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- 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
- Chapter 2: Stomatal Conductance Julian Pietragalla and Alistair Pask
- The Influence of Soil Moisture on Stomatal Conductance Responsiveness to CO2
- Stomatal Kinetics and Photosynthetic Gas Exchange Along a Continuum of Isohydric to Anisohydric Regulation of Plant Water Status
- Disentangling the Role of Photosynthesis and Stomatal Conductance on Rising Forest Water-Use Efficiency
- Modeling Plant–Water Interactions: an Ecohydrological Overview from the Cell to the Global Scale Simone Fatichi,1* Christoforos Pappas1,2 and Valeriy Y
- AWR Manzoni 2013.Pdf
- Improvement of Modelling Plant Responses to Low Soil Moisture in Julesvn4.9 and Evaluation Against Flux Tower Measurements Anna B
- Partitioning Direct and Indirect Effects Reveals the Response of Water
- The Rate-Limiting Step for Photosynthetic CO2 Utilization Under Varying Atmospheric Evaporative Demand in Solanum Lycopersicum (Tomato)
- Evaluating Ecohydrological Modeling Framework to Link Atmospheric CO2 and Stomatal Conductance
- Carbon Dioxide Effects on Stomatal Responses to the Environment and Water Use by Crops Under Field Conditions
- Comparative Plant Water Relations and Soil Water Depletion Patterns of Three Seral Shrub Species on Forest Sites in Southwestern Oregon
- Enhancement of the Stomatal Response to Blue Light by Red
- Quantification of Stomatal Conductance