MORPHOLOGICAL EVOLUTION IN MUROID RODENTS II. CRANIOMETRIC FACTOR DIVERGENCE IN SEVEN NEOTROPICAL GENERA, WITH EXPERIMENTAL RESULTS FROM ZYGODONTOMYS.

First principal components extracted from covariance matrices of log-transformed craniodental measurements closely approximate general size factors within field-collected samples representing 14 species in seven Neotropical muroid genera; because these samples are mixed-cross-sectional, scores are age-correlated and coefficients reflect postweaning growth allometries. Compared between congeners, sample first principal component coefficients are very similar, an observation that implies a nearly parallel orientation of ontogenetic trajectories in log-measurement space. On the assumption that a common general size factor (estimated as the first principal component of the pooled-within covariance matrix) accounts for most of the observed measurement covariance within samples, size-adjusted differences between congeneric species were estimated variable-by-variable in separate analyses of covariance; these differences reflect developmental adjustments of craniodental morphology that precede the measured interval of postweaning ontogeny. Vectors of size-adjusted difference coefficients are not similar from genus to genus, and a diversity of causal mechanisms is probably responsible. Analyses of captive-bred samples from two "species" of Zygodontomys provide prima facie evidence that size-adjusted differences estimated from field-collected samples have a genetic basis. Postweaning growth allometries in the muroid head skeleton may be conserved due to the biomechanical constraints of masticatory function; the apparent evolutionary plasticity of earlier ontogenetic adjustments may reflect the absence of such constraints in the fetus or suckling pup. The relevance of these results for current theories concerning the developmental genetics of mammalian morphometric evolution is discussed.