Reconciling the optimal and empirical approaches to modelling stomatal conductance

Medlyn, Belinda E.; Duursma, Remko A.; Eamus, Derek; Ellsworth, David S.; Prentice, I. Colin; Barton, Craig V. M.; Crous, Kristine Y.; Angelis, Paolo De; Freeman, Michael L.; Wingate, Lisa

doi:10.1111/j.1365-2486.2010.02375.x

articleGlobal Change BiologyNov 25, 2010BRONZE OA

Reconciling the optimal and empirical approaches to modelling stomatal conductance

BEBelinda E. Medlyn RARemko A. Duursma DEDerek Eamus DSDavid S. Ellsworth ICI. Colin Prentice

Macquarie University · Western Sydney University · +5 more institutions

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Abstract

Models of vegetation function are widely used to predict the effects of climate change on carbon, water and nutrient cycles of terrestrial ecosystems, and their feedbacks to climate. Stomatal conductance, the process that governs plant water use and carbon uptake, is fundamental to such models. In this paper, we reconcile two long-standing theories of stomatal conductance. The empirical approach, which is most commonly used in vegetation models, is phenomenological, based on experimental observations of stomatal behaviour in response to environmental conditions. The optimal approach is based on the theoretical argument that stomata should act to minimize the amount of water used per unit carbon gained. We…

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Topics & keywords

Topics

Keywords

Stomatal conductance
Empirical modelling
Climate model
Environmental science
Carbon cycle
Climate change
Conductance
Atmospheric sciences

UN Sustainable Development Goals

Clean water and sanitation

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