Chaui-Berlinck recently published a paper in which he claims that the original West, Brown and Enquist (WBE) model for metabolic scaling(West et al., 1997) is fundamentally flawed (Chaui-Berlinck,2006). In particular, Chaui-Berlinck asserted that `the minimization procedure [of the original WBE model] is mathematically incorrect and ill-posed' and that the model `lacks self-consistency and correct statement'. These are strong accusations and should,therefore, be closely scrutinized. Unfortunately, Chaui-Berlinck's conclusions are incorrect because of rudimentary mathematical mistakes, and, even worse,these false conclusions are now being perpetuated in the literature. For example, Muller-Landau (Muller-Landau,2007), in a review for Faculty of 1000, recently drew attention to Chaui-Berlinck's paper by stating that `This article carefully dissects West, Brown and Enquist's(EF71997 )derivation of allometric scaling of metabolism. It illuminates important logical inconsistencies and mathematical problems with the argument'.
We note that none of the original authors nor the extended scaling community associated with the WBE model were asked to review Chaui-Berlinck's manuscript. As we show below, the entire basis of Chaui-Berlinck's paper stems from fundamental mathematical mistakes. In short, the conclusions of Chaui-Berlinck (and, subsequently, Muller-Landau) are completely incorrect. We conclude that Chaui-Berlinck's paper(Chaui-Berlinck, 2006) should be retracted.
The most egregious errors of Chaui-Berlinck are seen in his equation 5a. Specifically, Chaui-Berlinck makes two mistakes. He first mis-transcribes the original equation from WBE (West et al.,1997) and then makes a fundamental error in his calculus.
Notice that he swaps two β< for β> in the first term inside the parentheses. For the second mistake, he then goes on to evaluate equation 9 from WBE in a regime where the equation does not hold. Thus, Eqn 1b (above)contains expressions for geometric sums that hold only for values ofβ <, β>, n and γ such that
Unfortunately, Chaui-Berlinck's criticism did not incorporate these rules.
Chaui-Berlinck makes several additional errors. In the equation at the top of the second column on p. 3050, Chaui-Berlinck's treatment of the geometric constants in the Lagrange multiplier calculation is not correct. Specifically,in the original WBE model, (4/3)π(l/2)3 is the service volume, and the geometric constant (4/3)π(1/2)3 is absorbed into the arbitrary constant λk, highlighting the fact that the distinction between a sphere and a cube does not matter for these arguments. Lastly, Chaui-Berlinck rehashes the mistaken ideas of Dodds et al.(Dodds et al., 2001) and Kozlowski and Konarzewski (Kozlowski and Konarzewski, 2004). Interestingly, Chaui-Berlinck perpetuates these flawed arguments once more but does not cite the responses, which does not present a balanced, fair or accurate view of the field(Brown et al., 2005; Savage et al., 2004). In summary, Chaui-Berlinck's paper is riddled with mathematical mistakes that reflect a misreading of the original WBE paper.