The impact of growth at elevated [CO2] on stomatal anatomy and behavior differs between wheat species and cultivars

Abstract: The ability of plants to respond to changes in the environment is crucial to their survival and reproductive success. The impact of increasing atmospheric CO2 concentrations (a[CO2]), mediated by behavioral and developmental responses of stomata, on crop performance remains a concern under all climate change scenarios, with potential impacts on future food security. To identify possible beneficial traits that could be exploited for future breeding, phenotypic variation in morphological traits including stomata… Show more

“…In conclusion, stomatal patterning in Arabidopsis is at least partly differently controlled in the adaxial and abaxial epidermis. In wheat, adaxial stomata are responsible for the majority of leaf gas-exchange, they are more responsive to light than abaxial stomata, and adaxial stomatal density is higher and more responsive to growth at elevated CO 2 levels (Wall et al, 2022(Wall et al, , 2023. These recent works show that adaxial stomata are critical for gas-exchange in cereals and, given the relatively large stomatal ratios in Arabidopsis (Figure 3), can potentially account for a large proportion of gas-exchange also in herbs.…”

Stomatal patterning is differently regulated in adaxial and abaxial epidermis in Arabidopsis

“…In conclusion, stomatal patterning in Arabidopsis is at least partly differently controlled in the adaxial and abaxial epidermis. In wheat, adaxial stomata are responsible for the majority of leaf gas-exchange, they are more responsive to light than abaxial stomata, and adaxial stomatal density is higher and more responsive to growth at elevated CO 2 levels (Wall et al, 2022(Wall et al, , 2023. These recent works show that adaxial stomata are critical for gas-exchange in cereals and, given the relatively large stomatal ratios in Arabidopsis (Figure 3), can potentially account for a large proportion of gas-exchange also in herbs.…”

Stomatal patterning is differently regulated in adaxial and abaxial epidermis in Arabidopsis

Plants and global warming: challenges and strategies for a warming world

Enhanced photosynthesis, transpiration regulation, water use-efficiency and growth in buckwheat outperforms wheat response to high [CO2], high temperature and drought