权力缩放,血管分支和黄金比例

IF 0.2 Q4 EVOLUTIONARY BIOLOGY Ideas in Ecology and Evolution Pub Date : 2016-07-29 DOI:10.4033/IEE.2016.9.4.N
Paul N. Frater, A. Duthie
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引用次数: 1

摘要

黄金比例(约1.618:1的比例)在自然界中反复出现,包括生物体的结构和功能特征(例如蜗牛壳和某些种子头的斐波那契螺旋),星系和飓风的螺旋形状,甚至在许多文化建筑和艺术中。在19世纪中期,植物和动物血管系统的分支结构被发现遵循黄金比例;也就是说,在植物和动物的维管系统中,连续的分支往往遵循大约1.618:1的长度比。在这里,我们提出了一个模型,使用这种经验证据作为分支比例在理论血管系统。然后,我们使用模型系统的定义质量作为终端单元的对数-对数缩放的预测器。在该模型中,对数终端单位和对数质量的尺度与其他模型以及经验证据相似,但更简洁,并且在所有可用的异速尺度模型中尚未提供视角。这个模型提出了关于黄金比例对生物体能量缩放的影响的新颖而广泛的假设。
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Power scaling, vascular branching, and the Golden Ratio
The Golden Ratio (a ratio of ~1.618:1) appears repeatedly in nature including structural and functional traits of organisms (e.g. Fibonacci spirals of snail shells and certain seed heads), the spiraled shape of galaxies and hurricanes, and even in much cultural architecture and art. In the mid-19th century, branching structures in plant and animal vascular systems were found to follow the Golden Ratio; that is, successive branches in the vascular systems of plants and animals tend to follow a length ratio of about 1.618:1. Here we present a model that uses this empirical evidence as a branching ratio in theoretical vascular systems. We then use a defined mass of the model system as a predictor of log-log scaling of terminal units. In this model, log terminal units and log mass scale similarly with that of other models as well as empirical evidence, but with more parsimony and a perspective not yet offered among all available models of allometric scaling. This model invites novel and broad hypotheses on the influence of the Golden Ratio on power scaling in organisms.
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来源期刊
Ideas in Ecology and Evolution
Ideas in Ecology and Evolution EVOLUTIONARY BIOLOGY-
自引率
0.00%
发文量
4
审稿时长
36 weeks
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