The Feeding Habits of Mesosauridae

Silva, Rivaldo R.; Ferigolo, Jorge; Bajdek, Piotr; Piñeiro, Graciela

doi:10.3389/feart.2017.00023

Cited by 22 publications

(25 citation statements)

References 52 publications

(76 reference statements)

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“…However, some of these features (though not pachyosteosclerosis) are also present in amphibious taxa. The presence of coprolites in close proximity to mesosaurid skeletons such as those we have recently described (Silva et al, 2017), which mostly appear not to have been expelled post mortem (see Hone et al, 2015), is rather uncommon because normally, it is difficult to identify the coprolite producer. Possible explanations for the numerous excrements associated to mesosaurid body remains include: (a), mesosaurids spent much time in confined areas in a transitional coastal environment and (b), they lived in dense populations (Dentzien-Dias et al, 2012).…”

Section: Paleobiological Paleoecological and Taphonomic Evidence Supmentioning

confidence: 89%

“…Mesosaurids have been considered mainly aquatic, but derived from a terrestrial form that had subsequently become aquatic (Laurin and de Buffrénil, 2016) or to have derived directly from semi-aquatic ancestors (Romer, 1957). Mesosaurids fed on aquatic prey items and defecated in a transitional environment (possibly a lagoon or a hypersaline sea) in shallow water (Piñeiro et al, 2012a,c;Silva et al, 2017). Nares have migrated farther away from the tip of the rostrum and are located dorsally, eyes are large and the snout is long.…”

Section: Paleobiological Paleoecological and Taphonomic Evidence Supmentioning

confidence: 99%

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Was Mesosaurus a Fully Aquatic Reptile?

et al. 2018

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Mesosaurs have been considered strictly aquatic animals. Their adaptations to the aquatic environment are well known and include putative viviparity, along with the presence of several skeletal characters such as a long, laterally compressed tail, long limbs, the foot larger than the manus, and presence of pachyosteosclerotic bones. They were also described as possessing non-coossified girdle bones and incompletely ossified epiphyses, although there could be an early fusion of the front girdle bones to form the scapulocoracoid in some specimens. Some of these features, however, are shared by most basal tetrapods that are considered semiaquatic and even some terrestrial ones. The study of vertebral columns and limbs provides essential clues about the locomotor system and the lifestyle of early amniotes. In this study, we have found that the variation of the vertebral centrum length along the axial skeleton of Mesosaurus tenuidens fits better with a semi-aquatic morphometric pattern, as shown by comparisons with other extinct and extant taxa. The present study allows us to suggest that whereas well-preserved mesosaur skeletons are mostly represented by juveniles and young adults that inhabited aquatic environments, more mature individuals might hypothetically have spent time on land. This is also supported, to an extent, by taphonomic factors such as the scarce representation and poor preservation of remains of mature individuals in the fossiliferous levels, and also by anatomy of the appendicular bones, and particularly the strongly ossified epiphyses and tarsus.

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Section: Paleobiological Paleoecological and Taphonomic Evidence Supmentioning

confidence: 89%

Section: Paleobiological Paleoecological and Taphonomic Evidence Supmentioning

confidence: 99%

Was Mesosaurus a Fully Aquatic Reptile?

et al. 2018

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“…Stratagraphically, the Irati Formation is divided into two distinct members, the lower Taquaral Member and the higher Assistência Member 25,26 Though relatively large chondrichthyans are present they are not found in the same strata as mesosaurs 27 , with mesosaurs being found in the upper Assistência Member 25 . The only taxa known from the Assistência Member are mesosaurs, paleonisciform fish, pygocephalomorph crustaceans, ostracods, brachiopods, foraminiferans, and sponges 24,25,27,28 . The potential lack of predation pressure in this aquatic environment suggests that mesosaurs may not have autotomized their tails, as this behaviour is primarily used in other taxa to escape predators 10,11,20,29 .…”

Section: Discussionmentioning

confidence: 99%

“…If this was the case, the ability to autotomize the tail would have been beneficial for younger mesosaurs, increasing their chances to avoid predation by older individuals. However, this hypothesis of juvenile cannibalism lacks convincing evidence 28 .…”

Section: Discussionmentioning

confidence: 99%

Conflicting evidence for the use of caudal autotomy in mesosaurs

MacDougall

Verrière

LeBlanc

et al. 2020

Sci Rep

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The early Permian mesosaurs were the first amniotes to re-invade aquatic environments. One of their most controversial and puzzling features is their distinctive caudal anatomy, which has been suggested as a mechanism to facilitate caudal autotomy. Several researchers have described putative fracture planes in mesosaur caudal vertebrae -unossified regions in the middle of caudal vertebral centrathat in many extant squamates allow the tail to separate and the animal to escape predation. However, the reports of fracture planes in mesosaurs have never been closely investigated beyond preliminary descriptions, which has prompted scepticism. Here, using numerous vertebral series, histology, and X-ray computed tomography, we provide a detailed account of fracture planes in all three species of mesosaurs. Given the importance of the tail for propulsion in many other aquatic reptiles, the identification of fracture planes in mesosaurs has important implications for their aquatic locomotion. Despite mesosaurs apparently having the ability to autotomize their tail, it is unlikely that they actually made use of this behaviour due to a lack of predation pressure and no record of autotomized tails in articulated specimens. We suggest that the presence of fracture planes in mesosaurs is an evolutionary relic and could represent a synapomorphy for an as-yet undetermined terrestrial clade of Palaeozoic amniotes that includes the earliest radiation of secondarily aquatic tetrapods.As the first group of amniotes to return to an aquatic lifestyle, and a key line of evidence for the theory of continental drift 1 , mesosaurs have figured prominently in reconstructions of early amniote evolution. Mesosauridae is currently composed of three monotypic genera (Mesosaurus tenuidens Gervais, 1865 2 , Stereosternum tumidum Cope, 1886 3 , and Brazilosaurus sanpauloensis Shikama and Ozaki, 1966 4 ), all of which are only known from localities that would have been part of an inland Gondwanan sea during the early Permian. Despite debate regarding the exact placement of Mesosauridae among early reptiles, researchers generally agree that they represent one of the most basal reptile clades 5-9 .The anatomy of mesosaurs has also been debated extensively, and one of the more contentious aspects concerns whether or not they had the capacity for caudal autotomy. Caudal autotomy is the ability to drop a part of the tail in order to escape predation, an anti-predator behaviour that is prevalent in several clades of extant lepidosaurs 10,11 . In extant reptiles, caudal autotomy can occur between caudal vertebrae (intervertebral) or along planes of weakness along the caudal centrum that split a vertebra in two (intravertebral). The latter form of autotomy is the most common among extant reptiles and is the only traceable form of autotomy in the fossil record 12,13 . Regeneration of a cartilage cone posterior to the autotomized region may also occur following autotomy, however, several lineages of lepidosaurs do not regenerate their tails 11 .Several rese...

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“…Notwithstanding, it cannot be ruled out that theropods occasionally regurgitated large bones in form of a mostly loose material. Such behavior is encountered in some tetrapods, including basal amniotes (Silva et al 2017). Some clues about the physiology of early archosaurs are provided by the comparative physiology of birds and crocodiles (Table 1).…”

Section: )mentioning

confidence: 99%

Comparative digestive physiology of archosaurs with notes on bird origins

Bajdek

2018

Preprint

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It is widely accepted that birds evolved from theropod dinosaurs, and few paleontologists disagree preferring a more ancient split of the avian and dinosaur lineages. The difference in digestive physiology between members of the theropod and crocodile lineages, documented by fossil feces and gut contents, offers an opportunity to test these phylogenetic hypotheses. Birds share with crocodiles the functional gizzard that contains swallowed stones and where gastric pellets are formed before regurgitation, as well as a mechanism that prevents the passage of indigestible residues into the intestine. Both these adaptations are missing in unquestionable theropod groups (compsognathids, tyrannosaurids, allosaurids, coelophysids). The theropod ancestry of birds implies reappearance and strong development of a specific stomach functionality that either had been already lost in the theropod dinosaurs or was never present in their lineage. Coprolites of early archosaurs contain undigested bones, which suggests a short digestion time and higher metabolic rates than in extant crocodiles. Early archosaurs were similar to birds, but not to dinosaurs, in all these aspects of physiology.

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The Feeding Habits of Mesosauridae

Cited by 22 publications

References 52 publications

Was Mesosaurus a Fully Aquatic Reptile?

Was Mesosaurus a Fully Aquatic Reptile?

Conflicting evidence for the use of caudal autotomy in mesosaurs

Comparative digestive physiology of archosaurs with notes on bird origins

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