Pterosaur dietary hypotheses: a review of ideas and approaches

Bestwick, Jordan; Unwin, David M.; Butler, Richard J.; Henderson, Donald M.; Purnell, Mark A.

doi:10.1111/brv.12431

Cited by 62 publications

(50 citation statements)

References 167 publications

(404 reference statements)

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“…A large number of taxa from the Solnhofen Archipelago, including 'fishes' and marine reptiles, supposedly fed on aquatic organisms such as cephalopods 4,9,[49][50][51][52] . The conical, slender and recurved shape of the tooth excludes several groups of fish and reptiles as possible culprits.…”

Section: Discussionmentioning

confidence: 99%

“…Interpreting ecological relationships between extinct taxa based on the spatial association of specimens can be flawed if taphonomic biases, such as post-mortem specimen transport, are not taken into consideration 4,64 . However, abiotic explanations for the association of Plesioteuthis and Rhamphorhynchus can be ruled out for several reasons: 1) As reflected in the perfectly horizontally bedded sediments, the lagoons of the Solnhofen Archipelago are generally regarded as a low energy depositional environment barring storm events 52 .…”

Section: Discussionmentioning

confidence: 99%

“…Direct evidence of pterosaurs as predators is currently restricted to fossil gut and throat contents. Fish, crustaceans and tetrapods have been identified from stomach contents from several pterosaur taxa 4,65 (and references therein). Such stomach contents are most often preserved with Rhamphorhynchus and confidently identified remains are currently limited to fish 65 .…”

Section: Discussionmentioning

confidence: 99%

“…Such stomach contents are most often preserved with Rhamphorhynchus and confidently identified remains are currently limited to fish 65 . A coprolite assigned to Rhamphorhynchus was interpreted to have contained coleoid arm hooklets 14 , although this interpretation has since been challenged 4 . Speculative cases of attempted pterosaur feeding involve odonatan insects from the Solnhofen Archipelago with damaged wings 65 (and references therein).…”

Section: Discussionmentioning

confidence: 99%

“…There is a general lack of agreement concerning pterosaur feeding behaviour 4 . In the case of our specimen, some conclusions on behaviours can be drawn with some reservation.…”

Section: Discussionmentioning

confidence: 99%

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Pterosaurs ate soft-bodied cephalopods (Coleoidea)

Hoffmann

Bestwick

Berndt³

et al. 2020

Sci Rep

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Direct evidence of successful or failed predation is rare in the fossil record but essential for reconstructing extinct food webs. Here, we report the first evidence of a failed predation attempt by a pterosaur on a soft-bodied coleoid cephalopod. A perfectly preserved, fully grown soft-tissue specimen of the octobrachian coleoid Plesioteuthis subovata is associated with a tooth of the pterosaur Rhamphorhynchus muensteri from the Late Jurassic Solnhofen Archipelago. examination under ultraviolet light reveals the pterosaur tooth is embedded in the now phosphatised cephalopod soft tissue, which makes a chance association highly improbable. According to its morphology, the tooth likely originates from the anterior to middle region of the upper or lower jaw of a large, osteologically mature individual. We propose the tooth became associated with the coleoid when the pterosaur attacked Plesioteuthis at or near the water surface. thus, Rhamphorhynchus apparently fed on aquatic animals by grabbing prey whilst flying directly above, or floating upon (less likely), the water surface. It remains unclear whether the Plesioteuthis died from the pterosaur attack or survived for some time with the broken tooth lodged in its mantle. Sinking into oxygen depleted waters explains the exceptional soft tissue preservation.Constraining the diets of extinct taxa is vital for understanding predator-prey relationships, reconstructing extinct food webs and for understanding the evolution of multi-trophic interactions 1-4 . Fossilised gut and throat contents, known as content fossils 4 , are perhaps the most renowned line of direct evidence for extinct predator-prey interactions. These fossils have greatly increased the known dietary ranges of many extinct clades, including carnivory in Mesozoic mammals 5 and piscivory in theropod dinosaurs 6 . However, well-preserved content fossils are extremely rare and there is an inbuilt bias towards preservation of 'harder' items (e.g. scales and shells) and towards items consumed immediately prior to death 4,7 .Other direct lines of evidence used to infer diets include coprolites 8 , regurgitalites 9 , tooth marks from supposed feeding events 10,11 , healed bite traces from failed predation attempts 12 (which sometimes contain embedded teeth) and the preservation of predators and prey together as a result of fatal encounters 13 . These types of evidence are slightly more abundant than content fossils and are also useful for gaining unique insights into the foraging and feeding behaviours and the habitat preferences of both predators and prey 1 . For example, the presence of bone regrowth in the damaged caudal neural spines in the hadrosaurid dinosaur Edmontosaurus has been interpreted as evidence of active predation by the large theropod dinosaur Tyrannosaurus rex and that T. rex, consequently, was not an obligate scavenger 12 . Inferring the taxonomic identities of predators and prey from these types of evidence, however, can be difficult 1,14 .Well-preserved evidence of predator-prey relationshi...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

“…There is a general lack of agreement concerning pterosaur feeding behaviour 4 . In the case of our specimen, some conclusions on behaviours can be drawn with some reservation.…”

Section: Discussionmentioning

confidence: 99%

See 3 more Smart Citations

Pterosaurs ate soft-bodied cephalopods (Coleoidea)

Hoffmann

Bestwick

Berndt³

et al. 2020

Sci Rep

Self Cite

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Cranial functional morphology of the pseudosuchian Effigia and implications for its ecological role in the Triassic

Bestwick

Jones

Nesbitt

et al. 2021

The Anatomical Record

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Pseudosuchians, archosaurian reptiles more closely related to crocodylians than to birds, exhibited high morphological diversity during the Triassic with numerous examples of morphological convergence described between Triassic pseudosuchians and post‐Triassic dinosaurs. One example is the shuvosaurid Effigia okeeffeae which exhibits an “ostrich‐like” bauplan comprising a gracile skeleton with edentulous jaws and large orbits, similar to ornithomimid dinosaurs and extant palaeognaths. This bauplan is regarded as an adaptation for herbivory, but this hypothesis assumes morphological convergence confers functional convergence, and has received little explicit testing. Here, we restore the skull morphology of Effigia, perform myological reconstructions, and apply finite element analysis to quantitatively investigate skull function. We also perform finite element analysis on the crania of the ornithomimid dinosaur Ornithomimus edmontonicus, the extant palaeognath Struthio camelus and the extant pseudosuchian Alligator mississippiensis to assess the degree of functional convergence with a taxon that exhibit “ostrich‐like” bauplans and its closest extant relatives. We find that Effigia possesses a mosaic of mechanically strong and weak features, including a weak mandible that likely restricted feeding to the anterior portion of the jaws. We find limited functional convergence with Ornithomimus and Struthio and limited evidence of phylogenetic constraints with extant pseudosuchians. We infer that Effigia was a specialist herbivore that likely fed on softer plant material, a niche unique among the study taxa and potentially among contemporaneous Triassic herbivores. This study increases the known functional diversity of pseudosuchians and highlights that superficial morphological similarity between unrelated taxa does not always imply functional and ecological convergence.

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A preliminary analysis of dental microstructure in Hamipterus (Pterosauria, Pterodactyloidea)

Chen

Jiang

et al. 2023

The Anatomical Record

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The toothed members of Pterosauria display an extremely wide range of tooth morphologies that supported a variety of feeding habits. Histological studies on the teeth of different pterosaur clades are potentially valuable in understanding the development of their tooth diversity. In this study, we used histological sections and scanning electron microscopy to describe and interpret the tooth microstructure of Hamipterus (Pterodactyloidea). Our analysis is based on seven teeth of Hamipterus (six isolated and one from a skull) from the Lower Cretaceous collected in Hami, China. Our results show that the enamel on the tooth crown is thin (~25 μm) in Hamipterus and covers only approximately half of the tooth crown. This thin enamel of the Hamipterus tooth makes it vulnerable and often becomes damaged during taphonomic and diagenetic processes. The radicular pulp inside the conical‐shaped root shows a spindle space with a small foramen at the bottom, while the coronal pulp shows a small tunnel (100–140 μm in diameter). We estimate that the small teeth of Hamipterus likely took approximately 80 days to form. Furthermore, the tooth has Andresen lines, which represent 7–15 days period. For stable articulation of the tooth in the alveolus, the thick cellular cementum is concentrated on the lingual side of the root. The acellular cementum (~40 μm thick) layer runs from the root to the partial tooth crown.

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Pterosaur dietary hypotheses: a review of ideas and approaches

Cited by 62 publications

References 167 publications

Pterosaurs ate soft-bodied cephalopods (Coleoidea)

Pterosaurs ate soft-bodied cephalopods (Coleoidea)

Cranial functional morphology of the pseudosuchian Effigia and implications for its ecological role in the Triassic

A preliminary analysis of dental microstructure in Hamipterus (Pterosauria, Pterodactyloidea)

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