Corrigendum: Cellular scaling rules for the brain of Artiodactyla include a highly folded cortex with few neurons

[This corrects the article on p. 128 in vol. 8, PMID: 25429261.].

It has come to our attention that some of the data presented in Table 1, on the mass, numbers of neurons and densities of brain structures in Artiodactyla, required minor corrections. Specifically, while the legend informed that total values for the cerebral cortex included the hippocampus (as in our previous studies), we recently realized that values for the hippocampus had in four cases been included in the rest of brain, not cerebral cortex, in Table 1, and had failed to be included for Damaliscus. There were a few other minor mistakes in the table that are now also corrected in Table 1 below.
While these corrections do not modify in any way the conclusions of the paper, some of the power exponents reported were influenced in minor, non-significant ways. Those corrected power exponents are also provided below.
Corrections in text: p. 4 -Brain mass varies 8.4-fold, number of brain neurons varies 4.8-fold. Corrected relationships and power functions: p. 4, Figure 3A -Brain mass increases as a power function of body mass with a small exponent of 0.548 ± 0.038 (p = 0.0048).
p. 4, Figure 3C -The total number of brain neurons increases as a power function of body mass with an exponent of 0.448 ± 0.115 (p = 0.0598).
p. 5 -The relative mass of the rest of brain does not decrease significantly with increasing brain mass (Spearman correlation, ρ = −0.800, p = 0.1041).
p. 7 -The cerebral cortex has only 15.7 ± 0.8% of all brain neurons, despite representing 69.5 ± 1.8% of brain mass, and the rest of brain, which accounts for 19.6 ± 1.8% of brain mass, has only 2.3 ± 0.3% of all brain neurons. p. 7, Figure 4A -Total brain mass varies as a power function of its number of neurons with an exponent of 1.288 ± 0.215 (r 2 = 0.923, p = 0.0093). p. 7, Figure 4B -The relationship between the mass of the cerebral cortex and its number of neurons has an exponent of 1.303 ± 0.154 (p = 0.0035) including the giraffe, and 1.721 ± 0.123 (r 2 = 0.990, p = 0.0051) excluding the giraffe. Cellular composition of the five artiodactyl species. M, mass of body (M BD ) or brain structure; N, number of neurons; DN, neuronal density (in neurons/mg); O/N, ratio between numbers of other (non-neuronal) cells and neurons. BR, whole brain (excluding the olfactory bulb); CXT, whole cerebral cortex (gray matter, white matter and hippocampus); GM, gray matter of the cerebral cortex; HP, hippocampus; CB, cerebellum; RoB, rest of brain (the sum of diencephalon + basal ganglia, mesencephalon, and pons + medulla); D + BG, diencephalon + basal ganglia; MES, mesencephalon; P + M, pons + medulla; OB, olfactory bulb. All values refer to the two hemispheres together.
p. 7, Figure 4D -The mass of the rest of brain scales as a power function of its number of neurons across artiodactyls with an exponent of 1.850 ± 0.303 (r 2 = 0.925, p = 0.0089). p. 7, Figure 5A -The relationship between mass of each brain structure (cerebral cortex, cerebellum and rest of brain) and number of other (non-neuronal) cells can be described as a single power function of exponent 0.859 ± 0.047 (p < 0.0001). p. 7, Figure 5B -Whole brain mass varies as a similar function of numbers of other cells across artiodactyls (exponent 0.986 ± 0.089, p = 0.0016) (. . . ) and all clades together (exponent, 1.040 ± 0.020, p < 0.0001).
p. 8 -Neuronal density in the cerebral cortex (gray + white matter + hippocampus) varies between 3574 neurons/mg in the greater kudu to 7276 neurons/mg in the pig (. . . ) and in the rest of brain, from 1727 neurons/mg