Variability in carbon exchange and light utilization among boreal forest stands: Implications for remote sensing of net primary production

Keyphrases

• Remote Sensing 100%
• Carbon Exchange 100%
• Net Primary Production 100%
• Boreal Forest Stands 100%
• Light Utilization 100%
• Respiration 66%
• Intercepted Photosynthetically Active Radiation 66%
• Moisture 33%
• Tree Species 33%
• Total Carbon 33%
• Gross Primary Production 33%
• Carbon Gain 33%
• Minnesota 33%
• Populus Tremuloides Michx 33%
• Light Use Efficiency 33%
• Carbon Assimilation 33%
• Two-tree 33%
• Stomatal Control 33%
• Autotrophic Respiration 33%
• Satellite Remote Sensing 33%
• Picea Mariana (Mill.) BSP 33%
• Ecophysiological Model 33%
• Net Production 33%
• Light Harvesting 33%

Earth and Planetary Sciences

• Remote Sensing 100%
• Boreal Forest 100%
• Net Primary Production 100%
• Photosynthetically Active Radiation 100%
• Primary Production 33%
• Minnesota 33%
• Light Use Efficiency 33%
• Satellite Remote Sensing 33%

Agricultural and Biological Sciences

• Primary Production 100%
• Remote Sensing 100%
• Forest Stands 100%
• Boreal Forest 100%
• Photosynthetically Active Radiation 50%
• Populus tremuloides 25%
• Carbon Fixation 25%
• Picea mariana 25%