A New Nonlinear Model for Uniform Vegetation Dynamics in Varying Pressure Conditions

Dec 25, 2025

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This study presents a novel nonlinear model exploring the dynamics of uniform vegetation under different pressure regimes, including high and low pressures. The model examines how varying pressures influence vegetation separation levels, recirculation areas, and their corresponding effects on growth rates—positive and negative acceleration phenomena. By analyzing these dynamics, the research aims to provide deeper insights into vegetation behavior in response to environmental stressors. This work contributes to the understanding of ecological responses to atmospheric changes and assists in modeling vegetation resilience.

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A New Nonlinear Model for Uniform Vegetation Dynamics in Varying Pressure Conditions

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A new nonlinear model – uniform vegetation High Pressure Low Pressure High Pressure Negative Positive Decelerate Slow down Accelerate Speed up 0 (Wang and Yi, 2011)
A new nonlinear model – uniform vegetation Zd = separation level Recirculation region -PGLc is Negative on leeside 0 (Wang and Yi, 2011)