Morphometrics of speciating mole rats: Adaptive differentiation in ecological speciation

Abstract

The morphometrics of subterranean mole rats, Spalax ehrenbergi superspecies in Israel, were studied. A total of 42 skull and body variables of 327 adults from 44 populations across the ranges of the 4 chromosomal species (2n = 52, 54, 58 and 60) were measured. The results showed: a. in general, significantly higher morphological values in males than in females; b. significant interspecific quantitative diffferences in 15 skull variables of males, and in 3 of females; but no qualitative diagnosis of any of the species; c. an intercorrelation between most skull variables at different orgamsmal levels, and a uniform and complete correlation with weight; d. a statistical discrimination in both metric and nonmetric multivariate analyses between most species pairs; e. an indication of high morphological similarity based on the relatively small multivariate Mahalanobis distances of dissimilarity between species; f. a possible explanation for a significant part of the variance in most skull and body variables resulting from a combination of temperature variables and water availability; g. a declination in size in skull and body variables between northern and southern species; h. the order of speciation events to be 2n = (54, 52)→58→60. Based on these results we conclude: 1. no morphological breaks are associated with the speciation of the S. ehrenbergi complex, and morphological differentiation is quantitative rather than qualitative between the species: 2. morphological diversity is significantly explained by climatic selection, and is therefore adaptive and explicable on even very low selective pressures over evolutionary time: 3. the morphospecies seem unable to reliably reflect the biological species in the S. ehrenbergi complex, and morphological differentiation, at least in this superspecies, evolves in a gradual rather than a punctual way: this would conform with Neo‐Darwinian evolutionary theory.