Stomatal conductance and not stomatal density determines the long-term reduction in leaf transpiration of poplar in elevated CO2

INIS

• carbon dioxide 100%
• canopies 33%
• density 16%
• efficiency 16%
• air 16%
• reduction 16%
• enrichment 16%
• closures 16%
• water use 16%
• poplars 16%
• stomata 16%
• levels 8%
• growth 8%
• forests 8%
• atmospherics 8%
• coppices 8%
• transpiration 8%

Agricultural and Biological Sciences

• Canopy 33%
• Leaves 25%
• Measurement 16%
• Stoma 16%
• Stomatal Conductance 16%
• Planting 8%
• Populus 8%
• Transpiration 8%
• Regrowth 8%
• Fields 8%
• Cells 8%
• Forests 8%
• Trees 8%
• Clones 8%
• Water Utilization 8%
• Water Use Efficiency 8%