2001
DOI: 10.1039/b103246c
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Complex morphogenesis of surfaces: theory and experiment on coupling of reaction–diffusion patterning to growth

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Cited by 42 publications
(49 citation statements)
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“…For all three models, the majority of the final patterns were for dichotomous branching, but a substantial minority (e.g. about 20% for the Brusselator model) ended with annular pattern, and one model gave another variant also [tabulation, (Harrison et al, 2001)]. These results led to the bifurcation analysis reported here for two of the models.…”
Section: Introductionmentioning
confidence: 59%
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“…For all three models, the majority of the final patterns were for dichotomous branching, but a substantial minority (e.g. about 20% for the Brusselator model) ended with annular pattern, and one model gave another variant also [tabulation, (Harrison et al, 2001)]. These results led to the bifurcation analysis reported here for two of the models.…”
Section: Introductionmentioning
confidence: 59%
“…The analysis described here leads to basins of attraction indicating that, starting from random noise about the patternless steady state, patterning events should give dichotomous branching with 84% probability and annular pattern with 16% probability. Numerical solution of the dynamics (Harrison et al, 2001) further from the Turing instability boundary gave, in a set of 103 computations, 82% branched and 18% annular.…”
Section: Pattern Formation In the Brusselator Modelmentioning
confidence: 99%
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“…Modelling the morphogenesis of green algae, Harrison and Kolář (1988) and Holloway and Harrison (1999) couple a Turing mechanism to domain growth. Their study is extended to two-and threedimensional domains (Harrison et al, 2002). However, they also include a feedback mechanism to the kinetics such that the diffusion-driven instability operates only within history-dependent boundaries separated by 'inert' regions for which there is no pattern formation.…”
Section: Reactant-controlled Growthmentioning
confidence: 99%