Keyphrases
Ecosystem Model
100%
Ameriflux Sites
100%
Arrhenius
100%
Soil Heterotrophic Respiration
100%
Northeastern USA
100%
Enzymatic Model
100%
Forest Biomass
66%
Michaelis-Menten
55%
Respiration
44%
Michaelis-Menten Function
44%
Soil Moisture
33%
Earth System Model
33%
Howland Forest
22%
Model Performance
22%
Ecosystem Fluxes
22%
Soil Respiration
22%
Dry Events
22%
Soil Flux
22%
Substrate Supply
22%
Respiration Model
22%
Harvard Forest
22%
Biomass Model
22%
Flux Model
22%
Allocation Model
22%
Apparent Temperature Sensitivity
22%
Assimilation Model
22%
Environmental Factors
11%
Dry Year
11%
Landscape Scale
11%
Ecosystem Respiration
11%
Carbon Dioxide CO2
11%
Model Forest
11%
C Flux
11%
Modeling Data
11%
Temperature Sensitivity
11%
Heterotrophic Respiration
11%
Eddy Covariance
11%
Carbon C
11%
Dry Period
11%
Flux Data
11%
Soil Organic Matter
11%
Site Conditions
11%
Heterotrophs
11%
Water Restriction
11%
Multiple Constraints
11%
Oxygen Diffusion
11%
Confounding Factors
11%
Explicit Representation
11%
Terrestrial Systems
11%
Soil-landscape Relationship
11%
C Substrate
11%
Parsimonious Models
11%
Synoptic Scale
11%
Extracellular Enzymes
11%
Data Mismatch
11%
Empirical Function
11%
Soil Compartment
11%
Enzymatic Reaction
11%
Substrate Enzyme
11%
Reaction Sites
11%
Arrhenius Function
11%
Annual Dynamics
11%
Mechanistic Structure
11%
Michaelis-Menten Model
11%
Declining Trend
11%
Microbial Processing
11%
Soil Moisture Effect
11%
Diffusion Function
11%
Earth and Planetary Sciences
United States of America
100%
Soil Moisture
100%
Soil Organic Matter
25%
Carbon Dioxide
25%
Planetary Atmosphere
25%
Eddy Covariance
25%
Soil Respiration
25%
Climate Condition
25%
Heterotroph
25%
Agricultural and Biological Sciences
Ecosystem Model
100%
Soil Moisture
66%
Soil Respiration
33%
Annuals
16%
Eddy Covariance
16%
Ecosystem Respiration
16%
Environmental Factor
16%
Soil Organic Matter
16%
Temporal Scale
16%
Heterotroph
16%
Enzymatic Reaction
16%