Categories: 360 VideoBiology

Rhomaleosaurus: Back to Life in Virtual Reality, 360° Video, Natural History Museum London

Encounter a prehistoric sea dragon in this 360-degree virtual reality experience. Teleport to the Natural History Museum in London and encounter the prehistoric ‘sea dragon’ Rhomaleosaurus, as it comes back to life before your eyes. Watch as this marine reptile roams the gallery over 180 million years after it died. See its muscles, movement, and skin texture, and learn all about how it lived.

Get up close to the Rhomaleosaurus – an extinct marine predator that lived 180 million years ago – as it roams the Natural History Museum’s Fossil Marine Reptiles gallery.

Broadcaster Bettany Hughes takes you on an extraordinary journey to meet this prehistoric sea dragon.

Discover how it lived, moved and what it looked and sounded like, and find out why studying long-extinct creatures helps scientists better understand species living today.

Rhomaleosaurus
Rhomaleosaurus (meaning “strong lizard”) is an extinct genus of Early Jurassic (Toarcian age, about 183 to 175.6 million years ago) rhomaleosaurid pliosauroid known from Northamptonshire and from Yorkshire of the United Kingdom. It was first named by Harry Seeley in 1874 and the type species is Rhomaleosaurus cramptoni. It was one of the earliest large marine reptile predators which hunted in the seas of Mesozoic era. Its length was about 7 m (23 ft) long. Like other pliosaurs, Rhomaleosaurus fed on ichthyosaurs, ammonites and other plesiosaurs.

Species

R. cramptoni
In July 1848, a fossil of a large plesiosaur was unearthed in an Alum quarry at Kettleness, near Whitby, in Yorkshire, England. It was collected from the A. bifrons ammonite zone of the Whitby Mudstone Formation, dating to the early Toarcian age, about 183 to 180 million years ago. The complete skeleton which preserved the skull, NMING F8785, was kept for five years at Mulgrave Castle, which was then owned by the Marquess of Normanby. In 1853, the Marquess introduced the interesting finding to the eminent Irish surgeon and anatomist, Sir Philip Crampton. The same year, Crampton transferred the fossil to Dublin to be displayed as a centrepiece at the 1853 British Association annual meeting. The Zoological Society of Ireland built a specially constructed building to house the large reptile. After a decade, still remaining undescribed, the specimen moved in the Royal Dublin Society museum and officially described by Alexander Carte and W. H. Bailey as a new species of Plesiosaurus. Carte and Bailey named the species Plesiosaurus cramptoni after the Irish scientist, Sir Philip Crampton. In 1874, the British geologist Harry G. Seeley, based on this finding, which is now known as the holotype of the family Rhomaleosauridae, recognized and erected a new genus establishing Rhomaleosaurus. Only in 2006 the skull of this specimen was finally prepared and enabled a restudy of this genus.

R. propinquus
R. propinquus is known from the holotype WM 852.S, articulated almost complete skeleton which preserved the skull, exposed in dorsal view. It was collected from the A. serpentines ammonoid zone, of the Whitby Mudstone Formation, Yorkshire, England, dating to the middle Toarcian stage, about 180-177 million years ago. R. propinquus was first named by Tate and Blake in 1876 as a new species of Plesiosaurus. Watson (1910) redescribed it as a species of Rhomaleosaurus. Adam S. Smith (2007), in his thesis on the anatomy and classification of the family Rhomaleosauridae, suggested that R. propinquus, is a junior synonym of Rhomaleosaurus zetlandicus. Smith and Gareth J. Dyke (2008) considered this species to be valid.

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R. thorntoni
R. thorntoni is known from the holotype BMNH R4853, three-dimensional, partially complete skeleton which preserved most of the skull and mandibles. It was collected from Kingsthorp of Northamptonshire, dating to the Toarcian stage. It is the only well-known British Toarcian rhomaleosaurid discovered away from the Yorkshire coast, to date. R. thorntoni was first named by Andrews in 1922 and later revised by Cruickshank (1996) as a junior synonym of R. cramptoni, alongside R. zetlandicus. Adam S. Smith (2007) and Smith and Gareth J. Dyke (2008) considered this species to be valid.

R. zetlandicus
R. zetlandicus is known from the holotype YORYM G503 (pictured), a nearly complete skull and vertebral column in association with parts of the limbs. It was collected from the Alum Shale of Whitby Mudstone Formation, Yorkshire, dating to the Toarcian stage. R. thorntoni was first named by Phillips in 1854 and its skull was described in detail by Taylor (1992). Later it was revised by Cruickshank (1996) as a junior synonym of R. cramptoni, alongside R. thorntoni. Adam S. Smith (2007) and Smith and Gareth J. Dyke (2008) considered this species to be valid.

Reassigned species
Through the years, various species have been referred to as Rhomaleosaurus. However, according to Smith (2007), in his thesis on the anatomy and classification of the family Rhomaleosauridae, the genus Rhomaleosaurus has only three valid species: R. cramptoni, R. thorntoni and R. zetlandicus. Smith and Dyke (2008) also recognized R. propinquus as valid. Other species that previously fell under this genus were: R. megacephalus and R. victor. Smith (2007) and Smith and Dyke (2008) pointed out that these species do not belong to Rhomaleosaurus, as R. megacephalus is referred to Eurycleidus (or to a new genus by Smith and Dyke (2008)) and R. victor represents a new genus named Meyerasaurus by Smith and Vincent in 2010. Cladistic analyses by Ketchum & Benson, 2010, Benson et al., 2011 and Ketchum & Benson, 2011 found R. megacephalus to be basal to the clade containing Rhomaleosaurus and Eurycleidus, thus it should be in its own genus as suggested by Smith and Dyke (2008). Following this, it has been placed in its own genus, Atychodracon. (Smith, 2015).

Thaumatosaurus
The name Thaumatosaurus, which means ‘wonder reptile’, belonged to a genus of plesiosaur that was described by palaeontologist Christian Erich Hermann von Meyer, back in 1841. Meyer described the species Thaumatosaurus oolithicus based on partial skull, vertebral and limb remains, that found in the Posidonia Shale of Holzmaden, Baden-Württemberg, Germany. In 1856, Meyer published a full description of Thaumatosaurus and later provided figures of the specimen. Richard Lydekker (1889) regarded Rhomaleosaurus as a synonym of Thaumatosaurus because Richard Lydekker and Harry G. Seeley “refused steadfastly to recognize the generic and specific names proposed by one another”. Lydekker referred continuously to the name Thaumatosaurus, instead of Rhomaleosaurus. Fraas (1910) recognized both generic names in his original description of R. victor (now Meyerasaurus), but referring to the new species “Thaumatosaurus” victor. Many other researchers adopted the name “Thaumatosaurus”. Today this taxon is regarded as a nomen dubium because the holotype can be referred to Pliosauroidea indet at best. The diagnostic specimens which previously were regarded as Thaumatosaurus’s specimens, now represent the holotypes of Eurycleidus, Meyerasaurus and Rhomaleosaurus.

Paleobiology
Rhomaleosaurus may have been able to pick up scents while submerged by forcing water through passages in its skull containing sensory organs. This adaptation would have enabled it to hunt its prey in a similar manner to some modern shark species.

Natural History Museum, London
The Natural History Museum in London is a natural history museum that exhibits a vast range of specimens from various segments of natural history. It is one of three major museums on Exhibition Road in South Kensington, the others being the Science Museum and the Victoria and Albert Museum. The Natural History Museum’s main frontage, however, is on Cromwell Road.

The Natural History Museum is a world-class visitor attraction and leading science research centre. We use our unique collections and unrivaled expertise to tackle the biggest challenges facing the world today. Explore a story of natural history discovery in an interactive experience, Making Natural History, voiced by Museum researchers and curators. Dive into the museum’s 80 million specimens with unique, new features: encounter a prehistoric marine reptile in virtual reality, discover pioneering Museum research in a short film, navigate the galleries in 360 degrees care of Google’s Street View team, take a tour of ten new exhibits tackling natural history themes, and take students on an expedition through the galleries to learn about adaptation in the natural world.

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