Vegetation spatial patterns in drylands serve as a direct indicator of whether the ecosystem is experiencing increasing or decreasing aridity trends.
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A reaction-diffusion model with spatial inhomogeneities produces a hysteresis loop between periodic hexagonal vegetation spots (increasing mortality) and aperiodic clustered spots (decreasing mortality) in arid ecosystems.
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Global remote sensing reveals vegetation clustering as a physical footprint of shifting aridity trends in drylands
Vegetation spatial patterns in drylands serve as a direct indicator of whether the ecosystem is experiencing increasing or decreasing aridity trends.
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Aperiodic clustered and periodic hexagonal vegetation spot arrays explained by inhomogeneous environments and climate trends in arid ecosystems
A reaction-diffusion model with spatial inhomogeneities produces a hysteresis loop between periodic hexagonal vegetation spots (increasing mortality) and aperiodic clustered spots (decreasing mortality) in arid ecosystems.