Was the evolution of faster stomata driven by increased gas exchange rates rather than increasing water use efficiency?
Robert A. Brench, Matthew J. Wilson, Sarah J. Thorne, Andrew J. Fleming, Julie E. Gray

TL;DR
The paper investigates whether faster stomatal responses evolved to improve gas exchange rather than water use efficiency in plants.
Contribution
The study challenges the assumption that faster stomatal responses evolved for water use efficiency, suggesting instead they evolved for increased gas exchange rates.
Findings
Species with dumbbell-shaped guard cells showed faster maximum rates of stomatal adjustment and larger changes in photosynthesis.
No significant differences in stomatal opening time or water use efficiency were found between guard cell types.
Increased gas exchange rates, not faster stomatal response times, are proposed as the evolutionary driver for dumbbell-shaped guard cells.
Abstract
Following changes in light flux, photosynthesis (A) typically adjusts more quickly than stomatal conductance (g s), which is dependent on changes in stomatal aperture. Faster stomatal responses are proposed to reduce water loss and enhance growth in dynamic light environments.Stomatal opening and closing parameters were determined in a range of species across the land plant phylogeny using infrared gas exchange analysis to monitor A and g s, following step changes in light flux.The acquisition of abaxial stomata and dumbbell‐shaped guard cells in angiosperms coincides with two distinct increases in photosynthetic capacity. Species with dumbbell‐shaped guard cells achieved larger changes in A and faster maximum rates of g s adjustment than species with kidney‐shaped guard cells. However, species with dumbbell‐shaped guard cells did not open or close their stomata in a significantly…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Photosynthetic Processes and Mechanisms · Plant responses to water stress
