Stomatal conductance - Docslib

Top View

Dynamics of Canopy Stomatal Conductance, Transpiration, and Evaporation in a Temperate Deciduous Forest, Validated by Carbonyl Sulﬁde Uptake
Stomatal Conductance Responses of Acacia Caven to Seasonal Patterns of Water Availability at Different Soil Depths in a Mediterranean Savanna
Relating Stomatal Conductance to Leaf Functional Traits
Fertilization Effects on the Ecohydrology of a Southern California Annual Grassland
Elevated Atmospheric CO2 Negatively Impacts Photosynthesis Through
The Hydraulic Limitation Hypothesis Revisited
Understanding Stomatal Conductance Responses to Long-Term Environmental Changes: a Bayesian Framework That Combines
Eukaryotic Lipid Metabolic Pathway Is Essential for Functional Chloroplasts and CO2 and Light Responses in Arabidopsis Guard Cells
(VPD) Driving Stomatal Conductance and Biochemical Processes of Leaf Photosynthetic Rate in a Subtropical Evergreen Coniferous Plantation
Control of Vacuolar Dynamics and Regulation of Stomatal Aperture By
Turning the Challenges of Partitioning Ecosystem Evaporation and Transpiration Into Opportunities
Carbon Inputs to Ecosystems 5
The Intensification of Arctic Warming As a Result of CO2 Physiological
Modeling Stomatal Conductance in the Earth System: Linking Leaf Water-Use Efﬁciency and Water Transport Along the Soil–Plant–Atmosphere Continuum
Influence of Environmental Factors Light, CO2, Temperature, And
Hyperspectral and Thermal Sensing of Stomatal Conductance, Transpiration, and Photosynthesis for Soybean and Maize Under Drought
Stomatal Conductance and Photosynthesis Vary Linearly with Plant Hydraulic Conductance in Ponderosa Pine
Sap Flux-Scaled Transpiration and Stomatal Conductance Response To