Evapotranspiration and water yield of a pine-broadleaf forest are not altered by long-term atmospheric [CO₂] enrichment under native or enhanced soil fertility

Keyphrases

• Evapotranspiration 100%
• Water Yield 100%
• Soil Fertility 100%
• Atmospheric CO2 Enrichment 100%
• Broad-leaved Forest 100%
• ECO2 42%
• Fertilization 28%
• Mean Annual Precipitation 28%
• Terrestrial Ecosystems 28%
• Streamflow 14%
• Treatment Difference 14%
• Water Balance 14%
• Surface Runoff 14%
• Life-cycle Model 14%
• Economic Consequences 14%
• Ecological Consequences 14%
• Rising CO2 14%
• Atmospheric CO2 Concentration 14%
• Transpiration 14%
• Leaf Area Index 14%
• Pinus Taeda 14%
• Equation Model 14%
• Sap Flux 14%
• Terrestrial Vegetation 14%
• Global Water Cycle 14%
• Broadleaves 14%
• Richards Equation 14%
• Flux Sensor 14%

Earth and Planetary Sciences

• Atmospherics 100%
• Water Yield 100%
• Soil Fertility 100%
• Carbon Dioxide 100%
• Evapotranspiration 100%
• Terrestrial Ecosystem 28%
• Vegetation 14%
• Streamflow 14%
• Water Balance 14%
• Runoff 14%
• Leaf Area 14%
• Richards Equation 14%

Agricultural and Biological Sciences

• Pinus 100%
• Soil Fertility 100%
• Evapotranspiration 100%
• Terrestrial Ecosystem 28%
• Sap 14%
• Water Balance 14%
• Sweating 14%
• Pinus taeda 14%
• Leaf Area Index 14%
• Richards Equation 14%