The largest known predatory dinosaur to roam the Earth was nine feet longer than the world’s biggest T. rex specimen. Scientists report that Spinosaurus aegyptiacus also appears to have been the first truly semiaquatic dinosaur.
New fossils of the massive Cretaceous-era predator reveal it adapted to life in the water some 95 million years ago, providing the most compelling evidence to date of a dinosaur able to live and hunt in an aquatic environment.
The findings appear today in Science Express.
Researchers found that Spinosaurus developed a variety of previously unknown aquatic adaptations.
The researchers came to their conclusions after analyzing new fossils uncovered in the Moroccan Sahara and a partial Spinosaurus skull and other remains housed in museum collections around the world, as well as historical records and images from the first reported Spinosaurus discovery in Egypt more than 100 years ago.
“Working on this animal was like studying an alien from outer space; it’s unlike any other dinosaur I have ever seen,” says lead author Nizar Ibrahim of the University of Chicago.
10 odd adaptations
The aquatic adaptations of Spinosaurus differ significantly from earlier members of the spinosaurid family that lived on land but were known to eat fish. These adaptations include:
- Small nostrils located in the middle of the skull. The small size and placement of the nostrils farther back on the skull allowed Spinosaurus to breathe when part of its head was in water.
- Neurovascular openings at the end of the snout. Similar openings on crocodile and alligator snouts contain pressure receptors that enable them to sense movement in water. It’s likely these openings served a comparable function in Spinosaurus.
- Giant, slanted teeth that interlocked at the front of the snout. The conical shape and location of the teeth were well-suited for catching fish.
- A long neck and trunk that shifted the dinosaur’s center of mass forward. This made walking on two legs on land nearly impossible, but facilitated movement in water.
- Powerful forelimbs with curved, blade-like claws. These claws were ideal for hooking or slicing slippery prey.
- A small pelvis and short hind legs with muscular thighs. As in the earliest whales, these adaptations were for paddling in water and differ markedly from other predatory dinosaurs that used two legs to move on land.
- Particularly dense bones lacking the marrow cavities typical to predatory dinosaurs. Similar adaptations, which enable buoyancy control, are seen in modern aquatic animals like king penguins.
- Strong, long-boned feet and long, flat claws. Unlike other predators, Spinosaurus had feet similar to some shorebirds that stand on or move across soft surfaces rather than perch. In fact, Spinosaurus may have had webbed feet for walking on soft mud or paddling.
- Loosely connected bones in the dinosaur’s tail. These bones enabled its tail to bend in a wave-like fashion, similar to tails that help propel some bony fish.
- Enormous dorsal spines covered in skin that created a gigantic “sail” on the dinosaur’s back. The tall, thin, blade-shaped spines were anchored by muscles and composed of dense bone with few blood vessels. This suggests the sail was meant for display and not to trap heat or store fat. The sail would have been visible even when the animal entered the water.
Lost in the war
More than a century ago, German paleontologist Ernst Freiherr Stromer von Reichenbach first discovered evidence of Spinosaurus in the Egyptian Sahara. Sadly, all of Stromer’s fossils were destroyed during the April 1944 Allied bombing of Munich, Germany.
Ibrahim, however, was able to track down Stromer’s surviving notes, sketches, and photos in archives and at the Stromer family castle in Bavaria to supplement Stromer’s surviving publications.
The new Spinosaurus fossils were discovered in the Moroccan Sahara along desert cliffs known as the Kem Kem beds. This area was once a large river system, stretching from present-day Morocco to Egypt.
At the time, a variety of aquatic life populated the system, including large sharks, coelacanths, lungfish, and crocodile-like creatures, along with giant flying reptiles and predatory dinosaurs.
The most important of the new fossils, a partial skeleton uncovered by a local fossil hunter, was spirited out of the country. As a result, critical information about the context of the find was seemingly lost, and locating the local fossil hunter in Morocco was nearly impossible.
“It was like searching for a needle in a desert,” says Ibrahim. After an exhaustive search, Ibrahim finally found the man and confirmed the site of his original discovery.
Life-size and 3D
To unlock the mysteries of Spinosaurus, the team created a digital model of the skeleton with funding provided by the National Geographic Society. The researchers CT scanned all of the new fossils, which will be repatriated to Morocco, complementing them with digital recreations of Stromer’s specimens.
Missing bones were modeled based on known elements of related dinosaurs.
“We relied upon cutting-edge technology to examine, analyze, and piece together a variety of fossils. For a project of this complexity, traditional methods wouldn’t have been nearly as accurate,” says team member Simone Maganuco of the Natural History Museum in Milan, Italy.
The researchers then used the digital model to create an anatomically precise, life-size 3D replica of the Spinosaurus skeleton. After it was mounted, the researchers measured Spinosaurus from head to tail, confirming their calculation that the new skeleton was longer than the largest documented Tyrannosaurus by more than nine feet.
“What surprised us even more than the dinosaur’s size were its unusual proportions. We see limb proportions like this in early whales, not predatory dinosaurs,” says Paul Sereno, head of the University of Chicago’s Fossil Lab.
“In the last two decades, several finds demonstrated that certain dinosaurs gave origins to birds. Spinosaurus represents an equally bizarre evolutionary process, revealing that predatory dinosaurs adapted to a semiaquatic life and invaded river systems in Cretaceous North Africa.”
Additional coauthors of the study are from University of Portsmouth, University of Bristol, Intellectual Ventures, and Sapienza Università di Roma.
Source: University of Chicago