Peloneustes (meaning "mud swimmer") is a genus of pliosaurid plesiosaur from the Middle Jurassic of England. Its remains are known from the Peterborough Member of the Oxford Clay Formation, which is Callovian in age. It was originally described as a species of Plesiosaurus by palaeontologist Harry Govier Seeley in 1896, before being given its own genus by naturalist Richard Lydekker in 1889. While many species have been assigned to Peloneustes, P. philarchus is currently the only one still considered valid, with the others moved to different genera, considered nomina dubia, or synonymised with P. philarchus. Some of the material formerly assigned to P. evansi have since been reassigned to "Pliosaurus" andrewsi. Peloneustes is known from many specimens, including some very complete material.
With a total length of 3.5–4 metres (11–13 ft), Peloneustes is not a large pliosaurid. It had a large, triangular skull, which occupied about a fifth of its body length. The front of the skull is elongated into a narrow rostrum (snout). The mandibular symphysis, where the front ends of each side of the mandible (lower jaw) fuse, is elongate in Peloneustes, and helped strengthen the jaw. An elevated ridge is located between the tooth rows on the mandibular symphysis. The teeth of Peloneustes are conical and have circular cross-sections, bearing vertical ridges on all sides. The front teeth are larger than the back teeth. With only 19 to 21 cervical (neck) vertebrae, Peloneustes had a short neck for a plesiosaur. The limbs of Peloneustes were modified into flippers, with the back pair larger than the front.
Peloneustes has been interpreted as both a close relative of Pliosaurus or as a more basal (early-diverging) pliosaurid within Thalassophonea, with the latter interpretation finding more support. Like other plesiosaurs, Peloneustes was well-adapted to aquatic life, using its flippers for a method of swimming known as subaqueous flight. Pliosaurid skulls were reinforced to better withstand the stresses of feeding. The long, narrow snout of Peloneustes could have been swung quickly through the water to catch fish, which it pierced with its numerous sharp teeth. Peloneustes would have inhabited an epicontinental (inland) sea that was around 30–50 metres (100–160 ft) deep. It shared its habitat with a variety of other animals, including invertebrates, fish, thalattosuchians, ichthyosaurs, and other plesiosaurs. Five other pliosaurids are known from the Peterborough Member, but they were quite varied in anatomy, indicating that they would have eaten different food sources, thereby avoiding competition.
History of research[]
The strata of the Peterborough Member of the Oxford Clay Formation have long been mined for brickmaking. Ever since the late 19th century, when these operations began, the fossils of many marine animals have been excavated from the rocks. Among these was the specimen which would become the holotype of Peloneustes philarchus, discovered by geologist Henry Porter in a clay pit close to Peterborough, England. The specimen includes a mandible, the front part of the upper jaw, various vertebrae from throughout the body, elements from the shoulder girdle and pelvis, humeri (upper arm bones), femora (upper leg bones), and various other limb bones. In 1866, geologist Adam Sedgwick purchased the specimen for the University of Cambridge's Woodwardian Museum (now the Sedgwick Museum of Earth Sciences, Cambridge), with the specimen being catalogued as CAMSM J.46913 and stored in the university's lecture room within cabinet D. Palaeontologist Harry Govier Seeley described the specimen as a new species of the preexisting genus Plesiosaurus, Plesiosaurus philarchus, in 1869. The specific name means "power-loving", possibly due to its large, powerful skull. Seeley did not describe this specimen in detail, mainly just giving a list of the known material. While later publications would further describe these remains, CAMSM J.46913 remains poorly described.
Alfred Leeds and his brother Charles Leeds had been collecting fossils from the Oxford Clay since around 1867, encouraged by geologist John Phillips of the University of Oxford, assembling what became known as the Leeds Collection. While Charles eventually left, Alfred, who collected the majority of the specimens, continued to gather fossils until 1917. Eventually, after a visit by Henry Woodward of the British Museum of Natural History (now the Natural History Museum in London) to Leeds' collection in Eyebury in 1885, the museum bought around 5 tonnes (5.5 short tons) of fossils in 1890. This brought Leeds' collection to wider renown, and he would later sell specimens to museums throughout Europe, and even some in the United States. The carefully prepared material was usually in good condition, although it quite frequently had been crushed and broken by geological processes. Skulls were particularly vulnerable to this.
Naturalist Richard Lydekker was informed of a plesiosaur skeleton in the British Museum of Natural History by geologist George Charles Crick, who worked there. The specimen, catalogued under NHMUK R1253, had been discovered in the Oxford Clay Formation in Green End, Kempston, near Bedford. While Lydekker speculated that the skeleton was once complete, it was damaged during excavation. The limb girdles had been heavily fragmented when the specimen arrived at the museum, but a worker named Lingard in the Geology Department managed to restore much of them. In addition to the limb girdles, the specimen also consists of a partial mandible, teeth, multiple vertebrae (although none from the neck), and much of the limbs. Lydekker identified this specimen as an individual of Plesiosaurus philarchus and published a description of it in 1889. After studying this and other specimens in the Leeds Collection, he concluded that plesiosaurs with shortened necks and large heads could not be classified as species of Plesiosaurus, meaning that "P." philarchus belonged to a different genus. He initially assigned it to Thaumatosaurus in 1888, but later decided that it was distinct enough to warrant its own genus, which he named Peloneustes in his 1889 publication. The name Peloneustes comes from the Greek words pelos, meaning "mud" or "clay", in reference to the Oxford Clay Formation, and neustes, meaning "swimmer". Seeley, however, lumped Peloneustes into Pliosaurus in 1892, claiming that the two were insufficiently different to warrant separate genera. Seeley and Lydekker could not agree on which genus to classify P. philarchus in, representing part of a feud between the two scientists. However, Peloneustes has since become the accepted name.
The Leeds Collection contained multiple Peloneustes specimens. In 1895, palaeontologist Charles William Andrews described the anatomy of the skull of Peloneustes based on four partial skulls in the Leeds Collection. In 1907, geologist Frédéric Jaccard published a description of two Peloneustes specimens from the Oxford Clay near Peterborough, housed in the Musée Paléontologique de Lausanne, Switzerland. The more complete of the two specimens includes a complete skull preserving both jaws; multiple isolated teeth; 13 cervical (neck), 5 pectoral (shoulder), and 7 caudal (tail) vertebrae; ribs; both scapulae, a coracoid; a partial interclavicale; a complete pelvis save for an ischium; and all four limbs, which were nearly complete. The other specimen preserved 33 vertebrae and some associated ribs. Since the specimen Lydekker described was in some need of restoration, and missing information was filled in with data from other specimens in his publication, Jaccard found it pertinent to publish a description containing photographs of the more complete specimen in Lausanne to better illustrate the anatomy of Peloneustes.
In 1913, naturalist Hermann Linder described multiple specimens of Peloneustes philarchus housed in the Institut für Geowissenschaften, University of Tübingen and State Museum of Natural History Stuttgart, Germany. These specimens had also come from the Leeds Collection. Among the specimens he described from the former institution was a nearly complete mounted skeleton, lacking two cervical vertebrae, some caudal vertebrae from the end of the tail, and some distal phalanges. Only the rear part of the cranium was in good condition, but the mandible was mostly undamaged. Another of the specimens Linder described was a well-preserved skull (GPIT RE/3409), also from the University of Tübingen, preserving a sclerotic ring (the set of small bones that support the eye), only the fourth time these bones had been reported in a plesiosaur.
Andrews later described the marine reptile specimens of the Leeds Collection that were in the British Museum of Natural History, publishing two volumes, one in 1910 and the other in 1913. The anatomy of the Peloneustes specimens was described in the second volume, based primarily on the well-preserved skulls NHMUK R2679 and NHMUK R3808 and NHMUK R3318, an almost complete skeleton. NHMUK R3318 was so well preserved that it could be rearticulated and mounted, although the missing parts of the pelvis and limbs had to be filled in. The mounted skeleton was put on display in the museum's Gallery of Fossil Reptiles. Andrews had described this mount in 1910, remarking that it was the first skeletal mount of a pliosaurid, thus providing important information about the overall anatomy of the group.
In 1960, palaeontologist Lambert Beverly Tarlo published a review of pliosaurid species that had been reported from the Upper Jurassic. Many pliosaurids species had been named based on isolated fragments, creating confusion. Tarlo also found that inaccurate descriptions of the material and palaeontologists ignoring each other's work only made this confusion worse. Of the 36 species he reviewed, he only found nine of them to be valid, including Peloneustes philarchus. In 2011, palaeontologists Hilary Ketchum and Roger Benson described the anatomy of the skull of Peloneustes. Since the previous anatomical studies of Andrews and Linder, more specimens had been found, including NHMUK R4058, a skull preserved in three dimensions, providing a better idea of the skull's shape.
Other assigned species[]
Many further species have been assigned to Peloneustes throughout its history, but these have all since been reassigned to different genera or considered invalid. In the same publication in which he named P. philarchus, Seeley also named another species of Plesiosaurus, P. sterrodeirus based on seven specimens in the Woodwardian Museum consisting of cranial and vertebral material. When Lydekker erected the genus Peloneustes for P. philarchus, he also reclassified "Plesiosaurus" sterrodeirus and "Pleiosaurus" aequalis (a species named by John Phillips in 1871) as members of this genus. In his 1960 review of pliosaurid taxonomy, Tarlo considered P. aequalis to be invalid, since it was based on propodials (upper limb bones), which cannot be used to differentiate different pliosaurid species. He considered Peloneustes sterrodeirus to instead belong to Pliosaurus, possibly within P. brachydeirus.
Another of the species described by Seeley in 1869 was Pliosaurus evansi, based on specimens in the Woodwardian Museum. These consisted of cervical and dorsal (back) vertebrae, ribs, and a coracoid. Due to it being a smaller species of Pliosaurus and its similarity to Peloneustes philarchus, Lydekker reassigned it to Peloneustes in 1890, noting that it was larger than Peloneustes philarchus. He also thought that a large mandible and paddle attributed to Pleiosaurus ?grandis by Phillips in 1871 belonged to this species instead. In 1913, Andrews assigned a partial skeleton of another large pliosaur found by Leeds to Peloneustes evansi, noting that while the mandible and vertebrae were similar to other Peloneustes evansi specimens, they were quite different from those of Peloneustes philarchus. Consequently, Andrews considered it possible that P. evansi really belonged to a separate genus that was morphologically intermediate between Peloneustes and Pliosaurus. In his 1960 review of pliosaurids, Tarlo synonymised Peloneustes evansi with Peloneustes philarchus due to their cervical vertebrae being identical (save for a difference in size). He considered the larger specimens of Peloneustes evansi distinct, and assigned them to a new species of Pliosaurus, P. andrewsi (although this species is no longer considered to belong in Pliosaurus). Hilary F. Ketchum and Roger B. J. Benson disagreed with this synonymy, and in 2011 considered that since the holotype of Peloneustes evansi is nondiagnostic (lacking distinguishing features), P. evansi is a nomen dubium and therefore an indeterminate pliosaurid.
Palaeontologist E. Koken described another species of Peloneustes, P. kanzleri, in 1905, from the Cretaceous of Germany. In 1960, Tarlo reidentified this species as an elasmosaurid. In 1913, Linder created a subspecies of Peloneustes, P. philarchus var. spathyrhynchus, differentiating it based on its spatulate mandibular symphysis (where the two sides of the mandible meet and fuse). Tarlo considered it to be a synonym of Peloneustes philarchus in 1960, and the mandibular symphysis of Peloneustes is proportionately wider in larger specimens, making this trait more likely to be due to intraspecific variation (variation within species). Crushing makes accurate measurement of these proportions difficult. In 1948, palaeontologist Nestor Novozhilov named a new species of Peloneustes, P. irgisensis, based on PIN 426, a partial skeleton consisting of a large, incomplete skull, vertebrae, and a partial hind limb, with stomach contents preserved. The specimen was unearthed in the Lower Volga Basin in Russia. In his 1960 review, Tarlo considered this species to be too different from Peloneustes philarchus to belong to Peloneustes, tentatively placing it in Pliosaurus. He speculated that Novozhilov had incorrectly thought Peloneustes to be the sole long-snouted pliosaurid, hence the initial assignment. In 1964 Novozhilov erected a new genus, Strongylokrotaphus, for this species, but further studies concurred with Tarlo and reassigned the species to Pliosaurus, possibly a synonym of Pliosaurus rossicus. By then, PIN 426 had suffered from heavy pyrite damage.
In 1998, palaeontologist Frank Robin O'Keefe proposed that a pliosaurid specimen from the Lower Jurassic Posidonia Shale of Germany might represent a new species of Peloneustes. In 2001, he considered it to belong to a separate genus, naming it Hauffiosaurus zanoni. Palaeontologists Zulma Gasparini and Manuel A. Iturralde-Vinent assigned a pliosaurid from the Upper Jurassic Jagua Formation of Cuba to Peloneustes sp. in 2006. In 2009, Gasparini redescribed it as Gallardosaurus iturraldei. In 2011, Ketchum and Benson considered Peloneustes to contain only one species, P. philarchus. They recognised twenty one definite specimens of Peloneustes philarchus, all from the Peterborough Member of the Oxford Clay Formation. They considered some specimens from the Peterborough Member and Marquise, France previously assigned to Peloneustes to belong to different, currently unnamed pliosaurids.
Description[]
Peloneustes is a small- to medium-sized member of Pliosauridae. NHMUK R3318, the mounted skeleton in the Natural History Museum in London, is 3.5 metres (11.5 ft) long, while the mounted skeleton in the Institut für Geowissenschaften, University of Tübingen measures 4.05 metres (13.3 ft) in length. Plesiosaurs typically can be described as being of the small-headed, long-necked "plesiosauromorph" morphotype or the large-headed, short-necked "pliosauromorph" morphotype. Peloneustes is of the latter morphotype, with its skull making up a little less than a fifth of the animal's total length. Peloneustes, like all plesiosaurs, had a short tail, massive torso, and all of its limbs modified into large flippers.
Skull[]
While the holotype of Peloneustes lacks the rear portion of its cranium, many additional well-preserved specimens, including one that has not been crushed from top to bottom, have been assigned to this genus. These crania vary in size, measuring 60–78.5 centimetres (1.97–2.58 ft) in length. The cranium of Peloneustes is elongated and slopes upwards towards its back end. Viewed from above, the cranium is shaped like an isosceles triangle, with the back of the cranium broad and the front elongated into a narrow rostrum. The rearmost part of the cranium has roughly parallel sides, unlike the tapering front regions. The external nares (openings for the nostrils) are small and located about halfway along the length of the cranium. The kidney-shaped eye sockets face forwards and outwards and are located on the back half of the cranium. The sclerotic rings are composed of at least 16 individual elements, an unusually high number for a reptile. The temporal fenestrae (openings in the back of the cranium) are enlarged, elliptical, and located on the cranium's rearmost quarter.
Characteristically, the premaxillae (front upper tooth-bearing bones) of Peloneustes bear six teeth each, and the diastemata (gaps between teeth) of the upper jaw are narrow. While it has been stated that Peloneustes had nasals (bones bordering the external nares), well-preserved specimens indicate that this is not the case. The frontals (bones bordering the eye sockets) of Peloneustes contact both the eye sockets and the external nares, a distinctive trait of Peloneustes. There has been some contention as to whether or not Peloneustes had lacrimals (bones bordering the lower front edges of the eye sockets), due to poor preservation. However, well preserved specimens indicate that the lacrimals are distinct bones as in other pliosaurids, as opposed to extensions of the jugals (bones bordering the lower rear edges of the eye sockets). The palate of Peloneustes is flat and bears many openings, including the internal nares (the opening of the nasal passage into the mouth). These openings are contacted by palatal bones known as palatines, a configuration used to identify this genus. The parasphenoid (a bone that forms the lower front part of the braincase) bears a long cultriform process (a frontwards projection of the braincase) that is visible when the palate is viewed from below, another distinctive characteristic of Peloneustes. The occiput (rear part of the cranium) of Peloneustes is open, bearing large fenestrae.
Peloneustes is known from many mandibles, some of which are well-preserved. The longest of these measures 87.7 centimetres (2.88 ft). The mandibular symphysis is elongated, making up about a third of the total mandibular length. Behind the symphysis, the two sides of the mandible diverge before gently curving back inwards near the hind end. Each dentary (the tooth-bearing bone in the mandible) has between 36 and 44 teeth, 13 to 15 of which are located on the symphysis. The second to seventh tooth sockets (tooth sockets) are larger than those located further back, and the symphysis is the widest around the fifth and sixth. In addition to the characteristics of its mandibular teeth, Peloneustes can also be identified by its coronoids (upper inner mandibular bones), which contribute to the mandibular symphysis. Between the tooth rows, the mandibular symphysis bears an elevated ridge where the dentaries meet. This is a unique feature of Peloneustes, not seen in any other plesiosaurs. The mandibular glenoid (socket of the jaw joint) is broad, kidney-shaped, and angled upwards and inwards.
The teeth of Peloneustes have circular cross sections, as seen in other pliosaurids of its age. The teeth have the shape of recurved cones. The enamel of the crowns bears regularly-spaced vertical ridges of varying length on all sides. These ridges are more concentrated on the concave edge of the teeth. Most of the ridges extend to one half to two-thirds of the total crown height, with few actually reaching the tooth's apex. The dentition of Peloneustes is heterodont, that is, it has teeth of different shapes. The larger teeth are caniniform and located at the front of the jaws, while the smaller teeth are more sharply recurved, stouter, and located further back.
Postcranial skeleton[]
In 1913, Andrews reported that Peloneustes had 21 to 22 cervical, 2 to 3 pectoral, and around 20 dorsal vertebrae, with the exact number of sacral (hip) and caudal vertebrae unknown, based on specimens in the Leeds Collection. However, in the same year, Linder reported 19 cervical, 5 pectoral, 20 dorsal, 2 sacral, and at least 17 caudal vertebrae in Peloneustes, based on a specimen in the Institut für Geowissenschaften, University of Tübingen. The first two cervical vertebrae, the atlas and axis, are fused in adults, but in juveniles they are present as several unfused elements. The intercentrum (part of the vertebral body) of the axis is roughly rectangular, extending beneath the centrum (vertebral body) of the atlas. The cervical vertebrae bear tall neural spines that are compressed from side to side. The cervical centra are about half as long as wide. They bear strongly concave articular surfaces, with a prominent rim around the lower edge in the vertebrae located towards the front of the series. Each cervical centrum has a strong keel along the midline of its underside. Most of the cervical ribs bear two heads that are separated by a notch.
The pectoral vertebrae bear articulations for their respective ribs partially on both their centra and neural arches. Following these vertebrae are the dorsal vertebrae, which are more elongated than the cervical vertebrae and have shorter neural spines. The sacral and caudal vertebrae both have less elongated centra that are wider than tall. Many of the ribs from the hip and the base of the tail bear enlarged outer ends that seem to articulate with each other. Andrews hypothesised in 1913 that this configuration would have stiffened the tail, possibly to support the large hind limbs. The terminal (last) caudal vertebrae sharply decrease in size and would have supported proportionately larger chevrons than the caudal vertebrae located further forwards. In 1913, Andrews speculated that this morphology may have been present to support a small tail fin-like structure. Other plesiosaurs have also been hypothesised to have tail fins, with impressions of such a structure possibly known in one species.
The shoulder girdle of Peloneustes was large, although not as heavily built as in some other plesiosaurs. The coracoids are the largest bones in the shoulder girdle, and are plate-like in form. The shoulder joint is formed by both the scapula (shoulder balde) and the coracoid, with the two bones forming a 70° angle with each other. The scapulae are typical in form for a pliosaurid and triradiate, bearing three prominent projections, or rami. The dorsal (upper) ramus is directed outwards, upwards, and backwards. The underside of each scapula bears a ridge directed towards the front edge of its ventral (lower) ramus. The ventral rami of the two scapulae were separated from each other by a triangular bone known as the interclavicle. As seen in other pliosaurs, the pelvis of Peloneustes bears large and flat ischia and pubic bones. The third pelvic bone, the ilium, is smaller and elongated, articulating with the ischium. The upper end of the ilium shows a large amount of variation within P. philarchus, with two forms known, one with a rounded upper edge, the other with a flat upper edge and more angular shape.
The hind limbs of Peloneustes are longer than its forelimbs, with the femur being longer than the humerus, although the humerus is the more robust of the two elements. The radius (one of the lower forelimb bones) is approximately as wide as it is long, unlike the ulna (the other lower forelimb bone), which is wider than long. The radius is the larger of these two elements. The tibia is larger than the fibula (lower hindlimb bones) and longer than wide, while the fibula is wider than long in some specimens. The metacarpals, metatarsals, and the proximal manual phalanges (some of the bones making up the outer part of the paddle) are flattened. Most of the phalanges in both limbs have rounded cross-sections, and all of them have prominent constrictions in their middles. The number of phalanges in each digit is unknown in both the fore- and hind limbs.
Classification[]
Seeley initially described Peloneustes as a species of Plesiosaurus, a rather common practice (at the time, the scope of genera was similar to what is currently used for families). In 1874, Seeley named a new family of plesiosaurs, Pliosauridae, to contain forms similar to Pliosaurus. In 1890, Lydekker placed Peloneustes in this family, to which it has been consistently assigned since. Exactly how pliosaurids are related to other plesiosaurs is uncertain. In 1940, palaeontologist Theodore E. White considered pliosaurids to be close relatives of Elasmosauridae based on shoulder anatomy. Palaeontologist Samuel P. Welles, however, thought that pliosaurids were more similar to Polycotylidae, as they both had large skulls and short necks, among other characteristics. He grouped these two families into the superfamily Pliosauroidea, with other plesiosaurs forming the superfamily Plesiosauroidea. Another plesiosaur family, Rhomaleosauridae, has since been assigned to Pliosauroidea, while Polycotylidae has been reassigned to Plesiosauroidea. However, in 2012, Benson and colleagues recovered a different topology, with Pliosauridae being more closely related to Plesiosauroidea than Rhomaleosauridae. This pliosaurid-plesiosauroid clade was termed Neoplesiosauria.
Within Pliosauridae, the exact phylogenetic position of Peloneustes is uncertain. In 1889, Lydekker considered Peloneustes to represent a transitional form between Pliosaurus and earlier plesiosaurs, although he found it unlikely that Peloneustes was ancestral to Pliosaurus. In 1960, Tarlo considered Peloneustes to be a close relative of Pliosaurus, since both taxa had elongated mandibular symphyses. In 2001, O'Keefe and colleagues recovered it as a basal (early-diverging) member of this family, outside of a group including Liopleurodon, Pliosaurus, and Brachauchenius. However, in 2008, palaeontologists Adam S. Smith and Gareth J. Dyke found Peloneustes to be the sister taxon of Pliosaurus. In 2013, Benson and palaeontologist Patrick S. Druckenmiller named a new clade within Pliosauridae, Thalassophonea. This clade included the "classic", short-necked pliosaurids while excluding the earlier, long-necked, more gracile forms. Peloneustes was found to be the most basal thalassophonean. Subsequent studies have uncovered a similar position for Peloneustes.
The following cladogram follows Valentin Fischer and colleagues, 2017.
Thalassophonea |
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