Temporal range: Early Cretaceous
|An artist's illustration of Sarcosuchus imperator|
Broin & Taquet, 1966
| †Sarcosuchus imperator|
Broin & Taquet, 1966
Sarcosuchus (/ˌsɑːrkoʊˈsuːkəs/; meaning "flesh crocodile") is an extinct genus of crocodyliform and distant relative of the Gavialidae that lived 112 million years ago. It dates from the early Cretaceous Period of what is now Africa and South America and is one of the largest crocodile-like reptiles that ever lived. It was almost twice as long as the modern saltwater crocodile and weighed up to 8 tonnes.
The first remains were discovered during several expeditions led by the French paleontologist Albert-Félix de Lapparent, spanning from 1946 to 1959, in the Sahara Desert. These remains were fragments of the skull, vertebrae, teeth and scutes. In 1964, an almost complete skull was found in Niger by the French CEA, but it was not until 1997 and 2000 that most of its anatomy became known to science, when an expedition led by the American paleontologist Paul Sereno discovered six new specimens, including one with about half the skeleton intact and most of the spine.
- 3Discovery and naming
- 3.1Early findings
- 3.2Fossils from Brazil
- 3.3Recent findings
- 4.1Growth pattern
- 7Further viewing
- 8External links
Life restoration of Sarcosuchus imperator
Sarcosuchus was a giant relative of crocodiles, with fully grown individuals estimated to have reached up to 11–12 m (36–39 ft) in total length and 8 tonnes (8.8 short tons) in weight. It had somewhat telescoped eyes and a long snout comprising 75% of the length of the skull. There were 35 teeth in each side of the upper jaw, while in the lower jaw there were 31 teeth in each side. The upper jaw was also noticeably longer than the lower one leaving a gap between them when the jaws were shut, creating an overbite. In young individuals the shape of the snout resembled that of the living gharial but in fully grown individuals it became considerably broader.
At the end of its snout, Sarcosuchus presented an expansion, called bulla, it has been compared to the ghara seen in gharials but unlike the ghara, which is only found in male gharial, the bulla is present in all Sarcosuchus skulls that have been found so far, suggesting that it was not a sexually dimorphic trait. The purpose of this structure remains enigmatic. Sereno and others asked various reptile researchers what their thoughts on this bulla were. Opinions ranged from it being an olfactory enhancer to being connected to a vocalization device.
Scutes of S. imperator
The osteoderms, also known as dermal scutes, of Sarcosuchus were similar to those goniopholodids like Sunosuchus and Goniopholis, they formed an uninterrupted surface that started in the posterior part of the neck up to the middle of the tail like is seen in Araripesuchus and other basal crocodyliforms, different from the pattern seen in living crocodiles, which present discontinuity between the osteoderms of the neck and body.
Size of S. imperator (blue) compared to other crocodyliforms
A common method to estimate the size of crocodiles and crocodile-like reptiles is the use of the length of the skull measured in the midline from the tip of the snout to the back of the skull table, since in living crocodilians there is a strong correlation between skull length and total body length in subadult and adult individuals irrespective of their sex, this method is preferred for Sarcosuchus due to the absence of a complete enough skeleton.
Two regression equations were used to estimate the size of S. imperator, they were created based on measurements gathered from 17 captive gharial individuals from northern India and from 28 wild saltwater crocodile individuals from northern Australia, both datasets supplemented by available measurements of individuals over 1.5 metres (4.9 ft) in length found in the literature. The largest known skull of S. imperator (the type specimen) is 1.6 m (5.2 ft) long, and it was estimated that the individual it belonged to had a total body length of 11.65 m (38.2 ft), its snout-vent length of 5.7 m (19 ft) was estimated using linear equations for the saltwater crocodile and in turn this measurement was used to estimate its body weight at 8 tonnes (8.8 short tons). This shows that Sarcosuchus was able to reach a maximum body size not only greater than previously estimated but also greater than that of the Miocene Rhamphosuchus, only the Late Cretaceous Deinosuchus and the Miocene Purussaurus may have achieved a comparable maximum body size.
Reconstructed S. imperator skeleton from behind
Sarcosuchus is commonly classified as part of the clade Pholidosauridae, a group of crocodile-like reptiles (Crocodyliformes) related but outside Crocodylia (the clade containing living crocodiles, alligators and gharials). Within this group it is most closely related to the North American genus Terminonaris. Most members of Pholidosauridae had long, slender snouts and they all were aquatic, inhabiting several different environments, some forms are interpreted as marine, capable of tolerating saltwater while others, like Sarcosuchus, were freshwater forms, the most primitive members of the clade, however, were found in coastal settings, zones of mixing of freshwater and marine waters. Sarcosuchus stands out among pholidosaurids for being considered a generalist predator, different from most known members of the clade which were specialized piscivores.
Simplified cladogram after Fortier et al. (2011).
Discovery and naming[edit source]
Early findings[edit source]
Specimen of S. imperator prior to restoration
During the course of several expeditions on the Sahara from 1946 to 1959, led by the French paleontologist Albert-Félix de Lapparent, several fossils of a crocodyliform of large size were unearthed in the region known as the Continental intercalaire, some of them were found in Foggara Ben Draou, near the town of Aoulef, Algeria (informally named as the Aoulef Crocodile) while others came from Gara Kamboute, in the south of Tunisia, the fossils found were fragments of the skull, teeth, scutes and vertebrae. In 1957, in the region now known as the Elrhaz Formation in the north of Nigerseveral isolated teeth of great size were found by H. Faure. The study of this material by French paleontologist France De Broin helped identify them as coming from a new long snouted crocodile.
Later, in 1964, the research team of the French CEA discovered an almost complete skull in region of Gadoufaoua, in the north of Niger, said skull was shipped to Paris for study and became the holotype of the then new genus and species Sarcosuchus imperator in 1966. The genus name comes from the Greek "sarco" meaning flesh and "suchus" meaning crocodile.
Fossils from Brazil[edit source]
In 1977, a new species of Sarcosuchus was named, S. hartti, from remains found in the late 19th century in the Reconcavo basin of Brazil. In 1867, American naturalist Charles Hartt found two isolated teeth and sent them to the American paleontologist O. C. Marsh who erected a new species of Crocodylus for them, C. hartti, this material, along with other remains were assigned in 1907 to the genus Goniopholis as G. hartti. Now residing in the British Museum of Natural History the fragment of the lower jaw, dorsal scute and two teeth compromising the species G. hartti were reexamined and conclusively placed in the genus Sarcosuchus.
Recent findings[edit source]
S. imperator teeth
The next major findings occurred during the expeditions led by the American paleontologist Paul Sereno, in 1997 and the follow-up trip in 2000. Partial skeletons, numerous skulls and 20 tons of assorted other fossils were recovered from the deposits of the Elrhaz Formation, which has been dated as late Aptian or early Albian stages of the late Cretaceous. It took about a year to prepare the Sarcosuchus remains.
Fossil teeth from the area of Nalut in northwestern Libya, possibly Hauterivian to Barremian in age, might be referable to S. imperator.
Growth patternSarcosuchus was a huge crocodiloform, growing as long as a bus, and weighed as much as an african bull elephant. It had 132 huge, conical teeth inside its 6-foot (1.8-meter) long head, and could easily crush bone with its powerful jaws. That alone made it a terrifying predator, along with the fact that it was also an expert ambush predator makes it even more frightening, making even some of the largest dinosaurs have to watch their backs. What it would do was wait in the murky rivers or lakes that it lived in, and waited until a fish would swim by or a dinosaur would come to drink, and then would jump out, catch its prey by surprise, then bite down and drag the unlucky prey into the water, where it would be drowned quickly after. It basically ate anything it could overpower and kill. It had thick, scaly skin like all crocodilians, and also had short legs and a long, powerful tail, perectly designed to swim through water at fast speeds. Sarcosuchus is unique to most crocodilians, because it has a large, broad knob on the tip of its snout called a bulla, possibly to help get a better grip on prey, attract mates, or send out frequency sounds.
Dr. Sereno took thin sections from trunk osteoderms of an estimated subadult individual (~80% of estimated maximum adult size). Approximately 40 lines of arrested growth (LAG) were counted in these thin sections, suggesting that S. imperator took 50 to 60 years to reach adult size. Given that extant wild crocodylians rarely reach these advanced ages, Sereno suggested that S. imperator achieved its large size by extending its period of rapid, juvenile, growth. A similar growth strategy has been suggested for the equally titanic crocodylian Deinosuchus, based on similar criteria.
DietSarcosuchus would have eaten anything from fish, other crocodilians, to even dinosaurs! There has been evidence of a large Sarcosuchus eating a young Nigersaurus, a large diplodocid from the same time period and area in Africa as Sarcosuchus. It probably competed for food or territory with the spinosaurid dinosars, such as Suchomimus or Spinosaurus, also semi-aquatic reptiles that probably hunted fish as well, or carnosaurs such as Carcharodontosaurus. Based on the broader snout of fully grown S. imperator when compared to the living gharial and other narrow-snouted crocodiles, along with a lack of interlocking of the smooth and sturdy-crowned teeth when the jaws were closed, Sereno et al. hypothesized that S. imperator had a generalized diet similar to that of the Nile crocodile. A diet that would have included large terrestrial prey such as the abundant dinosaurs that lived in the same region. However, a 2014 analysis of a biomechanical model of its skull suggested that unlike Deinosuchus, Sarcosuchus may not have been able to perform the "death roll" maneuver used by extant crocodylians to dismember their prey. This suggests that if S. imperator did hunt big game, it probably did not dismember prey in the same fashion as extant crocodylians.
The remains of S. imperator were found in a region of the Ténéré Desert named Gadoufaoua, more specifically in the Elrhaz Formation of the Tegama Group, dating from the late Aptian to the early Albian of the Early Cretaceous, approximately 112 million years ago. The stratigraphy of the region and the aquatic fauna that was found therein indicates that it was an inland fluvial environment, entirely freshwater in nature with a humid tropical climate. S. imperator shared the waters with the holostean fish Lepidotus and the coelacanth Mawsonia. The dinosaur fauna was represented by the iguanodontian Lurdusaurus, which was the most common dinosaur in the region, and its relative Ouranosaurus; there were also two sauropods, Nigersaurus and a currently unnamed sauropod while the theropod fauna included the spinosaurid Suchomimus, the carcharodontosaurid Eocarcharia and the abelisaurid Kryptops.
Meanwhile, S. hartti was found in the Reconcavo basin of Brazil, specifically in the Ilhas Formation of the Bahia series, it was a shallow lacustrine environment dating from the late Aptian, similar in age to the habitat of S. imperator, with similar aquatic fauna, including Lepidotus and two species of Mawsonia. The dinosaur fauna is of a very fragmentary nature and identification does not go beyond indeterminate theropod and iguanodontid remains.