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Preondactylus

Preondactylus buffarinii is a genus and species of basal pterosaur, representing one of the earliest known flying reptiles, characterized by a small size with a wingspan of approximately 45 cm in its holotype specimen, a long tail, relatively short wings, and long legs.^[1]^[2] The holotype (MFSN 1770), a nearly complete but partially impression-based skeleton, was discovered in the late middle Norian (Late Triassic) deposits of the Dolomia di Forni Formation in the Seazza Creek valley near Preone, in the province of Udine, Friuli-Venezia Giulia, northeastern Italy, dating to approximately 215–210 million years ago.^[3]^[4] Named and described by paleontologist Rupert Wild in 1984, the genus name derives from the locality of Preone, while the specific epithet honors collector Nando Buffarini.^[3]^[2] Morphologically, Preondactylus exhibits primitive features for pterosaurs, including a low and narrow skull with a large antorbital fenestra positioned posterior to the naris, single-cusped teeth (some serrated and enlarged in the maxilla below the ascending process), and a dentition suggesting an insectivorous or piscivorous diet.^[4]^[5] The postcranial skeleton includes unfused carpal elements, a short wing metacarpal relative to later pterosaurs, and elongated caudal vertebrae without the bundled processes seen in some contemporaries, indicating it was a fully capable flier despite its "primitive" wing proportions.^[5]^[4] The specimen is likely from a juvenile individual, as suggested by the disarticulated skull elements.^[5] Systematically, Preondactylus buffarinii is placed among the most basal members of Pterosauria, defined cladistically as the most recent common ancestor of Preondactylus buffarinii and Quetzalcoatlus northropi and all descendants, highlighting its key role in understanding the origins of pterosaur flight.^[6] It shares similarities with other early Italian pterosaurs like Peteinosaurus zambellii and Austriadactylus cristatus, potentially forming an early diverging clade, though its exact position remains debated due to limited overlapping material and ongoing taxonomic revisions.^[3]^[5] Its discovery supports evidence that pterosaurs originated in the European region during the Late Triassic, contributing to broader insights into the evolutionary radiation of archosaurs.^[7]

Discovery and Specimens

Geological Context

Preondactylus fossils were discovered in the Forni Dolostone Formation (also known as Dolomia di Forni), a geological unit within the Italian Dolomites characterized by dark, well-bedded, bituminous dolostones often interlaminated with chert layers and occasional slumped beds, reaching thicknesses of 700–850 meters. This formation represents an anoxic to dysoxic, quiet, low-energy marine basin depositional environment with a maximum water depth of about 400 m, developed within an intra-platform setting, conducive to the preservation of delicate skeletal structures through rapid burial in fine-grained sediments.^[8] The Forni Dolostone is dated to the Late Triassic Norian stage, specifically the late middle to early late Norian (late Alaunian to early Sevatian substage), approximately 215–210 million years ago, based on conodont biostratigraphy and stratigraphic correlations with other Alpine Triassic units. The precise age assignment relies on the presence of index fossils such as conodonts of the Mockina genus, which indicate a position above the Carnian-Norian boundary but within the early Norian interval. Taphonomic features, including the exceptional articulation of specimens and minimal disarticulation, point to deposition in quiet, possibly dysoxic waters that limited scavenging and bioturbation.^[9] The fossils occur near Preone in the Udine province of Friuli-Venezia Giulia, northeastern Italy, specifically along Seazza Creek in the Carnic Prealps, where outcrops expose the formation's lower to middle sections. This locality's paleoenvironment reflects a tropical coastal setting along the western margin of the Tethys Ocean, with the dolostones forming in restricted basins influenced by periodic salinity fluctuations. Associated fauna includes early marine reptiles such as the protorosaurian Tanystropheus hydroides, diverse actinopterygian fish genera (e.g., Saurichthys and Pteronisculus), drepanosaurid lizards like Megalancosaurus preonensis, and abundant decapod crustaceans, collectively suggesting a productive, nearshore ecosystem supporting both aquatic and aerial vertebrates.^[10]

Known Fossils

The holotype of Preondactylus buffarinii, cataloged as MFSN 1770, was discovered in 1982 by amateur collector Nando Buffarini in the Seazza Valley near Preone, in the province of Udine, northeastern Italy. This partial skeleton is preserved primarily as a negative imprint after the calcareous nodule containing it was treated with acid to dissolve the bones, revealing details of the skull, most vertebrae, ribs, sternum, shoulder girdle, portions of the forelimbs and hindlimbs, and pelvis; the tail and much of the wing finger phalanges are absent.^[11] A second specimen, MFSN 1891, was found in 1984 approximately 150–200 meters deeper in the stratigraphic section at the same locality as the holotype.^[12] It comprises a small, articulated cluster of bones measuring about 52 mm long and 33 mm wide, interpreted as the contents of a gastric pellet due to its compressed, chaotic arrangement lacking clear articulation in places; the pellet contains disarticulated bones from at least three small individuals, likely juveniles, and was probably regurgitated by a large predatory fish such as Saurichthys. It is not referable to Preondactylus or any pterosaur; reanalyses using micro-CT scans indicate protorosaurian affinity, similar to Langobardisaurus from the same formation, based on features such as procoelous vertebrae and limb bone morphology.^[12] A third specimen, MFSN 25161, consists of a partial skull lacking the lower jaws and was discovered subsequent to the holotype in the same formation. It supports attribution to Preondactylus buffarinii through shared cranial features like dentition but provides minimal additional postcranial information.^[11] The holotype was formally described in 1984 by Rupert Wild, establishing Preondactylus as one of the earliest known pterosaurs. Subsequent studies, including reexaminations by Fabio M. Dalla Vecchia in 2003 and Bernardo Holgado and colleagues in 2015, have refined interpretations of the specimens, particularly confirming the non-pterosaurian nature of MFSN 1891 due to preservation challenges and comparative analyses.^[11]^[12]

Description

Cranial Anatomy

The skull of Preondactylus buffarinii is small and triangular in shape, measuring approximately 5–7 cm in length in the holotype specimen (MFSN 1770), though preserved only as faint impressions in the matrix, limiting detailed reconstruction.^[3] It exhibits a narrow rostrum terminating in a pointed tip, consistent with adaptations for precise feeding maneuvers, and a prominent antorbital fenestra that occupies more than half the skull's overall length, a characteristic feature emphasizing the lightweight cranial construction typical of early pterosaurs. More detailed cranial features, including dentition, are known from the referred partial skull specimen MFSN 25161. The posterior portion of the skull is somewhat crushed, limiting precise reconstruction of its exact proportions, but it appears relatively shallow overall compared to later taxa. Dentition in Preondactylus comprises 20–25 single-cusped, conical teeth per jaw, arranged evenly along the maxilla (approximately 15 teeth) and dentary (approximately 18–20 teeth), with the anterior premaxillary teeth slightly enlarged and recurved. Tooth size gradually decreases toward the posterior jaw margin, and the teeth lack multicuspation, distinguishing this genus from contemporaneous forms like Eudimorphodon or Peteinosaurus that possess more complex, multi-pointed dentition. This homodont, recurved arrangement is interpreted as suited for grasping soft-bodied prey, supporting a presumed piscivorous or insectivorous diet.^[5] Sensory adaptations are highlighted by the large orbits, which occupy a significant portion of the lateral skull surface and indicate enhanced visual acuity, likely aiding in aerial or aquatic prey detection. In comparison to later pterosaurs, Preondactylus lacks an elongated premaxilla or specialized crests, reflecting its basal position with a more generalized cranial architecture.

Postcranial Anatomy

The postcranial skeleton of Preondactylus buffarinii is known primarily from the holotype (MFSN 1770), a nearly complete but disarticulated specimen with the skull preserved as impressions, including elements of the axial column, girdles, and limbs. The axial skeleton includes an estimated eight cervical vertebrae that are elongate and contribute to a flexible, bird-like neck; approximately 14 thoracic vertebrae without evidence of fusion into a notarium; fewer than four sacral vertebrae; and more than 25 caudal vertebrae forming a long tail without elongated zygapophyses or haemapophyses.^[13] Ribs are preserved but poorly detailed, with gastralia present in the abdominal region.^[5] The pectoral girdle consists of robust scapulae and coracoids that articulate closely but remain unfused, supporting the shoulder joint.^[13] The forelimb is adapted for flight, with a short humerus measuring 42 mm in length, featuring a concave anterior margin and a large deltopectoral crest.^[13] The radius and ulna are subequal, with the ulna reaching 58.2 mm; the carpus includes a pteroid bone and syncarpals.^[13] The metacarpus features elongate metacarpal IV as the primary wing support, with the manual digits showing a phalangeal formula of 2-3-4-4-? (the fourth digit with four hyperphalangic phalanges supporting the flight membrane).^[14] The holotype wingspan is estimated at 45 cm, though referred material suggests larger individuals up to 1.5 m.^[5] The pelvic girdle is small and primitive, with the puboischiadic plates thin and the ilia short, articulating with the sacrals to form a compact unit.^[5] The hindlimbs are reduced relative to the forelimbs, with a femur of 47 mm and a longer tibia of 65 mm (forming a tibiotarsus via fusion with proximal tarsals); the fibula is slender, and the pes is ectaxonic with non-spreading metatarsals and a phalangeal formula of 2-3-3-3-2.^[13] This configuration indicates a quadrupedal stance on the ground, with hindlimbs positioned laterally.^[15] Overall skeletal proportions reflect a basal pterosaur build, with a low wing aspect ratio of approximately 6.6 suited to slow-speed flight and maneuvering, and a forelimb-to-hindlimb length ratio emphasizing wing elongation over terrestrial mobility.^[16] Body mass estimates for the holotype, based on volumetric modeling of the skeleton, range around 44 g, scaling to 100-200 g for larger specimens.^[17]

Classification

Etymology and Taxonomy

The genus name Preondactylus combines "Preon," referring to the Preone Valley locality in Friuli, northern Italy where the holotype was discovered, with "dactylus," the Greek word for finger, alluding to the elongated fourth digit that forms the primary wing support in pterosaurs.^[5] The specific epithet buffarinii honors Nando Buffarini, the amateur paleontologist who found the type specimen in 1982.^[5] Preondactylus was formally established by Rupert Wild in 1984 as the type genus of the monotypic family Preondactylidae, originally placed within the Rhamphorhynchidae, based on the holotype specimen MFSN 1770, a nearly complete but partially impression-only skeleton from the late Norian Dolomia di Forni Formation.^[3] The description appeared in Stuttgarter Beiträge zur Naturkunde Serie B 80:1-27, satisfying International Code of Zoological Nomenclature (ICZN) requirements for availability and validity through its publication in a peer-reviewed serial work with Latin diagnosis.^[5] Preondactylidae is now regarded as obsolete, with subsequent analyses reclassifying Preondactylus as a basal member of Pterosauria outside more derived long-tailed groups.^[3] The genus is considered valid with only one recognized species, P. buffarinii, and no formal synonyms have been proposed.^[5] A second, disarticulated and poorly preserved specimen (MFSN 1891) from the same formation but slightly deeper stratigraphically was tentatively referred to cf. P. buffarinii in the original description, though its attribution has been questioned due to limited comparable material and potential differences in proportions; no additional species are accepted.^[5]

Phylogenetic Position

Preondactylus is consistently recovered as one of the earliest diverging members of Pterosauria, positioned basal to more derived groups such as Campylognathoididae and other long-tailed pterosaurs of the Jurassic. This placement reflects its Late Triassic age and retention of plesiomorphic traits, including a relatively short wing metacarpus compared to later taxa and conical, single-cusped teeth suited for grasping small prey, which contrast with the elongated metacarpals and often multicuspid dentition seen in advanced rhamphorhynchoids. Early cladistic analyses, such as that of Unwin (2003), positioned Preondactylus as the sister taxon to all other pterosaurs in a strict consensus tree, emphasizing its primitive morphology and underscoring its role as a foundational member of the clade. Subsequent studies, including Kellner (2003), refined this view by placing it slightly more derived than the basal anurognathid Sordes but still outside major Jurassic lineages, based on shared synapomorphies like the fused nasoantorbital fenestra. More recent matrices, such as those in Upchurch et al. (2015), recover Preondactylus as the sister taxon to Austriadactylus within a basal Eopterosauria grouping, supported by characters including similar cranial proportions and postcranial proportions indicative of early flight adaptations. Phylogenetic uncertainty persists due to the incomplete nature of known specimens, which limits character scoring and leads to instability in basal branches across analyses. For instance, debates center on its exact affinities among other early taxa like Eudimorphodon, with reexaminations (e.g., Dalla Vecchia, 2003) affirming its pterosaurian identity through detailed osteological comparisons despite preservational biases. Recent work on pterosaur precursors, such as Müller et al. (2023), reinforces the diverse archosauromorph context of Triassic pterosaurs like Preondactylus, though without altering its core placement.^[18]

Paleobiology

Locomotion and Flight

Preondactylus buffarinii exhibited flight adaptations typical of basal pterosaurs, including elongated forelimbs forming wings supported by four elongate phalanges of the manual digit IV, with the flight membrane (patagium) spanning from the sides of the body to the ankles, creating a broad brachiopatagium.^[5] The wings were fully developed even in small individuals, enabling powered flight from an early ontogenetic stage.^[5] With an estimated wingspan of approximately 0.45 m and an aspect ratio of 6.6, its wings were relatively broad and suited for a combination of sustained flapping and gliding, supported by low wing loading values around 20–25 N/m² that minimized energy demands during flight.^[19] Launch into flight likely occurred from a quadrupedal posture, leveraging the robust forelimbs and hindlimbs to generate thrust in a coordinated leap, similar to the mechanism inferred for other non-pterodactyloid pterosaurs; an alternative "superman" posture with extended limbs may have been used for initial jumps from elevated positions.^[20] On the ground, Preondactylus was adapted for quadrupedal locomotion, with robust forelimbs and relatively reduced hindlimbs (forelimb length exceeding hindlimb by over 2.5 times) facilitating a stable, erect gait; subcursorial features such as long, stout limb elements and reduced fibulae suggest competence in walking and potentially short bursts of bipedal running, contrasting with the more specialized terrestrial limitations of later pterodactyloids.^[21]^[22] A second specimen (MPUM 14951), if validly attributable to Preondactylus as a juvenile, indicates ontogenetic development of flight capabilities early in life, with proportionally complete wing structures at a small body size (estimated mass ~10–15 g), differing from many later pterosaurs that exhibited prolonged post-hatching growth before achieving aerial proficiency.^[5] Biomechanical analyses reveal bone microstructure dominated by fibrolamellar tissue with high vascularity and minimal lines of arrested growth, signifying rapid somatic growth rates that enabled quick attainment of flight-ready skeletal maturity, akin to the accelerated development seen in modern bats for early aerial independence.^[23]^[24]

Diet and Ecology

The diet of Preondactylus is inferred to have been primarily insectivorous, based on its small, conical, and slightly recurved teeth adapted for grasping soft-bodied invertebrates rather than piercing fish scales or crushing harder prey. The elongated rostrum and tooth arrangement further support this, resembling that of modern insectivorous vertebrates, though some researchers propose a mixed piscivorous-insectivorous habit given the coastal setting and potential for opportunistic feeding on small fish.^[6] Dental microwear texture analysis of basal pterosaurs, including taxa close to Preondactylus, indicates an ancestral diet dominated by invertebrates, with later pterosaurs shifting toward piscivory and carnivory; scavenging may have supplemented the diet during periods of prey scarcity.^[25] In its ecological niche, Preondactylus occupied coastal marine habitats along the western Tethys Sea, characterized by lagoonal environments with abundant fish and invertebrates, as evidenced by associated fauna in the fossil deposits.^[5] This setting likely supported a generalist role, given the low diversity of early pterosaurs, allowing Preondactylus to exploit both aerial insects and surface-water prey without intense specialization. Potential competition existed with sympatric tanystropheids, long-necked archosauromorphs that were piscivorous and shared similar nearshore niches, though Preondactylus' smaller size and flight capability may have reduced overlap by enabling access to terrestrial or low-flying resources.^[23] Bone histology of early pterosaurs reveals rapid somatic growth rates, with fibrolamellar bone tissue indicating continuous deposition without frequent interruptions, consistent with a determinate growth strategy reaching maturity quickly.^[26] Lifespan estimates for basal taxa like Preondactylus range from 5 to 10 years, based on growth mark counts in related pterosaur long bones, allowing for high reproductive output in a predator-rich environment. Reproductive strategies remain unknown, but as an archosaur, it was likely oviparous, with eggs laid in coastal nesting sites.^[27] Taphonomic evidence from the lagoonal deposits of the Preone Valley points to death by drowning in calm waters or predation, as fine-grained sediments preserved articulated skeletons without significant disarticulation or transport.^[28] A gastric pellet (MFSN 1891) from the same formation, initially described as containing pterosaur remains but reidentified in 2015 as protorosaurian (possibly akin to Langobardisaurus), underscores predation events in the local ecosystem, possibly by larger marine reptiles, while the lack of bone beds or clustered fossils indicates solitary or low-density behavior rather than gregariousness.^[29]

References

[1]
New Golden Age for Pterosaurs, Flying Reptiles of the Dinosaur Era
Apr 4, 2014 · a fossil of a Pterosaur. One of the oldest known pterosaurs, Preondactylus buffarinii had 18-inch (46-centimeter) wings, long legs, and a very ...<|control11|><|separator|>
[2]
Preondactylus buffarinii - Mindat
Aug 19, 2025 · Description. Preondactylus is a genus of long-tailed pterosaurs from the Late Triassic (late Carnian or early Norian age, about 228 million ...
[3]
A REVIEW OF THE TRIASSIC PTEROSA
Preondactylus buffarinii Wild is represented by the holotype (MFSN 1770; Fig. 10), originally a nearly complete skeleton, now mostly preserved as impression of ...
[4]
New morphological observations on Triassic pterosaurs
This paper reports some observations on Triassic pterosaur specimens ... Preondactylus buffarinii was first described by Wild. (1984) and additional ...Missing: original | Show results with:original
[5]
(PDF) New observations on the osteology and taxonomic status of ...
Aug 10, 2025 · Abstract. New observations about the osteology and the systematic position of Preondactylus buffarinii Wild 1984b, are based on a reexamination ...Missing: paper | Show results with:paper
[6]
Dietary diversity and evolution of the earliest flying vertebrates ...
Oct 28, 2020 · Pterosauria is defined as the most recent common ancestor of Preondactylus buffarinii and Quetzalcoatlus northropi and all its descendants.
[7]
The earliest evidence of deep-sea vertebrates - PNAS
Sep 5, 2023 · Body fossils of sarcopterygians (Tiktaalik), basal pterosaurs (Preondactylus), and winged dinosaurs (Archaeopteryx) have provided crucial ...<|control11|><|separator|>
[8]
A Triassic Spider from Italy - BioOne
Dec 1, 2012 · The fossil is an adult male found in a marine depositional environment ... The age of the Dolomia di Forni Formation is late middle to early ...
[9]
[PDF] Brief report - A Triassic spider from Italy
Jan 25, 2013 · The age of the Dolomia di Forni Formation is late middle to early late Norian (late Alaunian–early Sevatian) based on its cono− dont ...Missing: environment | Show results with:environment
[10]
(PDF) The tetrapod fossil record from the Norian-Rhaetian of Friuli ...
They include the holotypes of Preondactylus buffarinii, Eudimorphodon rosenfeldi and Megalancosaurus preonensis, as well as the most complete skeleton of the ...
[11]
(PDF) A review of the Triassic pterosaur record - Academia.edu
The new specimen MFSN 25161 would suggest a stricter relationship of Preondactylus with Austriadactylus based on the upper jaw dentition (Dalla Vecchia ...
[12]
A Reappraisal of the Purported Gastric Pellet with Pterosaurian ...
They tentatively referred to it as cf. Preondactylus buffarinii Wild 1984 [2], the only pterosaur taxon known at the time from the Dolomia di Forni Formation.Missing: 1982 | Show results with:1982<|control11|><|separator|>
[13]
(PDF) New morphological observations on Triassic pterosaurs
fused. to the. tibia. Preondactylus. Preondactylus. buffarinii. was first. described. by. Wild. (1984). and. additional observations. on the. morphol-. ogy. and.<|control11|><|separator|>
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Triassic pterosaurs | GeoScienceWorld Books - GeoScienceWorld
Pterosaurs are a clade of highly specialized, volant archosauromorphs recorded from the Upper Triassic to the uppermost Cretaceous.
[15]
[PDF] Were pterosaur ancestors bipedal or quadrupedal?
Dec 31, 2008 · In pterosaurs there is a quantum increase in the forelimb to hindlimb ratio, reflecting the adaptation to powered flight. Abbreviations: f ...
[16]
[PDF] Zitteliana - Zobodat
Aspect ratios range from 6.6 in Preondactylus to 22.9 in Nyctosaurus, and a clear distinction can be made between the aspects of basal pterosaurs and ...
[17]
Pterosaur body mass estimates from three-dimensional ...
Body masses for 14 species of pterosaur spanning four orders of magnitude were estimated using three-dimensional, digital models.
[18]
Preondactylus Pictures & Facts - The Dinosaur Database
Preondactylus was a pterosaur, a type of flying reptile. It was not a dinosaur, though it lived during the same period.
[19]
https://www.researchgate.net/publication/279618696_A_new_approach_to_determining_pterosaur_body_mass_and_its_implications_for_pterosaur_flight
[20]
(PDF) A new approach to determining pterosaur body mass and its ...
Aug 7, 2025 · ... Preondactylus. , forms. with the ... Uropatagium reconstructions for basal and pterodactyloid pterosaurs follow those of Witton [38] . ...
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[PDF] Pterosaur distribution in time and space: an atlas - Open Access LMU
WILD [1984], DELLA VECCHIA [2003a, 2003b, 2003c]). 'Rhamphorhynchoidea ... (= 'Preondactylus sp.') Pterosauria indet. Age: late Norian (DALLA VECCHIA ...
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[23]
Were pterosaur ancestors bipedal or quadrupedal? - ResearchGate
Aug 7, 2025 · ... quadrupedal tracks, the question persists whether pterosaurs evolved from bipedal or quadrupedal ancestors. ... Preondactylus buffarinii, ...
[24]
[PDF] The palaeohistology of pterosaur bone: an overview - Zobodat
This suggests that pterosaur bones grew rapidly, usually without interruption, until skeletal maturity was attained. Like birds, pterosaurs had very thin-walled ...
[25]
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Jul 22, 2021 · The humeri of pterosaur juveniles are similar in bending strength to those of adults and able to withstand launch and flight; wing size and wing ...Missing: Preondactylus | Show results with:Preondactylus
[26]
Dietary diversity and evolution of the earliest flying vertebrates ...
Oct 28, 2020 · Here we constrain the diets of 17 pterosaur genera by applying dental microwear texture analysis to the three-dimensional sub-micrometre scale tooth textures.
[27]
The paleohistology of pterosaur bone: An overview - ResearchGate
Aug 7, 2025 · Lines of arrested growth are uncommon. This suggests that pterosaur bones grew rapidly, usually without interruption, until skeletal maturity ...
[28]
[PDF] GROWTH IN SMALL DINOSAURS AND PTEROSAURS - RERO DOC
Evidence for this rapid growth comes largely from patterns of bone histology (Fig. 2), which show quantum differences in in- ferred growth rates between ...<|control11|><|separator|>
[29]
[PDF] dalla_vecchia 159..188 - Dinodata.de
A long tibia occurs also in Preondactylus buffarinii (h:ti. = 0.73), MCSNB 3359 (0.81) and Dimorphodon macro- nyx (0.71-0.76). The fibula seems not to reach the ...