变代谢缩放打破了定律：从“牛顿式”到“达尔文式”方法。

Variable metabolic scaling breaks the law: from 'Newtonian' to 'Darwinian' approaches.

机构信息

Department of Biology, Juniata College, Huntingdon, PA 16652, USA.

出版信息

Proc Biol Sci. 2022 Oct 26;289(1985):20221605. doi: 10.1098/rspb.2022.1605. Epub 2022 Oct 19.

DOI:10.1098/rspb.2022.1605

PMID:36259209

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9579773/

Abstract

Life's size and tempo are intimately linked. The rate of metabolism varies with body mass in remarkably regular ways that can often be described by a simple power function, where the scaling exponent (, slope in a log-linear plot) is typically less than 1. Traditional theory based on physical constraints has assumed that is 2/3 or 3/4, following natural law, but hundreds of studies have documented extensive, systematic variation in . This overwhelming, law-breaking, empirical evidence is causing a paradigm shift in metabolic scaling theory and methodology from 'Newtonian' to 'Darwinian' approaches. A new wave of studies focuses on the adaptable regulation and evolution of metabolic scaling, as influenced by diverse intrinsic and extrinsic factors, according to multiple context-dependent mechanisms, and within boundary limits set by physical constraints.

摘要

生命的大小和节奏密切相关。新陈代谢的速度与体重以非常规则的方式变化，通常可以用一个简单的幂函数来描述，其中标度指数（对数线性图中的斜率）通常小于 1。基于物理约束的传统理论假设是 2/3 或 3/4，遵循自然法则，但数百项研究记录了的广泛而系统的变化。这种压倒性的、违反法律的经验证据正在导致代谢标度理论和方法从“牛顿”到“达尔文”方法的范式转变。一波新的研究关注的是新陈代谢标度的适应性调节和进化，这受到多种内在和外在因素的影响，根据多种依赖于上下文的机制，并在物理约束设定的边界限制内。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87e9/9579773/299ace684f22/rspb20221605f01.jpg

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变代谢缩放打破了定律：从“牛顿式”到“达尔文式”方法。

Variable metabolic scaling breaks the law: from 'Newtonian' to 'Darwinian' approaches.

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