Taylor’s law for exponentially growing local populations linked by migration

IF 1.2 4区 生物学 Q4 ECOLOGY Theoretical Population Biology Pub Date : 2023-11-08 DOI:10.1016/j.tpb.2023.10.002
Samuel Carpenter , Scout Callens , Clark Brown , Joel E. Cohen , Benjamin Z. Webb
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Abstract

We consider the dynamics of a collection of n>1 populations in which each population has its own rate of growth or decay, fixed in continuous time, and migrants may flow from one population to another over a fixed network, at a rate, fixed over time, times the size of the sending population. This model is represented by an ordinary linear differential equation of dimension n with constant coefficients arrayed in an essentially nonnegative matrix. This paper identifies conditions on the parameters of the model (specifically, conditions on the eigenvalues and eigenvectors) under which the variance of the n population sizes at a given time is asymptotically (as time increases) proportional to a power of the mean of the population sizes at that given time. A power-law variance function is known in ecology as Taylor’s Law and in physics as fluctuation scaling. Among other results, we show that Taylor’s Law holds asymptotically, with variance asymptotically proportional to the mean squared, on an open dense subset of the class of models considered here.

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泰勒定律适用于因移民而呈指数级增长的当地人口。
我们考虑了n>1个种群的动态,其中每个种群都有自己的增长率或衰退率,在连续时间内是固定的,移民可能通过固定网络从一个种群流动到另一个种群,其流动率随着时间的推移是发送种群规模的倍。该模型由n维常线性微分方程表示,常系数排列在本质上非负的矩阵中。本文确定了模型参数上的条件(特别是特征值和特征向量上的条件),在该条件下,n个总体大小在给定时间的方差渐近(随着时间的增加)与该给定时间的总体大小的平均值的幂成比例。幂律方差函数在生态学中称为泰勒定律,在物理学中称为波动标度。在其他结果中,我们证明了泰勒定律在这里考虑的这类模型的开稠密子集上渐近成立,方差与均方渐近成比例。
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来源期刊
Theoretical Population Biology
Theoretical Population Biology 生物-进化生物学
CiteScore
2.50
自引率
14.30%
发文量
43
审稿时长
6-12 weeks
期刊介绍: An interdisciplinary journal, Theoretical Population Biology presents articles on theoretical aspects of the biology of populations, particularly in the areas of demography, ecology, epidemiology, evolution, and genetics. Emphasis is on the development of mathematical theory and models that enhance the understanding of biological phenomena. Articles highlight the motivation and significance of the work for advancing progress in biology, relying on a substantial mathematical effort to obtain biological insight. The journal also presents empirical results and computational and statistical methods directly impinging on theoretical problems in population biology.
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