生物“结构”及其进化的技术形态概念化

IF 2.4 2区生物学 Q1 ZOOLOGY

Vertebrate Zoology Pub Date : 2022-09-09 DOI:10.3897/vz.72.e86968

M. Drack, O. Betz

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引用次数: 1

摘要

在这里，我们建立在早期关于工程设计概念的工作基础上，并研究它们与进化生物学的概念联系。这项工作的基础是一个工程设计方案，涵盖了功能、工作原理和结构的核心概念。通过将这些概念与工程优化中使用的所谓设计空间联系起来，探索其与进化生物学的相关性。该工具可以区分性能的各种最佳，并可视化其相对于干扰或参数变化的鲁棒性。形态学“结构”对于形状变化的鲁棒性通过工程和生物学的例子来证明。然后，设计空间中各种“景观”的特征与可进化性的概念相关，由此我们探索系统生物学和形态学之间的类比。从分子到有机体水平的表型的一般特性似乎是，它们的“构造”促进了它们的稳健性和对设计空间的探索，同时保持了相关功能在高水平上的表现。

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A technomorphic conceptualisation of biological ‘constructions’ and their evolution

Here, we build on earlier work concerning notions of engineering design and investigate their conceptual connection to evolutionary biology. The basis for this work is an engineering design schema covering the central concepts of function, working principle and construction. Its relevance for evolutionary biology is explored by connecting these concepts to the so-called design space that is used in engineering optimisation. This tool makes it possible to distinguish various optima of performance and to visualise their robustness with respect to disturbances or changes in parameters. The robustness of morphological ‘constructions’ with regard to changes of shape is shown by means of examples from engineering and biology. The characteristics of various ‘landscapes’ in the design space is then related to the concept of evolvability, whereby we explore analogies between systems biology and morphology. A general property of phenotypes from the molecular to the organismal level seems to be that their ‘construction’ facilitates both their robustness and their exploration of the design space while maintaining the performance of the relevant functions at a high level.

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来源期刊

Vertebrate Zoology ZOOLOGY-

CiteScore

4.00

自引率

19.00%

发文量

审稿时长

>12 weeks

期刊介绍： Research fields covered by VERTEBRATE ZOOLOGY are ta‍xo‍no‍my, mor‍pho‍logy, an‍at‍omy, phy‍lo‍ge‍ny (mo‍le‍cu‍lar and mor‍pho‍lo‍gy-based), hi‍sto‍ri‍cal bio‍geo‍gra‍phy, and pa‍lae‍on‍to‍lo‍gy of ver‍te‍bra‍tes.