proven OnGuard3 modeling platform to question the mechanics of stomatal responses to salinity. The analysis indicates a critical role for ABA-mediated Ca2+ signaling as an early and overriding process leading to stomatal closure, a beneficial behavior for plants in the face of salt stress.

Item Type:Book Sections
Status:Published
Glasgow Author(s) Enlighten ID:Blatt, Professor Michael and Nguyen, Dr Thu and Nguyen, Thanh and Amtmann, Professor Anna
Authors: Thu, N. B.A., Amtmann, A., Blatt, M. R., and Nguyen, T.-H.
College/School:College of Medical Veterinary and Life Sciences > School of Molecular Biosciences
Publisher:Academic Press
ISBN:9780323912174
Published Online:17 March 2022

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Project CodeAward NoProject NamePrincipal InvestigatorFunder's NameFunder RefLead Dept
190663Stomatal-based systems analysis of water use efficiencyMichael BlattBiotechnology and Biological Sciences Research Council (BBSRC)BB/L001276/1MCSB - Plant Sciences
170599Analysing GORK clustering for enhanced stomatal controlMichael BlattBiotechnology and Biological Sciences Research Council (BBSRC)BB/M001601/1MCSB - Plant Sciences
172696Synthesis of Microcompartments in Plants for Enhanced Carbon FixationMichael BlattBiotechnology and Biological Sciences Research Council (BBSRC)BB/N01832X/1MCSB - Plant Sciences
307708BlinkGUARDMichael BlattBiotechnology and Biological Sciences Research Council (BBSRC)BB/T006153/1Institute of Molecular, Cell & Systems Biology
309171Engineering a native K+ channel to enhance stomatal kinetics - SynGORKMichael BlattBiotechnology and Biological Sciences Research Council (BBSRC)BB/T013508/1Institute of Molecular, Cell & Systems Biology