Flying Archosaurs: Deciphering the Physiological Correlates of Sky Conquest

HORIZON.1.2HORIZON-TMA-MSCA-PF-EFID: 101107135
EC Contribution
€1,959
Consortium Size
1 orgs
Summary

The first vertebrate animals were jawless marine organisms which appeared in the fossil record over 500 million years ago. These lineages diversified and eventually crept ashore leading to further evolutionary divergence and become the charismatic living groups. The evolution of limbs in one lineage of vertebrates set the stage for these vertebrates to colonize landmasses around 320 million years ago. The water-terrestrial transition included some chalenges, such as air breathing, sustain the body weight dealing with gravity force and avoid the dehydration. On land, vertebrates radiated evolutionarily into many of the vacant niches. Well-adapted on terrestrial enviroment was the time to the aerial conquest. The extant flying vertebrates are the birds and bats, but pterosaurs were the first vertebrates to rule Mesozoic skies. These three groups evolved convergently to power their wings and increase the metabolic capacity during the flight. The origin of vertebrate flight is still unclear there is a dicothomy debate discussing whether it evolved from glidind or flapping ancestors. There are discordancies between the experts, some studies indicated pterosaurs as ground-based at hatchling and others suggested a powered flight in early life for these flying reptiles. Herein, this project will create a new method to explore the origin of the flight in vertebrates investigating the metabolic challenges of the pionner group to accomplish this ability: the archosaurs.

Consortium (1)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (8)
Elucidating the thermometabolism of Thalattosuchus superciliosus (de Blainville) Young, Brignon, Sachs, Hornung, Foffa, Kitson, Johnson & Steel, 2021 (Archosauria: Metriorhynchidae): a paleohistological study
Comptes Rendus Palevol· 2025DOI
undefined Romain PELLARIN, Mariana Valéria de Araújo SENA, François CLARAC, Jorge CUBO
Evaluating extinct pseudosuchian body mass estimates using a femur volume‐based model
The Anatomical Record· 2025DOI
Holly N. Woodward, Paul Aubier, Mariana Valéria Araújo de Sena, Jorge Cubo
Femoral metadiaphyseal and nutrient foramen perfusion suggests comparable maximal metabolic rates in a pterosaur and in a semi-aquatic maniraptoran dinosaur
PeerJ· 2025DOI
Mariana Valeria de Araujo Sena, Dennis F.A.E. Voeten, Esaú Araújo and Jorge Cubo
Neonatal state and degree of necessity for parental care in Maiasaura based on inferred neonatal metabolic rates
Scientific Reports· 2025DOI
Hugo Bert, Holly Woodward, Nicolas Rinder, Romain Amiot, John R. Horner, Christophe Lécuyer, Mariana Sena, Jorge Cubo
Revisiting the aerobic capacity of Notosuchia (Crocodyliformes, Mesoeucrocodylia)
Lethaia· 2025DOI
Mariana V. A. Sena, Felipe C. Montefeltro, Thiago S. Marinho, Max C. Langer, Thiago S. Fachini, Andre E. P. Pinheiro, Alessandra S. Machado, Ricardo T. Lopes, Romain Pellarin, Juliana M. Sayao, Gustavo R. Oliveira, Jorge Cubo
Wing bone laminarity in Pterosaurs: insights into torsional adaptations for flight evolution
Annals of the Brazilian Academy of Sciences· 2025DOI
Araújo, Esaú; Cubo, Jorge; Sena, Mariana; Bantim, Renan; Weinschütz, Luiz; Kellner, Alexander; Sayão, Juliana
Journal of South American Earth Sciences
Journal of South American Earth Sciences· 2024DOI
Mariana Valéria de Araújo Sena, Felipe M. Simbras, Juliana M. Sayão, Gustavo R. Oliveira
Living with a tumor: A case of osteosarcoma involving the medullary region in <i>Phrynops</i> cf. <i>P. geoffroanus</i> (Testudines: Chelidae)
The Anatomical Record· 2024DOI
Hugo Bert, Hayat Lamrous, Mariana Valéria de Araújo Sena
Deliverables (2)
Other Results (1)
Periodic Reporting for period 1 - FLAPS (Flying Archosaurs: Deciphering the Physiological Correlates of Sky Conquest)