PHYLLOTAXIS AS A DYNAMICAL SELF ORGANIZING PROCESS .2. THE SPONTANEOUS FORMATION OF A PERIODICITY AND THE COEXISTENCE OF SPIRAL AND WHORLED PATTERNS

Douady S.; Couder Y.

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PHYLLOTAXIS AS A DYNAMICAL SELF ORGANIZING PROCESS .2. THE SPONTANEOUS FORMATION OF A PERIODICITY AND THE COEXISTENCE OF SPIRAL AND WHORLED PATTERNS

机译：PHYLLOTAXIS作为动态自组织过程.2。周期性的自发形成以及螺旋形和漩涡形图案的共存

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The conditions for the appearance of a new primordium put forward by Snow & Snow (1952) are shown to form the rules of a dynamical iterative system more general than that based on Hofmeister's hypotheses (1868). This system is simple, generic and compatible with several of the ideas about the possible nature of the interaction between primordia. By numerical simulation, it is demonstrated that this system is sufficient to spontaneously generate time periodic regimes in which the successive elements are organized either in Fibonacci spiral or in whorled modes of growth. We show that the dynamical system generally selects the pattern with the densest packing. The effect of the geometrical shape of the apex and of the primorida on the stability of the opposite decussate phyllotaxy is pointed out. (C) 1996 Academic Press Limited [References: 41]

机译：斯诺和斯诺（Snow＆Snow，1952）提出的新原基出现的条件表明，它形成了一个动态迭代系统的规则，该规则比基于霍夫迈斯特的假设（1868）更为普遍。该系统是简单，通用的，并且与关于原基之间相互作用的可能性质的一些想法兼容。通过数值模拟，证明了该系统足以自发地产生时间周期状态，在该时间周期状态中，连续元素以斐波那契螺旋或螺旋状增长模式组织。我们表明，动力学系统通常选择堆积最密集的模式。指出了顶点和原基的几何形状对相反的小孔系统叶类稳定性的影响。（C）1996 Academic Press Limited [参考号：41]

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《Journal of Theoretical Biology》 |1996年第3期|共20页
作者
Douady S.; Couder Y.;
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正文语种 eng
中图分类普通生物学;
关键词
Triangular unit; Transitions; Anagallis;

机译：三角形单位;过渡;Anagallis;

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1. PHYLLOTAXIS AS A DYNAMICAL SELF ORGANIZING PROCESS .2. THE SPONTANEOUS FORMATION OF A PERIODICITY AND THE COEXISTENCE OF SPIRAL AND WHORLED PATTERNS [J] . Douady S., Couder Y. Journal of Theoretical Biology . 1996,第3期

机译：PHYLLOTAXIS作为动态自组织过程.2。周期性的自发形成以及螺旋形和漩涡形图案的共存
2. Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks [J] . Irati Golvano-Escobal, Juan Carlos Gonzalez-Rosillo, Neus Domingo, Scientific reports. . 2016,第1期

机译：通过限制电沉积Co-In盘自发形成具有明显周期性物理特性的螺旋状图案
3. Whorled patterns of phyllotaxis [J] . Liu RT, Liaw SS International Journal of Modern Physics, C. Physics and Computers . 2007,第11期

机译：花序轴的轮状模式
4. Effects of nonlinear guiding on spontaneous pattern formation: Formation of spirals and target patterns [C] . F. Huneus, T. Ackemann, B. Schaepers, Nonlinear Guided Waves and Their Applications . 2002

机译：非线性引导对自发图案形成的影响：螺旋线和目标图案的形成
5. Spot and Spiral Chimera States: Dynamical Patterns in Networks of Coupled Oscillators. [D] . Panaggio, Mark J. 2014

机译：点和螺旋嵌合体状态：耦合振荡器网络中的动力学模式。
6. Spontaneous formation of spiral-like patterns with distinct periodic physical properties by confined electrodeposition of Co-In disks [O] . Irati Golvano-Escobal, Juan Carlos Gonzalez-Rosillo, Neus Domingo, -1

机译：通过限制Co-In盘的电沉积自发形成具有明显周期性物理特性的螺旋状图案
7. Phyllotaxis as a Dynamical Self Organizing Process Part I The Spiral Modes Resulting from Time!Periodic Iterations [O] . 100

机译：phyllotaxis作为一个动态的自组织过程第一部分由时间产生的螺旋模式！周期性迭代
8. Periodic Precipitation Patterns in the Presence of Concentration Gradients. 2. Spatial Bifurcation of Precipitation Bands and Stochastic Pattern Formation [R] . Kai, S., Mueller, S. C., Ross, J. 1983

机译：浓度梯度下的周期性降水模式。 2.降水带的空间分岔和随机模式的形成

PHYLLOTAXIS AS A DYNAMICAL SELF ORGANIZING PROCESS .2. THE SPONTANEOUS FORMATION OF A PERIODICITY AND THE COEXISTENCE OF SPIRAL AND WHORLED PATTERNS

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