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A framework for quantifying deviations from dynamic equilibrium theory
Michael Kalyuzhny
, Curtis H. Flather
,
Nadav M. Shnerb
, Ronen Kadmon
Department of Physics - at Bar-Ilan University
Hebrew University of Jerusalem
University of Texas at Austin
United States Department of Agriculture
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peer-review
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Keyphrases
Anthropogenic Change
25%
Classical Dynamics
25%
Colonization Dynamics
25%
Colonization Events
25%
Colonization Rate
25%
Community Assembly
25%
Community Change
25%
Community Dynamics
75%
Dynamic Equilibrium
100%
Dynamic Equilibrium Model
25%
Ecological Communities
50%
Equilibrium Theory
100%
Error Rate
25%
Extinction Events
50%
Extinction Rate
25%
Human Stressors
25%
Life History
25%
Magnitude of Change
25%
Null Model
50%
Paris
25%
Proposed Methodology
25%
Species Composition
25%
Species Richness
25%
Statistical Power
25%
Statistical Properties
25%
Statistical Robustness
25%
Synthetic Time Series
25%
Mathematics
Equilibrium Model
50%
Equilibrium Theory
100%
Error Rate
50%
Extinction Rate
50%
Null
100%
Simple Model
50%
Simulated Data
50%
Species Richness
50%
Statistical Power
50%
Statistical Property
50%
Statistics
100%
Stochastics
100%
Engineering
Applicability
20%
Constant Rate
20%
Dynamic Equilibrium
100%
Ecosystems
40%
Equilibrium Model
20%
Error Rate
20%
Main Conclusion
20%
Randomization
20%
Simple Model
20%
Simulated Data
20%
Statistical Property
20%
Earth and Planetary Sciences
Ecological Community
100%
Flat Surface
50%
Species Richness
50%
Time Series
100%
Economics, Econometrics and Finance
Dynamic Equilibrium
100%
Equilibrium Model
20%
Equilibrium Theory
100%
Time Series
40%