2026-05-31T00:13:03Zhttps://riuma.uma.es/rest/oai/requestoai:riuma.uma.es:10630/274952026-02-03T12:25:21Zcom_10630_2254col_10630_37959
00925njm 22002777a 4500
dc
Serrano Alarcón, Francisco José
author
Pérez-Ramos, Alejandro
author
Chiappe, Luis M.
author
Chapman, Susan
author
Rashid, Dana J.
author
Bertrand, Ornella
author
Marcé-Nogué, Jordi
author
Brusatte, Steve
author
Figueirido-Castillo, Francisco Borja
author
2023
The axial column of Neornithes (modern birds) is characterized by regional fusions in caudal
vertebrae (pygostyle), lumbosacrals (synsacrum), and thoracics (notarium in several taxa) that
provide a rigid and stable axis during flight. Such a configuration integrates into a body plan highly
suited for wing-assisted locomotion (with feathered forelimbs, modified girdles, and crouched limbs)
that evolved from running dinosaurs and stem birds over the last ~150 million years. Shifts in count
numbers and fusion of vertebrae have had paramount implications on the avian diversification and
flight refinement. However, how the organization of precaudal vertebrae evolved across the
dinosaur–bird lineage, and how and when the highly tuned axial column of neornithines was
acquired are unexplored. Here, we quantify vertebral numbers in pennaraptoran dinosaurs
–including Aves—, and show how the axial configuration of birds was driven from different shifts
between two primary developmental mechanisms of body-axis organization: segmentation and
homeotic regionalization. We demonstrate that the configuration highly tuned for flight of modern
birds was not fully acquired until the appearance of Neornithes. The acquisition of a trunk-sacrum
configuration more efficient to deal with stresses derived from the flapping flight could be a key
factor in the survivorship of neornithines and the extinction of non-neornithine birds during the
end-Cretaceous mass extinction event.
https://hdl.handle.net/10630/27495
Aves - Evolución
Vuelo de animales
Aves - Columna vertebral
Evolution of axial regionalization in Aves during the Mesozoic and its impact on the survival of modern lineages to K/Pgmass extinction