June 6, 2011
Was Spinosaurus a Bison-Backed Dinosaur?
A hump-backed Spinosaurus, restored by R.E. Johnson and from Bailey 1997.
Spinosaurus and Ouranosaurus were among the most prominently ornamented of all dinosaurs. Both dinosaurs—a carnivore and herbivore, respectively—had elongated neural spines sticking out of many vertebrate along their backbones, which created prominent skeletal sails. In life, these structures are thought to have been covered by a thin layer of flesh, but in 1997 paleontologist Jack Bowman Bailey proposed an alternative idea. These dinosaurs were not sail-backed, Bowman hypothesized. They were hump-backed.
Superficially, the high-spined dinosaurs appeared to be analogues of two other strange prehistoric creatures. The carnivorous Dimetrodon and the herbivorous Edaphosaurus were synapsids, our own distant cousins, that lived between approximately 280 million and 265 million years ago. Both had the skeletal rigging for prominent sails on their backs and lived in a dry, arid landscape roughly similar to the kind of habitat Spinosaurus and Ouranosaurus inhabited much later. But Bailey argued that paleontologists had selected the wrong set of analogues. Bison were a better choice.
Bailey used basic anatomical comparison to set the stage for his idea. Illustrating the skeletons of Ouranosaurus, Dimetrodon and a bison side by side, Bailey noted that the back spines of the dinosaur were most similar to the thick, flattened spines near the shoulder region of the bison and were generally unlike the spindly backbone spires of Dimetrodon. (The elongated neural spines of the bison were so high, in fact, that Bailey wondered, “If bison had become extinct prior to the emergence of our own species, would they be interpreted today as sailbacked mammals?”) The resemblance led Baily to propose that the sails were sites for the attachments of powerful ligaments and large muscles.
Bison-backed dinosaurs would have been obligated to take up a different posture to handle all that extra bulk. If Spinosaurus had a thick hump, Bailey hypothesized, then it probably walked on all fours instead of balancing on two legs like other large theropods. “Thus, it seems unlikely that Spinosaurus was an agile cat-like sprinter like many short-spined theropods (e.g., Allosaurus),” he wrote, “but perhaps used the huge mass of its bear-like body to overpower young or weak prey, or perhaps to steal the kills of smaller more agile predators.” Restored by R. E. Johnson in one of the paper’s illustrations, Bailey’s vision of Spinosaurus looks like an enormous, hunch-backed crocodile.
Spinosaurus and Ouranosaurus were not the only dinosaurs Bailey thought might have humps. Bailey also viewed the elongated neural spines of dinosaurs such as the large theropod Acrocanthosaurus, the ceratopsian Protoceratops, the plate-backed Stegosaurus and others to infer the presence of large and small humps among many dinosaurs. These structures might have allowed dinosaurs to store up large amounts of energy in harsh environments, or maybe they allowed dinosaurs to maintain high, constant body temperatures (something that Bailey did not think dinosaurs were capable of without some specialized anatomical equipment, like a hump). The idea seemed plausible to some. A few months later, in a news report printed in Science, paleontologist Paul Barrett was cited as being in favor of Bailey’s notion. More recently, a 2007 National Geographic feature on “Extreme Dinosaurs” also counted Hans-Dieter Sues as supporting the idea, and a sketch by paleontologist Jason Poole showed a typical, sail-backed Spinosaurus standing next to a hump-backed one.
Beyond these notes, however, the idea that dinosaurs were bison-backed has not caught on. Spinosaurus, Ouranosaurus, and other dinosaurs Bailey cited are most often depicted with sails or other relatively thin structures, such as the fin-like projection at the hips of the recently-described predator Concavenator. There are a few reasons for this.
At the time Bailey wrote his paper, Ouranosaurus and Spinosaurus were thought to have lived in hot, dry, arid habitats where big sails would have caused them to overheat in the hot sun. A hump, in Bailey’s alternative view, would have acted as a “heat shield” in the Cretaceous environments. But paleontologists now know that these dinosaurs lived in lush, swampy environments and probably did not require protection from the desert-like environment Bailey based his ideas on. This also means that the dinosaurs would not have needed humps to store extra energy to make it through harsh dry seasons, thereby undermining the idea that Spinosaurus and Ouranosaurus were like desert lizards that store resources for tough times. (Additionally, if Spinosaurus and Ouranosaurus really did have heat-shield humps, then it is strange that other dinosaurs from the same ancient environments did not share the same adaptation.)
The dinosaurs were also relatively unique in the shape of their elongated spine rows. In terms of maximum spine height compared to the rest of the body, the dinosaurs considered in the study had sail or hump heights intermediate between those of Dimetrodon and bison, and the long spines of Spinosaurus and Ouranosaurus jutted up over a greater length of the back than in the mammals. Whereas the elongated spines of bison typically peaked between the shoulderblades and quickly became reduced in size, the highest points of the dinosaur backs were set further back along the spine and had a more gradual slope to them. This is probably because the elongated spines of bison are sites for muscle and ligament attachments that connect to the neck and head, whereas there is no indication that Ouranosaurus, Spinosaurus, or the other sail-backs needed extra support and power in the neck region. (If this were the case, and dinosaur humps contained muscles to support the head and give the neck more power, then it is odd that huge-headed dinosaurs like Tyrannosaurus did not have a similar adaptation.) Nor is there any indication that Spinosaurus had a body adapted to walking on all fours, although Ouranosaurus likely shared the ability of its hadrosauroid relatives in being able to switch between two- and four-legged locomotion.
Why Spinosaurus and Ouranosaurus had long rows of elongated spines is unknown. The structures supported fleshy banners that almost certainly played roles in display and species recognition—these dinosaurs practically carried billboards on their backs—but beyond that, it is difficult to say. Reconstructing soft tissues on extinct animals is very difficult, and doubly so when there are no solid modern analogues for the structures in question. Though Bailey pointed to the humps of mammals, for example, the elongated spines of bison, mammoths, prehistoric deer and other creatures were related to providing support for the head and strength to the neck, which was apparently not the case with Spinosaurus and Ouranosaurus. Desert lizards with fat tails don’t appear to be good analogues, either. Spinosaurus and Ouranosaurus were fundamentally different, and they remain among the most bizarre dinosaurs yet discovered.
References:
Anonymous (1998). Dino Fins More Like Humps? Science, 279 (5354), 1139-1139 DOI: 10.1126/science.279.5354.1139d
Bailey, J.B. (1997). Neural Spine Elongation in Dinosaurs: Sailbacks or Buffalo-Backs? Journal of Paleontology, 71 (6), 1124-1146
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Nature rounds around sex. When a feature doesn’t “scream” an obvious function it usually used for mating roles.
Bailey is essentially right, for the rather broad nature of these neural spines suggest a great deal of tissue HAD to be attached to them, much like a Bison. So if it is indeed a ‘sail’ and not a ‘hump’, it is going to still be a rather thick, meaty hump, much like the spinosaur in Jurassic Park. So like it or not, and even if it were used for sexual display, the structure would have added a fair amount of weight to the creature, even in ‘lean’ times. Even though Spino lived in a lush enviroment, there may have been times of feast and famine just as with some modern Nile Crocodiles, who take in most of the year’s calories in a bare few days time when migratory herds must cross their river. Likewise, there may have been a time of year when the spinos enjoyed a great feast, and evolved another place to store it in addition to flanks and tail.
As for Ouranosaurus, it’s sail may have evolved through the success of a herbivore ‘mimicing’ a dangerous predator. Those Ouranosaurs with the tallest spines resembled a deadly spinosaur and were therfore the most likely to survive and pass on their genes.
The following quote sums up my opinion on the matter.
Naish ( http://scienceblogs.com/tetrapodzoology/2010/09/concavenator_incredible_allosauroid.php ): “I have one more thing to say: what were the tall neural spines for? Ortega et al. (2010) conclude that we just can’t say, though they note that thermoregulatory, display or energy storage functions have all been suggested. I tend to prefer the display option, but only by analogy with the extant tall-spined reptiles that everyone seems to ignore whenever they talk about tall neural spines. Sure, maybe these structures were partially buried in fat or muscle, but the implication from some that they simply must have been like this, and that the existence of ‘dorsal sails’ is a total no-no (Bailey 1997) ignores the fact that all tetrapods aren’t mammals. There are living reptiles with dorsal sails: I really must get photos of sail-backed chameleon neural spines some time [adjacent photo shows body of Meller's chameleon Chamaeleo melleri - best I can do at short notice. Photo by Adrian Pingstone, from wikipedia].”
A hump make sense!
Maybe the hump was actually a form of protection. If the Dimetrodon had the same bacteria fighting abilities that the crocodile has, then maybe having a large mass of flesh at the top of their bodies for predators to bite at, meant their vital organs were safe, lower down towards the ground. Their limbs are so strong, they seem tough enough to carry a large mass about. They also have huge scapulas! They may have crouched very low to the ground, when approached by a predator, and so they were protected. They also have very small necks, as if to minimize the area around the neck for a predator to bite.
Having flesh around the bones makes sens, since the bones seem like they would be too fragile, simply rising up off the backbone the way they do.
Whether a hump or sail, if Spinosaurus was wading to catch things in the water then having a significant weight above the water would help it counteract the buoyancy of the lower half of the body in the water. This would help the legs grip the bottom giving it an advantage chasing fish or other smaller animals that might have been crossing a river, especially if the prey was swimming and Spinosaurus was able to grip the bottom and move against (or stand still in) a current. This would be a bit like crocodiles ambushing wildebeest etc crossing rivers today, except the crocodiles rely on being strong swimmers not their size and long legs. If this is the case then I suppose it would help to have a heavier hump than a lighter sail. How much it would help or hinder having heavy hump is the question. Heavy sail? Thin hump?
Having robust arms would also help a Spinosaurus that hunted in shallow water because it might have been scrambling and tripping more while hunting or just getting out of the water.
This doesn’t necessarily explain why Ouranosaurus would need this feature, except possibly to escape predators in a similar fashion. I expect that there was no single use for the hump/sail, that it was just a feature that proved to be useful, possibly even for storage, display thermal regulation and (maybe) ballast.
There’s talk on the web about new Spinosaurus remains found, including, for the first time, the hindlimbs! According to some, this awesome Spinosaurus model (from the “Dinossauri in carne e ossa” exposition from earlier this year in Italy) is actually based on those new remains.
https://lh4.googleusercontent.com/-oYhQwbOs8Ko/TXQI3n8Jc1I/AAAAAAAAANg/090o2SVpqDI/spino%2521.jpg
Looks like they mostly water born dinos and that they walked on all fours.
I think the hump-theory is basically rigth,
it works fine on the other spinosauridae family members,
as well as on Ouranosaurus.
But not on Spinosaurus himself.
If you look at their neural spines
the proportions are in range of present-day animals,
and as far as i can see they also have a concave shape.
So you put muscles at the sides,
and on the top you can run ligamentum supraspinale.
But if you look at these spines :
http://en.wikipedia.org/wiki/File:Spinosaurus_vertebrae.png
beside just appearing too long,
they don’t get wider at the top,
so you can hardly run the ligament there.
One of the neural spines also shows a deformation
in the upper third.
If this happened already during lifetime,
then muscles that were attached there could have caused problems.
Of course spinosaurus should have had some muscles,
but maybe a part, lets say this upper third, was exposed.
So what could be the reason for this ?
I think this could have been the ligamentum supraspinale.
In accelerated evolution it could look like this :
at one spinosauridae member the neural spines started to grow,
and became thinner, the bone mass was distributed in a different way.
This cut through the ligament,
but this sticked to the sides and widened where it was connected now,
coating the protruding part of the spines,
and allowing a more even distrubution of the stress.
So deformations at these tips weren’t so importand,
because they must be able to resist forces from the direction of the head,
but not downwards towards the spine, as muscles would cause.
This contruction should result in a highly elastic creature,
wich could be desireable for a fulltime fishlifter.
The tips itself could be covered with something like gristle,
adding some protection.
For the other spinosauridae i don’t see a reason for
exposing neural spines.
At suchomimus they are high compared to other theropodes,
but these proportion are common in dolphins,
so maybe he could move somewhat like them.
A flattened tail as beavers or maniti have could fit to this.
At irritator it’s somewhere between suchomimus and
spinosaurus.
But he was smaller than them, so maybe he could face fishlifting
without this modification.
At ouranosaurus i expect that this was for digging.
The proportions are between pig and buffalo.
His head was more shovel-shaped compared to his relatives,
and also reinforced( between eyes and nostrils ).
Having a hump between the shoulders as well at the hip
would let him choose between two-and forlegged digging,
wich should result in a greater variety of possible angles.
And this camel-back theory is odd, look at a camels neural spines,
and then try to attach such a hump over the spines of spino or ou..