Giandonato Tartarelli scite author profile

Previous studies have suggested that female facial attractiveness is associated with exaggerated sex-specific facial traits and averageness. Here we applied geometric morphometrics, a method for multivariate statistical analysis of shape, to measure geometric averageness and geometric sexual dimorphism of natural female face profiles. Geometric averageness and geometric sexual dimorphism correlate with attractiveness ratings. However, principal component analysis extracted a shape component robustly correlated with attractiveness but independent of sexual dimorphism. The shape differences between attractive- and hyperfeminine traits are localised: attractive facial shape and sexual dimorphism are similar in the upper face, but are markedly distinct in the jaw and chin.

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Homo cepranensis sp. nov. and the evolution of African-European Middle Pleistocene hominids

Mallegni

Carnieri

Bisconti³

et al. 2003

Comptes Rendus Palevol

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Trajectories and Constraints in Brain Evolution in Primates and Cetaceans

Tartarelli

Bisconti

2006

Human Evolution

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A natural endocast of an early Miocene odontocete and its implications in cetacean brain evolution

Bisconti

Damarco

Tartarelli

et al. 2020

J of Comparative Neurology

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The natural endocast Museo di Geologia e Paleontologia of the Università degli Studi di Torino (MGPT)‐PU 13873 is described and analyzed in order to interpret its taxonomic affinities and its potential significance on our understanding of cetacean brain evolution. The endocast is from the early Miocene of Piedmont (between ca. 19 and 16 million years ago), Northwestern Italy, and shows a number of plesiomorphic characters. These include: scarcely rounded cerebral hemispheres, cerebellum exposed in dorsal view with little superimposition by the cerebral hemispheres, short temporal lobe, and long sylvian fissure. The distance between the hypophysis and the rostral pons is particularly high, as it was determined by the calculus of the hypothalamus quotient, suggesting that the development of a deep interpeduncular fossa was not as advanced as in living odontocetes. The encephalization quotient (EQ) of MGPT‐PU 13873 is ~1.81; therefore, this specimen shows an EQ in line with other fossil whales of the same geological age (early Miocene). Comparative analysis shows that there is a critical lack of data from the late Miocene and Pliocene that prevents us to fully understand the recent evolution of the EQ diversity in whales. Moreover, the past diversity of brain size and shape in mysticetes is virtually unknown. All these observations point to the need of additional efforts to uncover evolutionary patterns and processes on cetacean brain evolution.

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Late Pleistocene human evolution in Sicily: comparative morphometric analysis of Grotta di San Teodoro craniofacial remains

D’Amore¹,

Marco²,

Tartarelli

et al. 2009

Journal of Human Evolution

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