The regulation of stomatal aperture opening and closure represents an evolutionary battle
between plants and pathogens, characterized by adaptive strategies that influence both …

Global climate change‐caused drought stress, high temperatures and other extreme
weather profoundly impact plant growth and development, restricting sustainable crop …

Stomatal movement is vital for plants to exchange gases and adaption to terrestrial habitats,
which is regulated by environmental and phytohormonal signals. Here, we demonstrate that …

Stomata are micropores on the leaf epidermis that allow carbon dioxide (CO2) uptake for
photosynthesis at the expense of water loss through transpiration. Stomata coordinate the …

Plants integrate environmental stimuli to optimize photosynthesis vs water loss by controlling
stomatal apertures. However, stomatal responses to temperature elevation and the …

Global climate change is affecting plant photosynthesis and transpiration processes, as well
as increasing weather extremes impacting socio‐political and environmental events and …

The stomatal response to red light appears to link stomatal conductance (gs) with
photosynthetic rates. Initially, it was suggested that changes in intercellular CO2 …

Exploring the impact of elevated CO 2 on photosynthesis is vital for understanding plant
responses to climate change. In C 3 plants, elevated CO 2 concentrations generally …

Protein phosphorylation is a major molecular switch involved in the regulation of stomatal
opening and closure. Previous research defined interaction between MAP kinase 12 and …

Abstract Elevated [CO2](eCO2) and water stress reduce leaf stomatal conductance (gs),
which may affect leaf thermoregulation during heat waves (heat stress). Two sorghum lines …