Allometric Exponent and Randomness

Abstract

An allometric height-mass exponent $\gamma$ gives an approximative power-law relation $\propto H^\gamma$ between the average mass $$ and the height $H$, for a sample of individuals. The individuals in the present study are humans but could be any biological organism. The sampling can be for a specific age of the individuals or for an age-interval. The body-mass index (BMI) is often used for practical purposes when characterizing humans and it is based on the allometric exponent $\gamma=2$. It is here shown that the actual value of $\gamma$ is to large extent determined by the degree of correlation between mass and height within the sample studied: no correlation between mass and height means $\gamma=0$, whereas if there was a precise relation between mass and height such that all individuals had the same shape and density then $\gamma=3$. The connection is demonstrated by showing that the value of $\gamma$ can be obtained directly from three numbers characterizing the spreads of the relevant random Gaussian statistical distributions: the spread of the height and mass distributions together with the spread of the mass distribution for the average height. Possible implications for allometric relations in general are discussed.Comment: 10 pages, 3 figure