Your search keyword '"Wedel, Mathew"' showing total 4 results

1. The absence of an invasive air sac system in the earliest dinosaurs suggests multiple origins of vertebral pneumaticity.

Author

Aureliano, Tito, Ghilardi, Aline M., Müller, Rodrigo T., Kerber, Leonardo, Pretto, Flávio A., Fernandes, Marcelo A., Ricardi-Branco, Fresia, and Wedel, Mathew J.

Subjects

DINOSAURS, PTEROSAURIA, SAURISCHIA, AIR-supported structures, DIVERTICULUM, VERTEBRAE

Abstract

The origin of the air sac system present in birds has been an enigma for decades. Skeletal pneumaticity related to an air sac system is present in both derived non-avian dinosaurs and pterosaurs. But the question remained open whether this was a shared trait present in the common avemetatarsalian ancestor. We analyzed three taxa from the Late Triassic of South Brazil, which are some of the oldest representatives of this clade (233.23 ± 0.73 Ma), including two sauropodomorphs and one herrerasaurid. All three taxa present shallow lateral fossae in the centra of their presacral vertebrae. Foramina are present in many of the fossae but at diminutive sizes consistent with neurovascular rather than pneumatic origin. Micro-tomography reveals a chaotic architecture of dense apneumatic bone tissue in all three taxa. The early sauropodomorphs showed more complex vascularity, which possibly served as the framework for the future camerate and camellate pneumatic structures of more derived saurischians. Finally, the evidence of the absence of postcranial skeletal pneumaticity in the oldest dinosaurs contradicts the homology hypothesis for an invasive diverticula system and suggests that this trait evolved independently at least 3 times in pterosaurs, theropods, and sauropodomorphs. [ABSTRACT FROM AUTHOR]

Published

2022

2. The first occurrence of an avian-style respiratory infection in a non-avian dinosaur.

Author

Woodruff, D. Cary, Wolff, Ewan D. S., Wedel, Mathew J., Dennison, Sophie, and Witmer, Lawrence M.

Subjects

RESPIRATORY infections, FOSSIL vertebrates, DINOSAURS, CERVICAL vertebrae, FOSSILS, PLAGUE

Abstract

Other than repaired fractures, osteoarthritis, and periosteal reaction, the vertebrate fossil record has limited evidence of non-osseous diseases. This difficulty in paleontological diagnoses stems from (1) the inability to conduct medical testing, (2) soft-tissue pathologic structures are less likely to be preserved, and (3) many osseous lesions are not diagnostically specific. However, here reported for the first time is an avian-style respiratory disorder in a non-avian dinosaur. This sauropod presents irregular bony pathologic structures stemming from the pneumatic features in the cervical vertebrae. As sauropods show well-understood osteological correlates indicating that respiratory tissues were incorporated into the post-cranial skeleton, and thus likely had an 'avian-style' form of respiration, it is most parsimonious to identify these pathologic structures as stemming from a respiratory infection. Although several extant avian infections produce comparable symptoms, the most parsimonious is airsacculitis with associated osteomyelitis. From actinobacterial to fungal in origin, airsacculitis is an extremely prevalent respiratory disorder in birds today. While we cannot pinpoint the specific infectious agent that caused the airsacculitis, this diagnosis establishes the first fossil record of this disease. Additionally, it allows us increased insight into the medical disorders of dinosaurs from a phylogenetic perspective and understanding what maladies plagued the "fearfully great lizards". [ABSTRACT FROM AUTHOR]

Published

2022

3. Exquisite air sac histological traces in a hyperpneumatized nanoid sauropod dinosaur from South America.

Author

Aureliano, Tito, Ghilardi, Aline M., Navarro, Bruno A., Fernandes, Marcelo A., Ricardi-Branco, Fresia, and Wedel, Mathew J.

Subjects

DINOSAURS, COMPUTED tomography, AIR-supported structures

Abstract

This study reports the occurrence of pneumosteum (osteohistological structure related to an avian-like air sac system) in a nanoid (5.7-m-long) saltasaurid titanosaur from Upper Cretaceous Brazil. We corroborate the hypothesis of the presence of an air sac system in titanosaurians based upon vertebral features identified through external observation and computed tomography. This is the fifth non-avian dinosaur taxon in which histological traces of air sacs have been found. We provided a detailed description of pneumatic structures from external osteology and CT scan data as a parameter for comparison with other taxa. The camellate pattern found in the vertebral centrum (ce) of this taxon and other titanosaurs shows distinct architectures. This might indicate whether cervical or lung diverticula pneumatized different elements. A cotylar internal plate of bone tissue sustains radial camellae (rad) in a condition similar to Alamosaurus and Saltasaurus. Moreover, circumferential chambers (cc) near the cotyle might be an example of convergence between diplodocoids and titanosaurs. Finally, we also register for the first time pneumatic foramina (fo) and fossae connecting camellate structures inside the neural canal in Titanosauria and the second published case in non-avian dinosaurs. The extreme pneumaticity observed in this nanoid titanosaur contrasts with previous assumptions that this feature correlates with the evolution of gigantic sizes in sauropodomorphs. This study reinforces that even small-bodied sauropod clades could present a hyperpneumatized postcranial skeleton, a character inherited from their large-bodied ancestors. [ABSTRACT FROM AUTHOR]

Published

2021

4. Sharing: public databases combat mistrust and secrecy.

Author

Farke, Andrew A., Taylor, Michael P., and Wedel, Mathew J.

Subjects

LETTERS to the editor, SCIENTIFIC community

Abstract

A letter to the editor is presented in response to the article on compelling reasons for the scientific community to share data.

Published

2009