Phyllotaxis: cooperation and competition between mechanical and biochemical processes
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Publication:1788665
DOI10.1016/j.jtbi.2007.11.036zbMath1398.92155OpenAlexW2016186509WikidataQ33345094 ScholiaQ33345094MaRDI QIDQ1788665
Alan C. Newell, Patrick D. Shipman, Zhi-Ying Sun
Publication date: 8 October 2018
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jtbi.2007.11.036
Related Items (11)
Regulated transport as a mechanism for pattern generation: capabilities for phyllotaxis and beyond ⋮ \textit{In silico} leaf venation networks: growth and reorganization driven by mechanical forces ⋮ Self-similarity and scaling in two models of phyllotaxis and the selection of asymptotic divergence angles ⋮ Polarized Hessian covariant: contribution to pattern formation in the Föppl-von Kármán shell equations ⋮ Multiscale asymptotic analysis reveals how cell growth and subcellular compartments affect tissue-scale hormone transport ⋮ Multiscale modelling of auxin transport in the plant-root elongation zone ⋮ The shade avoidance syndrome: a non-Markovian stochastic growth model ⋮ Pattern formation in auxin flux ⋮ Strain- or stress-sensing in mechanochemical patterning by the phytohormone auxin ⋮ A renormalization approach to the universality of scaling in phyllotaxis ⋮ Phyllotaxis: some progress, but a story far from over
Cites Work
- Polygonal planforms and phyllotaxis on plants
- A dynamical system for plant pattern formation: A rigorous analysis
- Growth and instability in elastic tissues
- Plants and Fibonacci
- Phyllotaxis of flux lattices in layered superconductors
- On the Stability of Two‐Dimensional Convection in a Layer Heated from Below
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