This timeline of pterosaur research is a chronologically ordered list of important fossil discoveries, controversies of interpretation, and taxonomic revisions of pterosaurs, the famed flying reptiles of the Mesozoicera. Although pterosaurs went extinct millions of years before humans evolved, humans have coexisted with pterosaur fossils for millennia. Before the development of paleontology as a formal science, these remains would have been interpreted through a mythological lens. Myths about thunderbirds told by the Native Americans of the modern Western United States may have been influenced by observations of Pteranodon fossils. These thunderbirds were said to have warred with water monsters, which agrees well with the co-occurrence of Pteranodon and the ancient marine reptiles of the seaway over which it flew.[1]
The formal study of pterosaurs began in the late 18th century when naturalistCosimo Alessandro Collini of Mannheim, Germany published a description of an unusual animal with long arms, each bearing an elongated finger. He recognized that this long finger could support a membrane like that of a bat wing, but because the unnamed creature was found in deposits that preserve marine life he concluded that these strange arms were used as flippers.[2] The creature was restudied again in the very early 19th century by French anatomist Georges Cuvier, who recognized both that the creature was a reptile and that its "flippers" were wings. He called the creature the Ptero-dactyle, a name since revised to Pterodactylus.[3]
Although Cuvier's interpretation later became the consensus, it was just one of many early interpretations of the creature and its relatives, including that they were bats, strange birds, or the primordial handiwork of Satan himself.[4] Similar animals like the long-tailed Rhamphorhynchus and Gnathosaurus were soon discovered around Europe and it became obvious that earth was once home to a diverse group of flying reptiles.[5] The British anatomist Sir Richard Owen dubbed this vanished order the Pterosauria. Soon after, he described Britain's own first pterosaur, Dimorphodon.[6] Later in the 19th century pterosaurs were discovered in North America as well, the first of which was a spectacular animal named Pteranodon by paleontologist Othniel Charles Marsh.[7]
Various aspects of pterosaur biology invited controversy from the beginning. Samuel Thomas von Soemmering ignited a multi-century debate over how pterosaurs walked on the ground by suggesting they crawled on all fours like bats. August Quenstedt, by contrast, argued that they walked on their hind limbs.[8] In the early 20th century, Hankin and Watson in the first major study of pterosaur flight biomechanics concluded that on the ground these reptiles were altogether helpless and could only scoot along on their stomachs like penguins.[9] The debate gained steam in 1957 when William Stokes reported unusual tracks left by a four-footed animal he suspected was a pterosaur walking along the ground.[10] In 1984, Kevin Padian, who had recently argued that pterosaurs walked on their hind legs, dismissed Stokes's tracks as those of a crocodilian.[11] However, in the mid-1990s, Jean-Michel Mazin and others reported that fossil footprints in Crayssac, France were similar to those reported by Stokes from the US. Mazin's tracks were more obviously pterosaurian in origin and settled the debate in favor of pterosaurs walking on all fours.[10]
Pterosaur paleontology continues to progress into the 21st century. In fact, according to David Hone the early 21st century has seen more progress in pterosaur paleontology than in "the preceding two centuries" combined. He compared this transformative period in pterosaur paleontology to the Dinosaur Renaissance of the 1970s.[12] He also observed that roughly one-third of known pterosaurs were discovered during this brief interval.[13] One of the most notable of these was Darwinopterus, whose body resembled the more primitive long-tailed "rhamphorynchoids", while its skull resembled those of the more advanced short-tailed pterodactyloids.[14] These traits establish the species as an important transitional form, documenting one of the most important phases of pterosaur evolution.[15] Another important new species is Faxinalipterus minima, which might well be the world's oldest pterosaur.[16] The first confirmed pterosaur eggs were also reported from China during the early 21st century.[17]
Prescientificedit
The Cheyenne people of Nebraska believed in mythical thunderbirds and water monsters that were in endless conflict with each other. The thunderbirds were said to resemble giant eagles and killed both people and animals with arrows made of lightning. People occasionally discovered stony arrowheads thought to come from the thunderbirds' arrows. According to folkloristAdrienne Mayor, these supposed arrowheads were likely fossil belemnites, which were compared to missiles by other indigenous American cultures, like the Zuni people.[18]
The fossils of the Niobrara chalk may have been influential on these stories. The pterosaurPteranodon and marine reptiles like mosasaurs are preserved in Niobrara Chalk deposits and associated remains may have been interpreted as evidence for antagonism between immense flying animals and serpentine aquatic reptiles. Fossils of the large toothed diving bird Hesperornis are also found in the Niobrara chalk, sometimes preserved inside specimens of large predatory marine reptiles. Observations of similar fossils in the past may have been seen as further evidence for thunderbird-water monster conflict.[19]
The Sioux people of South Dakota believed that the first creatures in creation were the insects and reptiles, who were ruled by the Water Monster Unktehi. Reptiles were very diverse and came in all shapes and sizes, but they became violent and bloodthirsty until they were petrified by lightning sent by the Thunder Birds. The physical bodies of the Thunder Beings killed by the lightning, including Unktehi, also ended up being buried. The Sioux believe that earth has a history of four distinct ages. These events occurred during the Age of Rock. This portrayal of the Thunder Birds may also have been influenced by associations of fossils of Pteranodon with marine reptiles of the same age in the western United States.[20]
Cosimo Alessandro Collini, keeper of the natural history collections of Mannheim, reported the skeleton of an unusual animal to the scientific literature. It had strange arms that could have supported a membrane like that of a bat's wing, yet it was preserved in rocks characterized by fossil of marine life. Based on these associations, he tentatively concluded that the animal was aquatic.[2]
French anatomistGeorges Cuvier restudied Collini's bizarre fossil, based on his published illustration. He reinterpreted its forelimbs as wings and deemed it a flying reptile.[3]
1802
The strange fossil described by Collini was moved from Mannheim to Munich.[21]
In contrast to Cuvier and Blumenbach, Samuel Thomas von Soemmering interpreted Collini's fossil as a mammal.[22] Specifically, he interpreted it as an unusual bat, which morphologically linked mammals with birds. He named this strange creature Ornithocephalus. Soemmering may have interpreted this series of forms in an evolutionary sense, following the early evolutionary ideas of Jean-Baptiste de Lamarck. Soemmering's analysis of the specimen was blemished by anatomical errors, like the misidentifications of bones. Soemmering agreed with Cuvier that the creature was a flying insectivore, however.[21] Soemmering argued that pterosaurs walked on all fours like bats when on the ground. His advocacy for this interpretation of pterosaur terrestrial gait has been regarded as the beginning of a multi-century debate on the subject.[8]
1817
Soemmering reported the discovery of a second pterosaur specimen. This second specimen was smaller than the first, with a 25 cm wingspan, and possessed a shorter snout. These traits mislead Soemmering into greater confidence in his interpretation of pterosaurs as bats. This specimen reminded him of the parti-colored bat.[21]
1819
Cuvier renames Ptéro-Dactyle into the current generic name Pterodactylus, but assigning P. longirostris (now considered a synonym of the type species P. antiquus) as the type species of the genus.[23]
Cuvier reiterated his previous conclusions that the Ptero-Dactyle was a reptile that flew with membranous wings. He also advanced novel speculations about its paleobiology, like that it used the claws on its wings to climb trees and "crawled" quadrupedally when not in flight rather than walking on its hind limbs.[21]
Paleontologist Georg Graf Munster discovered an unusual skull. He sent the fossil to Soemmering, who thought it belonged to an ancient sea bird. He also sent a cast of the skull to August Georg Goldfuss, who recognized it as a pterosaur. Goldfuss described the new species Pterodactylus muensteri based on the specimen.[21]
Mantell recognized that his "bird" bones were actually pterosaur fossils and reported his findings to the scientific literature. These were the first Cretaceous pterosaur fossils ever described.[24]
Georg Wagler argued that pterosaurs represented a distinct class of aquatic vertebrates that he called Gryphi. Like Collini, Wagler thought that pterosaurs swam underwater using their forelimbs as flippers.[26]
August Goldfuss depicted pterosaurs as flying reptiles that used their wing claws to climb cliffs.[26] He hypothesized that on land, they would have had to travel on all fours.[8] He also suggested that they may have been covered in hair.[27]
Thomas Hawkins published The Book of the Great Sea-Dragons, wherein he suggested that the great reptiles of the Mesozoic were created by the devil.[32] He described pterosaurs as "an engrafted-by-Evil stock" and depicted them as bat-like scavengers that combed the ancient seashore.[33]
Edward Newman interpreted pterosaurs as mammals in a similar fashion to Soemmering. However, Newman specifically considered pterosaurs to be carnivorous flying marsupials.[26]
Two pterosaurs sculpted by Benjamin Waterhouse Hawkins were put on display in England's Crystal Palace. These were the first three-dimensional life-size restorations of pterosaurs.[26]
August Quenstedt described the species Pterodactylus suevicus from the Nusplingen lithographic limestone.[25] In this publication he argued that pterosaurs would have walked bipedally on the ground.[8]
Albert Oppel reported the discovery of a pterosaur lower jaw from the Posidonia shales of Holzmaden. This was the first pterosaur specimen to be reported from these deposits, which would go on to produce many pterosaur fossils of exceptional quality.[25]
Sir Richard Owen erected the new genus Dimorphodon for the species "Pterodactylus" macronyx.[25]
Buckman described a clutch of 4.5 cm long oval-shaped fossil eggs from Middle Jurassic marine rock in the United Kingdom. He erected the new oogenus and oospecies Oolithes bathonicae for them, the first time fossil eggs had been given their own unique taxonomic name.[36]
Meyer described 40 specimens of Pterodactylus. Among these specimens he reported more than 20 species. Most of these species are not recognized as distinct today and generally represent the misguided application of new names to members of known species at different ages. One species was not even a pterosaur; the "Pterodactylus" crassipes type specimen would later be recognized as the "Haarlem" specimen of Archaeopteryx.[21] He also reported the presence of pterosaurs in the lithographic limestone of Cerin, France.[30]
The book "La Terre avant Le Deluge" by Louis Figuier was published. It included an early restoration of a Rhamphorhynchus walking across the ground on all fours. This depiction was based on fossil footprints from the Solnhofen limestone attributed to the taxon.[26]
Seeley argued that pterosaurs represented the evolutionary transitional form between reptiles and birds, distinguished from the traditional reptiles by a warm-bloodedmetabolism as well as bird like anatomy, physiology and terrestrial gait. The claim ignited a "violent controversy" with the Owen due to his more traditional perspectives on pterosaurs and his hostility to evolutionary theory.[41]
Marsh's Yale Peabody Museum crews visited Kansas.[43] Marsh discovered the first Pteranodon wing bones.[44] These were the first scientifically described pterosaur fossils from North America.[7]
November – December 31st
Sir Richard Owen expressed astonishment at the North American discovery of pterosaurs exceeding the size of warm-blooded birds and mammals, given his interpretation of the group as typical cold blooded reptiles.[41]
An anonymous review synonymized Cope's Ornithochirus umbrosus and O. harpyia with Marsh's Pterodactylus ingens and Pterodactylus occidentalis, respectively.[51]
Cope acknowledged the validity of Marsh's Pterodactylus ingens and P. occidentalis, but continued to insist that his O. umbrosus was a valid species, although he came to refer it to Pterodactylus. This paper included the first illustrations of Pteranodon wing bones.[52]
A pterosaur fossil bearing an impression of the wing membrane was discovered. This was the first physical evidence of the structure which had previously been inferred purely from skeletal anatomy.[21]
Cope argued that his Ornithochirus species supposedly synonymous with Marsh's Pterodactylus species actually had priority because while Marsh's description was published first, Cope's would have been if not for delays caused by a fire at the publisher.[52]
Marsh published additional research on American pterosaurs. He acknowledged that his referral of teeth to the genus was an error.[45] Marsh described the new genus Nyctosaurus for "Pteranodon" gracilis.[54]
Williston helped excavate the Pteranodon specimen YPM 1177.[56]
Brous and Williston helped excavate the Pteranodon specimen YPM 2473.[57]
Marsh described the new species Rhamphorhynchus phyllurus from the Solnhofen lithographic limestone. The type specimen displayed exquisitely preserved impressions of the animal's wing membranes as well as a diamond shaped fin at the end of the tail.[59] Marsh thought that this fin was oriented vertically because it was slightly asymmetrical and could be used help the pterosaur steer as it flew.[60] However, Marsh's hypothesis regarding the orientation of the tail vane would later become controversial.[61]
Karl Alfred von Zittel described a fossil Rhamphorhynchus wing from the Solnhofen lithographic limestone that also preserved lifelike impressions of the wing membrane. He observed that the wing of Rhamphorhynchus was strengthened by fibrous tissue.[59] Based on this specimen, Zittel concluded that in life Rhamphorhynchus had relatively narrow wings, whereas Marsh thought the wings were much wider. The wing Zittel studied has been known as the "Zittel wing" in his honor ever since.[60]
Marsh reported that by this time the Yale Peabody Museum curated over 600 Pteranodon specimens. He also published more information about the skull of the Pteranodon type specimen and illustrated it. Marsh suspected that Pteranodon lacked a sclerotic ring, since one was absent in even well-preserved specimens.[54]
Richard Lydekker described the new genus Ptenodracon for the second pterosaur specimen to be discovered. This genus is now regarded as a junior synonym of Pterodactylus because the traits supposedly "Ptenodracon" instead indicate that the specimen was a juvenile.[21]
Newton reported the discovery of an endocast of a pterosaur brain in the Lias of Whitby, England.[61] The find revealed that pterosaur brains were more like modern birds than reptiles.[64]
Wiliston published what paleontologist Michael Everhart called the first complete description of Pteranodon this year.[65] Notable observations in this publication include the discovery of a sclerotic ring in this taxon.[54] Williston also found a coprolite containing tiny, indeterminate bone fragments preserved in one Pteranodon's pelvic area.[56] Williston also argued that previous estimates of Pteranodon's wingspan were exaggerated and that the maximum wingspan of the genus was just short of 20 feet.[66]
Williston disputed the length of Pteranodon's crest in Marsh's 1884 reconstruction.[54]
Williston published a redescription of the skull of Pteranodon based on a more recently discovered and better preserved specimen, KUVP 2212.[56] He also criticized the length of Pteranodon's crest in Marsh's 1884 reconstruction of the specimen YPM 1177 as being too speculative given the quality of its preservation.[67] Williston speculated that Pteranodon-like fossils would be one day discovered in Europe, and that in this case Pteranodon was probably a junior synonym of Ornithostoma.[68]
In this paper Williston also described a new, relatively complete Nyctosaurus specimen. He noted that the only published trait distinguishing the genus from Pterodactylus was an absence of teeth and recommended synonymizing these two genera if "Nyctosaurus" teeth were ever found.[57]
Williston argued that Pteranodon was a junior synonym of Ornithostoma. He praised Cope for recognizing these affinities, while lambasting Marsh for being unable to do so despite having a larger number of specimens. According to Everhart, Williston's criticism of Marsh may have been motivated by mistreatment at his hands while he worked for him.[68]
Seeley published Dragons of the Air. This was the first "serious boo[k]" about pterosaurs.[69] In it he restored pterosaurs with the wing membrane attached to the hindlimb.[70]
Williston published further anatomical description of Nyctosaurus based on a recently discovered well-preserved specimen now catalogued as FMNH 25026.[68] He estimated its live weight as less than five pounds. He interpreted the skull as completely lacking a crest.[71]
Williston published another paper about FMNH 25026 in which he described the skull in detail and photographed it.[71]
Williston published a popular article about pterosaurs for Popular Science Monthly.[71] In this article, Williston restored pterosaurs with the wing membrane attached to the hindlimb.[70] According to Everhart, by this point Williston had "largely given up" in his attempts to synonymize Pteranodon with Ornithostoma.[71]
Williston observed that the generic name Nyctosaurus was not actually preoccupied. He speculated that Marsh probably came to believe that it was preoccupied because of the existence of a higher order taxon called Nyctisauria. Since Nyctosaurus was not preoccupied, Williston reclassified "Nyctodactylus" back to the original genus.[54] Williston also described the new genus and species Apatomerus mirus for a partial pterosaur femur from the Kiowa Shale of Kansas. This specimen is now catalogued as KUVP 1198.[72] This paper contained a notable error wherein Williston claimed that Pteranodon lacked a fibula.[73]
George Francis Eaton published a paper defending Marsh's research on Pteranodon against Williston.[54]
Eaton published a paper defending Marsh's research on Pteranodon against Williston.[54] Some of Eaton's criticisms have since come under fire. For instance, Everhart has noted that Eaton's criticism of Williston for reporting a sclerotic ring in Pteranodon rather than Nyctosaurus ignored the fact that Eaton had found sclerotic rings in both genera.[74]
Williston published a paper on pterosaur fingers.[75]
Eaton published his doctoral dissertation on the osteology of Pteranodon.[75] This publication was the most significant work about Pteranodon as well as large pterosaurs generally for many decades afterward.[77] In this monograph, he restored pterosaurs with the wing membrane attached to the hindlimb.[70] He concurred with earlier work by Marsh and Williston that Pteranodon had a short tail.[78] According to Everhart, Eaton toned down his former stridently defensive attitude toward Marsh and warmed up somewhat to Williston's work.[75] He noted that the supposed wing bones of Pteranodon comptus were actually Nyctosaurustibiae and that P. ingens and P. occidentalis were only distinguishable by their sizes.[75] Everhart also noted that Eaton actually followed some of Williston's work "too closeley" and repeated Williston's erroneous claim that Pteranodon lacked a fibula.[73]
Williston finally confirmed the presence of a fibula in Pteranodon, correcting his previous error that mislead Eaton.[73]
Williston published a favorable review of Eaton's dissertation and conceded that his earlier criticism of Marsh's Pteranodon skull reconstruction was baseless.[73]
Williston published a restoration of Nyctosaurus. This was his last paper on pterosaurs.[75]
Hankin and Watson published the first study of the aerodynamics of pterosaur flight. They concluded that Pteranodon spent much more time soaring than actively flapping.[80] On the ground, however, Hankin and Watson argued that pterosaurs would have been "completely helpless" and could only move about by "pushing themselves along, after the manner of penguins."[8]
Wiman published a description of the fossils purchased by the Paleontological Museum in Uppsala, Sweden from C. H. Sternberg, which included Pteranodon fossils. He confirmed the presence of a fibula in some of the specimens.[73]
Bernhard Peyer discovered that the purported Triassic pterosaur Tribelesodon was actually a juvenile Tanystrophaeus, whose long neck vertebrae were mistaken for a wing-finger.[62]
Kenneth Caster conclusively demonstrated that unusual fossil tracks from the Solnhofen lithographic limestone variously attributed to creatures like Archaeopteryx, little dinosaurs, or pterosaurs were actually made by horseshoe crabs, as specimens had been found literally "dead in their tracks".[37]
Brown reported a Pteranodon specimen with the remains of two fish species and a crustacean preserved where its throat pouch would have been in life.[56]
Sternberg discovered another specimen of P. sternbergi near WaKeeney, Kansas which is now catalogued as FHSM VP-184. This specimen lacked a skull and was smaller than the type. In life it would have had a roughly 12.5 foot wingspan.[87]
Stokes described the new ichnogenus and species Pteraichnus saltwashensis from the Late JurassicMorrison Formation of Utah, USA, interpreting them as pterosaur tracks.[10] Stokes reported the presence of an impression left by the putative pterosaurian trackmaker's wing finger, although this claim is probably mistaken.[38] If his identification of these tracks was correct, it would mean that pterosaurs walked on all fours.[10]
Eric von Holst published an experimental study of Rhamphorhynchus flight biomechanics that utilized a flapping scale model. Because the model could only fly when its tail vane was oriented horizontally rather than vertically, von Holst concluded that Marsh's original reconstruction was erroneous.[61]
Bonner reported the Elkader Nyctosaurus discovered by Sternberg to the scientific literature and described the new species N. sternbergi based on it.[87]
John Ostrom reported that the type specimen of "Pterodactylus" crassipes actually represented a fourth specimen of Archaeopteryx. This was the fourth specimen referrable to that genus ever discovered.[21]
Miller published a review of Pterandon's known fossil record and proposed a new classification scheme for the species in the genus.[95] However, his scheme has largely since been rejected.[70] He also observed that Nyctosaurus sternbergi was a preoccupied species name and renamed it N. bonneri after its describer.[87]
Miller described a new specimen of Pteranodon longiceps discovered near Elkader, Kansas which is now catalogued as FHSM VP-2183.[70]
Heptonstall published an article on the biomechanics of Pteranodon flight.[96]
Sharov described the new genus and species Sordes pilosus from Late Jurassic rocks in Kazakhstan. The type specimen seemed to reveal the presence of a body covering of hair-like filaments.[27]
Price reported the first pterosaur fossils from the lagerstattenCrato and Santana formations of Brazil. These deposits would go on to be some of the most important pterosaur fossil sources in the world due to their high quality three dimensional preservation.[94]
Bramwell and Whitfield re-examined the biomechanics of Pteranodon flight after an extended lull in research on the topic. They estimated that a Pteranodon with a 7 m wingspan would have a mass of about 16 kg. To stay aloft, such a Pteranodon would need to fly at least 6.7 m/s, which is regarded as an "extremely low" minimum speed.[99] Such a load would have allowed it to take off or land "gently". Bramwell and Witfield argued that the biomechanics may have left Pteranodon vulnerable to increasing wind speeds resulting from climate change as the Late Cretaceous proceeded and even tentatively suggested that this may have been the cause of extinction for the genus.[100]
Stein published an article on the biomechanics of Pteranodon flight.[96] He crafted model Pteranodon wings and tested them in a wind tunnel. He found that Pteranodon was a capable, maneuverable flyer but was best adapted to long distance flights at low velocities.[103] Stein calculated that a large Pteranodon would have to fly at least 10 miles an hour to stay airborne. He concluded that Pteranodon would have had to land on its hind feet because making the front feet ready for landing would collapse the wings, which would no longer be useful for keeping the pterosaur aloft.[78] Stein's conclusions contradicted the previous findings of Bramwell and Whitfield.[96]
Brower published an article on the biomechanics of Pteranodon flight. His conclusions contradicted the findings of Bramwell and Whitfield, however.[96]
Frey and Riess published a study on the biomechanics of pterosaur flight.[96]
Padian argued that the wing membrane of pterosaurus probably did not attach to the hindlimb and that pterosaurs had narrow wings comparable in proportion to those of modern soaring sea birds.[70] He also argued based on the skeletal anatomy of Dimorphodon that it and other pterosaurs probably walked on their hind legs when not airborne.[8]
Padian published an additional paper arguing for bipedal pterosaurs.[38]
Brower studied the aerodynamics of Nyctosaurus and Pteranodon by comparing them to hang gliders. He concluded that both were unable to ascend or descend at high speed. He thought that they spent most of their time soaring rather than actively flapping. Brower thought Pteranodon itself to be entirely incapable of flapping flight.[78] His conclusions contradicted the previous findings of Bramwell and Whitfield.[96]
Kevin Padian and Paul Olsen reinterpreted the supposed pterosaur tracks named Pteraichnus from the Morrison Formation of Utah as crocodilian tracks.[111] They argued in favor of bipedal pterosaurs.[38]
Schultz and others argued that the type specimen of Apatomerus mirus was not actually a pterosaur fossils.[75]
Aeronautical engineer Alan McCready designed a flying model of Quetzalcoatlus in an experimental attempt to ascertain how a creature of its size could even be capable of flight. However, his results were inconclusive.[77]
Bennett observed that the tail of Pteranodon was longer than generally thought, being at least 19 cm on a Pteranodon with a 7.5 m wingspan. He hypothesized that this lengthier tail could have supported an additional membrane that would have assisted the animal's pitch during flight. However, Bennett has subsequently disavowed the idea that Pteranodon supported a membrane with its tail.[78]
Padian published another paper arguing for bipedal pterosaurs.[38]
Conrad and others "assumed" that the ichnogenus Purbeckopus was produced by a crocodylian.[38]
Unwin published a paper regarding the debate over the identity of the Pteraichnus trackmaker.[38]
Leonardi suggested that the supposed pterosaur footprints Stokes reported from the Navajo Formation in the 1970s were actually produced by the same kind of non-pterosaurian animal that made Batrachopus.[106]
Russell estimated that by this time 878 Pteranodon specimens were known.[44]
Pennycuick published a study on the biomechanics of pterosaur flight.[96]
Wellnhofer studied the range of motion in the hip and hind limbs of three-dimensionally preserved pterosaur fossils from the Crato Formation of Brazil for insight into their terrestrial gait.[8] He concluded that they walked on all fours.[105]
Michael Everhart discovered his first Pteranodon specimen in Kansas. In life it would have had a roughly 14 foot wingspan.[44]
Stewart reported that Nyctosaurus and Pteranodon made their first appearances in the stratigraphic column in the middle of the Smoky Hill Chalk, which dates back to the Santonian.[115]
Bennett published a study of the biostratigraphy of Pteranodon. He found that the type specimen of P. sternbergi was discovered in the lower chalk, while the type specimen of P. longiceps was discovered in the upper portion of the chalk.[115]
Peter Wellnhofer published The Illustrated Encyclopedia of Pterosaurs. Wellnhofer's book was only the second serious book about pterosaurs ever published.[69] In it, he argued that Othniel Charles Marsh was correct to reconstruct the tail vane of Rhamphorhynchus with a vertical orientation based on its asymmetry and also provided additional evidence for this orientation based on the shape of its tail vertebrae.[61] Wellnhofer also observed that pterosaurs had large, birdlike brains.[47] Wellnhofer also argued in favor of quadrupedal pterosaurs.[105]
Bennett published a study of sexual dimorphism in Pteranodon using 400 specimens. He found there to be two size based morphs, a larger form with a larger crest and narrow pelvis and a small form with a small crest and wide pelvis. He concluded that the larger form was male and the smaller form was female. He found that female Pteranodon outnumbered male Pteranodon by 2:1.[115] Bennett argued that since large crests were only associated with one size morph, that it functioned purely as display.[117] He also hypothesized that Pteranodon sternbergi was the direct ancestor of Pteranodon longiceps.[117]
Bennett argued that the purported pterosaur footprints reported by Gillette and Thomas were actually produced by crocodylians.[105]
Lockley and others reported the presence of Early Cretaceous pterosaur tracks in Spain.[118]
Bennett studied the Pteranodon remains curated by the Yale Peabody Museum.[49] His research debunked several claims originally made by O. C. Marsh.[119] The teeth Marsh originally referred to Pteranodon Bennett attributed to the fish genus Xiphactinus.[45] Bennet also argued that none of the Pteranodon species Marsh named after P. longiceps were actually distinct from it.[49] Bennett criticized conclusions drawn by Miller and Harksen as well.[120] Bennett criticized the former's 1971 classification scheme for Pteranodon species and the latter's 1966 reconstruction of Pteranodon sternbergi as having excessively long jaws.[121]Nyctosaurus also received some attention in this paper. Bennett concluded that N. bonneri was a junior synonym of N. gracilis.[117]
Unwin and Bakhurina published a paper arguing that much of the supposed soft tissue impressions of the Sordes type specimen were not the remains of a furry body covering. Instead, they seemed to be the remains of the fibrous tissue that reinforced the wing membrane.[27]
Jean-Michel Mazin and others reported the discovery of footprints left behind by during the Late Jurassic in what is now Crayssac, France which they attributed to pterosaurs. This paper has been regarded as the conclusion of the controversy regarding the type of gait pterosaurs utilized on the ground.[10]
The putative pterosaurian origins of Pteraichnus ignited controversy at the annual meeting of the Society of Vertebrate Paleontology.[38]
Moratalla and others reported the presence of Early Cretaceous pterosaur tracks in Spain.[118]
Lockley and Hunt reported the discovery of a new fossil track site featuring Pteraichnus-like traces.[38] They also argued that the supposed pterosaur footprints Stokes reported from the Navajo Formation in the 1970s were actually synapsid tracks.[106]
Carpenter reported the presence of coprolites associated with a Pteranodon specimen discovered in the Pierre Shale. The coprolites contained fish bones.[56]
Karl Hirsch tentatively concluded that the putative pterosaur eggs Oolithes were actually laid by turtles.[126] Pterosaur eggs would remain unknown in the fossil record until 2004.[17]
Lockley and Unwin noted the Pteraichnus controversy at the previous years meeting of the Society of Vertebrate Paleontologists.[38]
Time magazine featured a story about the Pteraichnus controversy.[127]
Lockley and others published further research on North American pterosaur tracks.[105]
June 1st
Pamela Everhart discovered a Pteranodon specimen in Kansas.[44] Pam and her husband Michael partially excavated the specimen and covered the rest of the fossils until a more thorough excavation was possible.[128]
June 29–30th
Michael and Pamela Everhart returned to finish excavating the Pteranodon, which had a roughly 17 foot wingspan.[129]
Lockley published further research on North American pterosaur tracks.[105]
May
Chris Bennet referred the 1996 Everhart Pteranodon specimen to the species P. sternbergi.[47]
June
Michael and Pamela Everhart returned to the site of their 1996 Pteranodon discovery to search for additional remains of the animal. However, extensive digging only produced one additional bone from the specimen.[47]
Bennett reported the discovery of three new Nyctosaurus specimens from Kansas to that year's annual meeting of the Society of Vertebrate Paleontologists.[117] One specimen had a 15-foot wingspan and represented a new size record for the species. The other two, discovered near WaKeeney, bore strange large branching crests.[117]
Bennett described the anatomy of the pterosaur wing membrane.[133]
Garcia Ramos and others published research on exceptionally well-preserved Late Jurassic pterosaur tracks in Asturias, Spain. These tracks are important both by being the tracks of a particularly large pterosaur and by clearly preserving the webbing between its toes.[134]
Chris Bennett published the first monograph-length discussion of Pteranodon in more than 90 years.[77] One of his more notable conclusions was that the reconstructions used by previous researchers to study Pteranodon flight biomechanics were so inaccurate that any conclusions drawn from them were completely invalid.[96]
Dalla Vecchia and others reported the discovery of pterosaur fossils in Lebanon.[17]
Paleontologists gathered at Toulouse for a scientific conference dedicated solely to pterosaurs.[69]
Fuentes Vidarte published research on Early Cretaceous pterosaur tracks in Spain.[137]
Mazin and others reported the existence of fossil pterosaur tracks preserving the impression of a fifth toe. This suggests that the trackmaker was a primitive long-tailed pterosaur.[138]
Garcia Ramos and others published research on exceptionally well-preserved Late Jurassic pterosaur tracks in Asturias, Spain.[134]
Lockley and others argued that there were two different types of fossil footprint assemblages that include Pteraichnus that differed by the type of a rock they were preserved in. One type of Pteraichnus-bearing track assemblage is associated with carbonate rocks, and the other with clastic rocks.[139]
Bennet described the Nyctosaurus specimens with unusual and large crests. He hypothesized that only adult males bore the very large crests.[117] Despite their large size, Bennett concluded that the crests were sufficiently streamlined to exert minimal impact on the animal's aerodynamics.[149]
An amateur fossil hunter discovered a "very large" complete Pteranodon sternbergi skull in Kansas, although the specimen is still held in his private collection and has not received significant scientific attention.[87]
Frey and others published a study on the wing membranes of "dark wing" specimen of Rhamphorhynchus.[17] This study helped advance paleontologists' understanding of the internal musculature and blood vasculature of the pterosaur wing. This study utilized UV light to help reveal greater detail in the specimen than is visible to the unaided eye. They also reported the existence of pterosaur crests composed entirely of soft tissue.[133]
Kellner published a study attempting to reconstruct the evolutionary history of pterosaurs. This study has been subsequently praised by David Hone as a landmark in the field.[157]
Unwin published a study attempting to reconstruct the evolutionary history of pterosaurs. Like that by Kellner, this study has been subsequently praised by David Hone as a landmark in the field.[157]
Bennett published a study on the anatomy and evolution of the pterosaur wing.[133]
Witmer and others published a study on the braincase of pterosaurs.[133]
Sayao published a study on the histology of pterosaur bones.[133]
Padian continued to argue that Pteraichnus and similar trace fossils were not produced by pterosaurs.[158]
Billon-Bruyat and Mazin argued that Agadirichnus was probably produced by a pterosaur and might even be the senior synonym of Pteraichnus. Lockley, Harris and Mitchell characterized this claim as a "radical suggestion" from a "historically-interesting paper".[86]
Cordoniu and Chiappe described some juvenile pterosaur fossils and discussed their implications for pterosaur developmental biology.[17]
Chatterjee and Templin published estimates of the body mass of various pterosaurs.[148]
Buffetaut and others reported evidence that dinosaurs preyed upon pterosaurs.[162]
Fuentes Vidarte published research on Early Cretaceous pterosaur tracks in Spain.[137]
Fuentes Vidarte published additional research on Early Cretaceous pterosaur tracks in Spain.[137]
May
Michael Everhart examined the Apatomerus type specimen and deterimened that it was not a pterosaur fossil.[75]
July
Everhart discovered a bone similar in the collections of Kansas University that was similar to the Apatomerus type specimen. This bone was associated with plesiosaur vertebrae, thus revealing the true identity of Apatomerus.[75]
Wang and others described the new genus and species Feilongus youngi and Nurhachius ignaciobritoi.[168] In this same paper they also attempted to reconstruct the evolutionary history of pterosaurs.[157]
Unwin published the book The Pterosaurs from Deep Time. This was only the third "serious boo[k]" about pterosaurs ever published.[69] In it, Unwin argued that young pterosaurs were born well-developed and requiring little investment of parental care.[17]
A pterosaur-focused exhibit went on tour in Japan.[69]
Peinkowski and Niedzwiedzki published a study on pterosaur tracks from Poland.[137]
Meyer and others reported the presence of pterosaur footprints in the Upper Cretaceous Cerro del Pueblo Formation of Mexico. However, they are now actually thought to be poorly preserved dinosaur footprints.[118]
Kleeman reported the presence of pterosaur footprints in the Upper Cretaceous Cerro del Pueblo Formation of Mexico. However, they are now actually thought to be poorly preserved dinosaur footprints.[118]
Humphries and others debunked the hypothesis that many pterosaurs fed by skim feeding.[162]
Veldmeijer and others published a study on pterosaur skull biomechanics.[162]
Following the success of the 2001 pterosaur symposium in Toulouse, a regular gathering of pterosaur paleontologists was established and titled "Flugsaurier" after the German word for pterosaur. This debut meeting was held in Munich and dedicated to long-time pterosaur paleontologist Peter Wellnhofer.[69]
Harris and others reported the existence of fossil pterosaur tracks preserving the impression of a fifth toe. This suggests that the trackmaker was a primitive long-tailed pterosaur.[138]
Garcia Ramos and others published research on exceptionally well-preserved Late Jurassic pterosaur tracks in Asturias, Spain.[134]
Pinuela and others published research on exceptionally well-preserved Late Jurassic pterosaur tracks in Asturias, Spain.[118]
Lockley and others also reported the existence of fossil pterosaur tracks preserving the impression of a fifth toe. This suggests that the trackmaker was a primitive long-tailed pterosaur.[138]
Lockley and others reported the presence of pterosaur tracks in the Dakota Group of Colorado.[118]
April
The University of Munich awarded Helmut Tischlinger an honorary doctorate degree for his work studying pterosaur fossil under ultraviolet light to better understand their soft tissues.[61]
Lockley and others published a paper documenting all known fossil track sites that preserve pterosaur footprints.[13]
Unwin and Deeming argued that the thin shells of the recently discovered pterosaur eggs suggest that they were buried after laying rather than "brooded" like birds and pop cultural portrayals.[17]
Bennett published a study on the anatomy and evolution of the pterosaur wing.[133]
Steel published a study on the histology of pterosaur bones.[133]
Witton published estimates of the body mass of various pterosaurs.[148]
Wilkinson published the first digital analysis of pterosaur flight biomechanics.[148]
Elgin and others published a study of pterosaur flight biomechanics that utilized a wind tunnel.[148]
Habib published a study examining how pterosaurs took flight. He concluded that pterosaur take-off occurred on all fours using the strength of their well-developed wing and chest muscles to launch into the air.[186]
Witton and Naish argued that azhdarchid pterosaurs spent much of their lives on the ground browsing for prey.[162]
Kellner and others published a study on the wing membranes of Jeholopterus.[17] This study helped advance paleontologists' understanding of actinofibrils and the pycnofibres composing pterosaurs "furry" covering.[133]
Gao and others reported the discovery of pterosaur fossils in North Korea.[17]
Claessens and others published a study examining the "thin-walled and pneumatic" nature of pterosaur bones.[133]
Butler and others published a study examining the "thin-walled and pneumatic" nature of pterosaur bones.[133]
Mazin and others reported the first trace fossil produced by a pterosaur as it landed.[162]
Dyke and others published compared the anatomy of pterosaur wings with those of other flying animals to better understand their ecomorphology.[162]
Lü and others described the new genus and species Darwinopterus modularis.[194] According to David Hone, D. modularis was the most the single most influential pterosaur species on science's understanding of pterosaur evolution. The body of Darwinopterus resembled the more primitive long-tailed "rhamphorynchoids", while its skull resembled those of the more advanced short-tailed pterodactyloids.[14] These traits establish the species as an important transitional form, documenting one of the most important phases of pterosaur evolution.[15] In this paper they also attempted to reconstruct the evolutionary history of pterosaurs.[157]
Bonaparte, Schultz, and Soares described the new genus and species Faxinalipterus minima.[197] This species may represent the earliest known pterosaur.[16]
Wang and others described the new genus and species Kunpengopterus sinensis.[195] They also formally defined the new family Wukongopteridae. This taxon is considered one of the most important higher-order pterosaur taxa to be described in recent times due to its intermediate nature between the "rhamphorhynchoids" and pterodactyloids.[17]
Tischlinger published a study on pterosaur wing membranes.[17] This study utilized UV light to help reveal greater detail in the specimen than is visible to the unaided eye.[133]
Steel reported the presence of a possible wukongopterid in Middle Jurassic rocks in the United Kingdom.[17]
Nesbitt and Hone found primitive pterosaurs to have a mandibular fenestra, a trait linking them to the archosaurs.[124] They also observed that many of the traits suggested by Bennett to be at odds with archosaurian origins were found in many groups and therefore not evidence for an interpretation of pterosaurs and a distinct non-archosaurian lineage.[202]
Vidovic published a study on the histology of pterosaur teeth.[133]
Henderson published estimates of the body mass of various pterosaurs.[148]
Witton and Habib noted that pterosaurs' reliance on launching with the wings from all fours to take flight limited their maximum body size and "had important implications for their ecology".[186]
Tutken and Hone attempted to ascertain the diet of pterosaurs by studying the isotopic composition of their bones and teeth.[162]
This year the Flugsaurier conference was held in Beijing.[69]
The Royal Society put on an exhibition related to pterosaurs as part of its 200th anniversary celebration.[69]
Documentary dedicated to pterosaurs titled Flying Monsters was released. This film would go on to win the BAFTA Award.[69]
Lu and others reported the discovery of a Darwinopterus egg associated with its mother. This was the fourth known discovery of a pterosaur egg.[17]
O'Connor and others reported the discovery of pterosaur fossils in Kenya.[17]
Nesbitt published a thorough cladistic analysis of the archosaurs, finding pterosaurs not only to be a member, but very close relatives of the dinosaurs.[16]
Palmer published a study of pterosaur flight biomechanics that utilized a wind tunnel.[148]
Prondvai and Osi published a study on pterosaur skull biomechanics.[162]
Hone and others described the new genus and species Bellubrunnus rothgaengeri.[212] This was the first known pterosaur with forward-pointing wingtips.[17]
Redescription of the holotype specimen of Mythunga camara was published by Pentland & Poropat (2019).[249]
A study on intervertebral foramina in Vectidraco, Anhanguera and Coloborhynchus, and on their implications for inferring palaeoecology and locomotion of these pterosaurs, is published by Martin‐Silverstone, Sykes & Naish (2019).[250]
Redscription of the holotype specimen of Ferrodraco, particularly the post-cranial skeleton, was published by Pentland and others. This study suggests that the diversity of Australian pterosaur fauna has been greatly underestimated.[261]
^For pterosaurs interpreted as birds or bats, see Wellnhofer (2008); "2. Early discoveries", page 9. For an attribution of pterosaurs to the infernal, see O'Connor (2012); page 499 and Hawkins (1840); "Addenda", page 7.
^For the description of Rhamphorhynchus, see Hanson (2008); "R", pages 19–20. For the description of Gnathosaurus, see "G", page 9.
^For the description of Pterosauria, see Wellnhofer (2008); "2. Early discoveries", page 10. For Dimorphodon, see "3. First pterosaurs from the Lias".
^For this paper as the first major study of pterosaur biomechanics, see Wellnhofer (2008); "8. Flight biomechanics", page 13. For its conclusion regarding pterosaurian helplessness on the ground, see "9. The problem of terrestrial locomotion", page 14.
^For Padian's 1983 peper on pterosaur gait, see Wellnhofer (2008); "9. The problem of terrestrial locomotion", page 14. For his criticism of Stokes's pterosaur track claims, see Lockley and Hunt (1995); "What's in a Name?", page 145.
^For von Soemmerring's full name, see Wellnhofer (2008); "1. Personal Remarks", page 8. For his involvement in early pterosaur research, see "2. Early discoveries", page 9.
^Cuvier, G. (1819). "Pterodactylus longirostris". In Oken, Lorenz (ed.). Isis (oder Encyclopädische Zeitung) von Oken (in German). Jena : Expedition der Isis. pp. 1126, 1788.
^ abWellnhofer (2008); "4. Discoveries of Cretaceous pterosaurs", pages 10–11.
^For Hawkins's interpretation of pterosaurs as "engrafted-by-Evil", see Hawkins (1840); "Addenda", page 7. For his portrayal of pterosaurs as shoreline scavengers, see Wellnhofer (2008); "7. Early life restorations", page 12.
^For Carruthers's first name and his description of new oospecies, see Carpenter (1999); "England", page 13. For his attribution of Oolithes to pterosaurs, see Carpenter, Hirsch, and Horner (1996); "The discovery of dinosaur eggs", page 1.
^ abEverhart (2005); "Pteranodons: Rulers of the Air", pages 197–198.
^Everhart (2005); "Pteranodons: Rulers of the Air", pages 201–202.
^For the subject of Williston's critique being the length of Pteranodon's crest in Marsh's 1884 reconstruction, see Everhart (2005); "Pteranodons: Rulers of the Air", page 200. For Williston's characterization of the reconstruction as too speculative for its quality of preservation, see page 202.
^Everhart (2005); "Pteranodons: Rulers of the Air", pages 197 and 199.
^Everhart (2005); "Pteranodons: Rulers of the Air", pages 207–209.
^For discussion of Bennett's critique of Miller's Pteranodon taxonomy, see Everhart (2005); "Pteranodons: Rulers of the Air", pages 208–209. For his critique of Harksen's P. sternbergi reconstruction, see pages 207–208.
^Megan L. Jacobs; David M. Martill; Nizar Ibrahim; Nick Longrich (2019). "A new species of Coloborhynchus (Pterosauria, Ornithocheiridae) from the mid-Cretaceous of North Africa". Cretaceous Research. 95: 77–88. Bibcode:2019CrRes..95...77J. doi:10.1016/j.cretres.2018.10.018. S2CID 134439172.
^Borja Holgado; Rodrigo V. Pêgas; José Ignacio Canudo; Josep Fortuny; Taissa Rodrigues; Julio Company; Alexander W. A. Kellner (2019). "On a new crested pterodactyloid from the Early Cretaceous of the Iberian Peninsula and the radiation of the clade Anhangueria". Scientific Reports. 9 (1): Article number 4940. Bibcode:2019NatSR...9.4940H. doi:10.1038/s41598-019-41280-4. PMC6426928. PMID 30894614.
^Zixiao Yang; Baoyu Jiang; Maria E. McNamara; Stuart L. Kearns; Michael Pittman; Thomas G. Kaye; Patrick J. Orr; Xing Xu; Michael J. Benton (2019). "Supplementary information for: Pterosaur integumentary structures with complex feather-like branching" (PDF). Nature Ecology & Evolution. 3 (1): 24–30. doi:10.1038/s41559-018-0728-7. hdl:1983/1f7893a1-924d-4cb3-a4bf-c4b1592356e9. PMID 30568282. S2CID 56480710.
^Zixiao Yang; Baoyu Jiang; Maria E. McNamara; Stuart L. Kearns; Michael Pittman; Thomas G. Kaye; Patrick J. Orr; Xing Xu; Michael J. Benton (2019). "Pterosaur integumentary structures with complex feather-like branching" (PDF). Nature Ecology & Evolution. 3 (1): 24–30. doi:10.1038/s41559-018-0728-7. hdl:1983/1f7893a1-924d-4cb3-a4bf-c4b1592356e9. PMID 30568282. S2CID 56480710. Archived from the original (PDF) on 23 April 2019. Retrieved 23 April 2019.
^Adele H. Pentland; Stephen F. Poropat (2019). "Reappraisal of Mythunga camara Molnar & Thulborn, 2007 (Pterosauria, Pterodactyloidea, Anhangueria) from the upper Albian Toolebuc Formation of Queensland, Australia". Cretaceous Research. 93: 151–169. Bibcode:2019CrRes..93..151P. doi:10.1016/j.cretres.2018.09.011. S2CID 133856481.
^Elizabeth Martin‐Silverstone; Daniel Sykes; Darren Naish (2019). "Does postcranial palaeoneurology provide insight into pterosaur behaviour and lifestyle? New data from the azhdarchoid Vectidraco and the ornithocheirids Coloborhynchus and Anhanguera". Palaeontology. 62 (2): 197–210. Bibcode:2019Palgy..62..197M. doi:10.1111/pala.12390. hdl:1983/d4d42086-9b8e-463d-a104-9e602ffca96c. S2CID 133796336.
^Flavio Bellardini; Laura Codorniú (2019). "First pterosaur post-cranial remains from the Lower Cretaceous Lohan Cura Formation (Albian) of Patagonia, Argentina". Ameghiniana. 56 (2): 116. doi:10.5710/AMGH.13.03.2019.3225. S2CID 131780806.
^Hone, D.; Habib, M.; Therrien, F. (September 2019). "Cryodrakon boreas, gen. et sp. nov., a Late Cretaceous Canadian azhdarchid pterosaur". Journal of Vertebrate Paleontology. 39 (3): e1649681. Bibcode:2019JVPal..39E9681H. doi:10.1080/02724634.2019.1649681. S2CID 203406859.
^Pentland, Adele H.; Poropat, Stephen F.; Tischler, Travis R.; Sloan, Trish; Elliott, Robert A.; Elliott, Harry A.; Elliott, Judy A.; Elliott, David A. (December 2019). "Ferrodraco lentoni gen. et sp. nov., a new ornithocheirid pterosaur from the Winton Formation (Cenomanian–lower Turonian) of Queensland, Australia". Scientific Reports. 9 (1): 13454. Bibcode:2019NatSR...913454P. doi:10.1038/s41598-019-49789-4. ISSN 2045-2322. PMC6776501. PMID 31582757.
^Kellner, Alexander W. A.; Weinschütz, Luiz C.; Holgado, Borja; Bantim, Renan A. M.; Sayão, Juliana M. (19 August 2019). "A new toothless pterosaur (Pterodactyloidea) from Southern Brazil with insights into the paleoecology of a Cretaceous desert". Anais da Academia Brasileira de Ciências. 91 (suppl 2): e20190768. doi:10.1590/0001-3765201920190768. ISSN 0001-3765. PMID 31432888.
^Kellner, Alexander W. A.; Caldwell, Michael W.; Holgado, Borja; Vecchia, Fabio M. Dalla; Nohra, Roy; Sayão, Juliana M.; Currie, Philip J. (2019). "First complete pterosaur from the Afro-Arabian continent: insight into pterodactyloid diversity". Scientific Reports. 9 (1): 17875. Bibcode:2019NatSR...917875K. doi:10.1038/s41598-019-54042-z. PMC6884559. PMID 31784545.
^Zhou, X.; Pêgas, R.V.; Leal, M.E.C.; Bonde, N. (2019). "Nurhachius luei, a new istiodactylid pterosaur (Pterosauria, Pterodactyloidea) from the Early Cretaceous Jiufotang Formation of Chaoyang City, Liaoning Province (China) and comments on the Istiodactylidae". PeerJ. 7: e7688. doi:10.7717/peerj.7688. PMC6754973. PMID 31579592.
^Dalla Vecchia, Fabio Marco (25 July 2019). "Seazzadactylus venieri gen. et sp. nov., a new pterosaur (Diapsida: Pterosauria) from the Upper Triassic (Norian) of northeastern Italy". PeerJ. 7: e7363. doi:10.7717/peerj.7363. PMC6661147. PMID 31380153.
^Pêgas, R.V.; Holgado, B.; Leal, M.E.C. (2019). "Targaryendraco wiedenrothi gen. nov. (Pterodactyloidea, Pteranodontoidea, Lanceodontia) and recognition of a new cosmopolitan lineage of Cretaceous toothed pterodactyloids". Historical Biology. 33 (8): 1–15. doi:10.1080/08912963.2019.1690482. S2CID 209595986.
^Solomon, A.A., Codrea, V.A., Venczel, M. & Grellet-Tinner, G., 2019, "A new species of large-sized pterosaur from the Maastrichtian of Transylvania (Romania)", Cretaceous Research, in press
^Martill, David M.; Green, Mick; Smith, Roy E.; Jacobs, Megan L.; Winch, John (1 September 2020). "First tapejarid pterosaur from the Wessex Formation (Wealden Group: Lower Cretaceous, Barremian) of the United Kingdom". Cretaceous Research. 113: 104487. Bibcode:2020CrRes.11304487M. doi:10.1016/j.cretres.2020.104487. ISSN 0195-6671. S2CID 219099220.
^Pentland, Adele H.; Poropat, Stephen F.; White, Matt A.; Rigby, Samantha L.; Bevitt, Joseph J.; Duncan, Ruairidh J.; Sloan, Trish; Elliott, Robert A.; Elliott, Harry A.; Elliott, Judy A.; Elliott, David A. (30 March 2022). "The osteology of Ferrodraco lentoni, an anhanguerid pterosaur from the mid-Cretaceous of Australia". Journal of Vertebrate Paleontology. 41 (5): e2038182. doi:10.1080/02724634.2021.2038182. ISSN 0272-4634. S2CID 247814094.
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