In finite, anisotropic dryland models, periodic vegetation patterns increase susceptibility to nonlinear convective instabilities that drive desertification, contrary to predictions from isotropic infinite-domain models.
Analytical stud- ies of fronts, colonies, and patterns: combination of the Allee effect and nonlocal competition inter- actions
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How spatial patterns can lead to less resilient ecosystems
In finite, anisotropic dryland models, periodic vegetation patterns increase susceptibility to nonlinear convective instabilities that drive desertification, contrary to predictions from isotropic infinite-domain models.