Large stable pulse solutions in reaction-diffusion equations

Doelman, Arjen; Gardner, Rod; Kaper, Tasso J.

doi:10.1512/iumj.2001.50.1873

Cited by 166 publications

(372 citation statements)

References 34 publications

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“…Before making a case distinction, we do some preparatory work. As noted before, from expression (14), it can be seen that the stability of the homogeneous steady state can be manipulated by increasing c. Namely, there is only one term that depends on c, and for k 2 small, this term is approximated by 4c 2 a 1 a 4 < 0. By choosing the right value of c, it can be inferred that ReðkÞ ¼ 0 for some k 2 but nowhere ReðkÞ > 0.…”

Section: Destabilization By C and Monotonicity Of The Destabilizationmentioning

confidence: 79%

“…Because Ð p0 0 1 p dp diverges, for p small enough, the sign of (27) will again be positive and Eq. (14) has no solutions, again implying stability by Lemma 4 (Appendix A). ٗ Uniqueness of the destabilization locus on I for fixed p or fixed c is an immediate consequence of the strict monotonicity.…”

Section: Destabilization By C and Monotonicity Of The Destabilizationmentioning

confidence: 89%

“…First note that all terms in (14) are positive except a 1 a 4 < 0 on the second line and possibly d 1 d 2 k 2 À C, which appears on both lines. For c ¼ 0, this confirms the well-known fact that C > 0 is a necessary condition for a Turing instability, see (11).…”

Section: Striped Pattern Formationmentioning

confidence: 97%

“…We continue with some useful estimates that can be derived from (14). We first note an upper bound for the wavenumbers that can become critical given by…”

Section: Striped Pattern Formationmentioning

confidence: 99%

“…Now, all terms of (14) are positive for k 2 2 a 4 d 2 ; 1 Â Á , so these wavenumbers cannot be critical.…”

Section: Striped Pattern Formationmentioning

confidence: 99%

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Striped pattern selection by advective reaction-diffusion systems: Resilience of banded vegetation on slopes

Siero¹,

Doelman²,

Eppinga³

et al. 2015

Chaos: An Interdisciplinary Journal of Nonlinear Science

124

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For water-limited arid ecosystems, where water distribution and infiltration play a vital role, various models have been set up to explain vegetation patterning. On sloped terrains, vegetation aligned in bands has been observed ubiquitously. In this paper, we consider the appearance, stability, and bifurcations of 2D striped or banded patterns in an arid ecosystem model. We numerically show that the resilience of the vegetation bands is larger on steeper slopes by computing the stability regions (Busse balloons) of striped patterns with respect to 1D and transverse 2D perturbations. This is corroborated by numerical simulations with a slowly decreasing water input parameter. Here, long wavelength striped patterns are unstable against transverse perturbations, which we also rigorously prove on flat ground through an Evans function approach. In addition, we prove a "Squire theorem" for a class of two-component reaction-advection-diffusion systems that includes our model, showing that the onset of pattern formation in 2D is due to 1D instabilities in the direction of advection, which naturally leads to striped patterns. V C 2015 AIP Publishing LLC. This paper has been motivated by studies in one space dimension of a scaled phenomenological model for vegetation on possibly sloped planes in arid ecosystems. 53,60 One-dimensional patterns ideally represent striped patterns in two space dimensions by trivially extending them into a transversal direction. Such patterns are referred to as banded vegetation and have received considerable attention after reports of widespread observations. 8,58 Understanding the appearance and disappearance of vegetation bands may ultimately help prevent land degradation. The restriction to one space dimension may overestimate stability: patterns that are stable against 1D perturbations are not necessarily stable against all 2D perturbations. Natural questions to pose are:• Which of the 1D stable patterns extend to 2D stable striped patterns? • In case of destabilization by 2D perturbations, which mechanisms are responsible?In this paper, we answer these questions for the arid ecosystem model and determine the impact of slope induced advection of water. The influence of advection on striped pattern formation is studied in a more general setting. This approach provides a clear argumentation that is unobscured by model-specific details. Equally important, the results will be applicable to a wide range of models. Applicability to the arid ecosystem model is carefully checked though, assuring that the abstract requirements can in fact be met in practice.

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Section: Destabilization By C and Monotonicity Of The Destabilizationmentioning

confidence: 79%

Section: Destabilization By C and Monotonicity Of The Destabilizationmentioning

confidence: 89%

Section: Striped Pattern Formationmentioning

confidence: 97%

“…We continue with some useful estimates that can be derived from (14). We first note an upper bound for the wavenumbers that can become critical given by…”

Section: Striped Pattern Formationmentioning

confidence: 99%

“…Now, all terms of (14) are positive for k 2 2 a 4 d 2 ; 1 Â Á , so these wavenumbers cannot be critical.…”

Section: Striped Pattern Formationmentioning

confidence: 99%

See 3 more Smart Citations