Cubo, J., LeRoy, N., Martinez-Maza, C., and L. Montes. 2012. Paleohistological estimation of bone growth rate in extinct archosaurs. Paleobiology 38:335-339. doi: http://dx.doi.org/10.1666/08093.1
Abstract - The
clade Archosauria contains two very different sister groups in terms of
diversity (number of species) and disparity (phenotypic variation): Crurotarsi
(taxa more closely related to crocodiles than to birds) and Ornithodira
(pterosaurs and dinosaurs including birds). The extant species of Crurotarsi
may constitute a biased sample of past biodiversity regarding growth patterns
and metabolic rates. Bone histological characters can be conserved over
hundreds of millions of years in the fossil record and potentially contain
information about individual age at death, age at sexual maturity, bone growth
rates, and basal metabolic rates of extinct vertebrates. Using a sample of
extant amniotes, we have constructed a paleobiological model to estimate bone
growth rate from bone histological traits. Cross-validation tests show that
this model is reliable. We then used it to estimate bone growth rates in a
sample of extinct archosaurs including Crurotarsi and Ornithodira. After
testing for phylogenetic signal, optimization of femoral growth rates through
squared change parsimony onto a time-calibrated tree of amniotes shows two
divergent evolutionary trends: whereas bone growth rates increase from the last
common ancestor of Ornithodira to extant birds, they decrease from the last
common ancestor of Crurotarsi to extant crocodiles. However, we conclude, on
the basis of recent evidence for unidirectional airflow in the lungs of
alligators, that crocodiles may have retained the capacity of growing at high
rates.