INVESTIGADORES
PASCHETTA Carolina Andrea
artículos
Título:
Developmental and genetic constraints on neurocranial globularity: Insights from analysis of deformed skulls and cuantitative genetics
Autor/es:
MARTÍNEZ-ABADÍAS, NEUS; PASCHETTA, CAROLINA ANDREA; DE AZEVEDO, SOLEDAD; ESPARZA, MIREIA; GONZÁLEZ-JOSÉ, ROLANDO
Revista:
Evolutionary Biology
Editorial:
Springer Science+Business Media
Referencias:
Lugar: London; Año: 2009 vol. 36 p. 37 - 56
ISSN:
1471-2148
Resumen:
Neurocranial globularity is one of the few derived traits defining anatomically modern humans. Variations in this trait derive from multiple and complex interactions between portions of the brain and the size and shape of the cranial base, among other factors. Given their evolutionary and functional importance, neurocranial globularity is expected to present high genetic and developmental constraints on their phenotypic expression. Here we applied two independent approaches to investigate both types of constraints. First, we assessed if patterns of morphological integration are conserved or else disrupted on a series of artificially deformed skulls in comparison to nondeformed (ND) ones. Second, after the estimation of the genetic covariance matrix for human skull shape, we explored how neurocranial globularity would respond to putative selective events disrupting the normal morphological patterns. Simulations on these deviations were explicitly set to replicate the artificial deformation patterns in order to compare developmental and genetic constraints under the same biomechanical conditions. In general terms, our results indicate that putative developmental constraints help to preserve some aspects of normal morphological integration even in the deformed skulls. Moreover, we find that the response to selection in neurocranial globularity is pervasive. In other words, induced changes in the vault generate a global response, indicating that departures from normal patterns of neurocranial globularity are genetically constrained. In summary, our combined results suggest that neurocranial globularity behaves as a highly genetic and developmental constrained trait.