Angiosperm and conifer tree species respond differently when exposed to elevated CO2,
with angiosperms found to dynamically reduce water loss while conifers appear insensitive …

The stomata of angiosperms respond to changes in ambient atmospheric concentrations of
CO2 (Ca) in ways that appear to optimize water‐use efficiency. It is unknown where in the …

In vascular plants, stomata balance two opposing functions: they open to facilitate CO 2
uptake and close to prevent excessive water loss. Here, we discuss the evolution of three …

Stomata control the flow of gases between plants and the atmosphere. This review is
centered on stomatal responses to elevated CO2 concentration and considers other key …

The limits for stomatal conductance are set by stomatal size (SS) and density (SD). An
inverse relationship between SS and SD has been observed in fossil and living plants. This …

Stomatal regulation of plant carbon uptake and water loss under changing environmental
conditions was a crucial evolutionary step in the colonization of land by plants. There are …

In response to short-term fluctuations in atmospheric CO2 concentration, ca, plants adjust
leaf diffusive conductance to CO2, gc, via feedback regulation of stomatal aperture as part of …

Deep dive into CO2-dependent molecular mechanisms driving stomatal responses in plants |
Plant Physiology | Oxford Academic Skip to Main Content Advertisement Oxford Academic …

Plant stomata display a wide range of short-term behavioural and long-term morphological
responses to atmospheric carbon dioxide concentration ([CO 2]). The diversity of responses …

Background The increase in atmospheric CO 2 is causing a number of changes in plant
growth such as increases in leaf area and number, branching, plant size and biomass, and …