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A process-based model of forest ecosystems driven by meteorology
Christopher R. Schwalm, Alan R. Ek
Earth and Sustainability
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Article
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peer-review
39
Scopus citations
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Keyphrases
Forest Ecosystem
100%
Process-based Model
100%
Meteorology
100%
North America
50%
Sensitivity Analysis
50%
Treewidth
50%
Climate Change
50%
Water Use Efficiency
50%
Plant Growth
50%
Anthropogenic Climate Change
50%
Model Forest
50%
Field Plot
50%
Model Use
50%
Water Cycle
50%
Tree Growth
50%
Model Output
50%
Deciduous Species
50%
Carbon Cycle
50%
Basal Area Increment
50%
Scale Factor
50%
Coniferous Species
50%
Global Warming
50%
Current Climate
50%
Light Interception
50%
Growth Trajectory
50%
DATAPLOT
50%
Model Initialization
50%
Nutrient Cycle
50%
Tree Model
50%
Individual Tree Growth
50%
Forest Inventory
50%
Model Drivers
50%
Typical Forests
50%
Daily Steps
50%
Photosynthetic Potential
50%
Influence Tree
50%
Great Lakes Region
50%
Earth and Planetary Sciences
Climate Change
100%
Forest Ecosystem
100%
North America
50%
Basal Area
50%
Water Use Efficiency
50%
Boundary Condition
50%
Carbon Cycle
50%
Great Lakes Region
50%
Global Warming
50%
Forest Inventory
50%
Field Plots
50%
Agricultural and Biological Sciences
Tree Growth
100%
Climate Change
100%
Forest Ecosystem
100%
Basal Area
50%
Water Use Efficiency
50%
Plant Growth
50%
Field Plots
50%
Deciduous
50%
Global Warming
50%
Forest Inventory
50%