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Sunday, July 25, 2021

Giganotosaurus: Beast of the Week

This week we'll be checking out a giant carnivore that has been continuing to gain popularity since its discovery.  Make way for Giganotosaurus carolinii

Giganotosaurus was a meat-eating dinosaur that lived in what is now Argentina during the late Cretaceous period, between 99 and 97 million years ago. The genus name translates to "Giant Southern Lizard".  Giganotosaurus is famous for being one of the largest carnivorous dinosaurs known, the largest specimens estimated at about 41feet(12.5meters) long from snout to tail, based on known fossil material.  

Gigianotosaurus life reconstruction in watercolors by Christopher DiPiazza

Gignotosaurus was a member of the carcharodontosaurid family, a branch of carnivorous dinosaurs that flourished during most of the Cretaceous period as the dominant land predators until they were eventually replaced by tyrannosaurids in the northern hemisphere and abelisaurids in the southern hemisphere.  Carcharodontosaurids are characterized by having relatively long skulls that slightly taper towards the tip of the snout. Their jaws were lined with blade-like ,serrated teeth, which is how this group earned its name, the "shark-toothed lizards".  Acrocanthosaurus and Concavenator are two other members of this family that have been featured on Prehistoric Beast of the Week.  

Giganotosaurus had a huge skull that measures between five and six feet long. The surface above its snout and eyes was rough in texture, implying there was some sort of horn-like keratin material growing there in life.  This dinosaur probably had some kind of low crest on its head in life either for display within the species, or possibly for some sort of combat.  The teeth were blade-like and serrated, like those of a shark, and the jaws were long and laterally narrow.  The tip of the lower jaw jutted down a bit, forming a "chin".  It is thought that this "chin" could have added extra momentum if Giganotosaurus was making contact with the front of its jaws as it bit.

Giganotosaurus skeletal mount on display at the Fernbank Museum of Natural History in Georgia. (image credit: Johnathan Chen)

All these jaw features imply Giganotosaurus wasn't adapted for crushing bone with its jaws, but rather making fast slices through soft tissue.  This reflects a hunting strategy aimed at making the prey animal bleed to death with deep cuts, rather than paralyzing it with a crushing blow, like a Tyrannosaurus might.  This makes sense since Giganotosaurus would have shared its environment with several large species of sauropod dinosaurs, some of which were larger than Giganotosaurus, and all of them would have been slower, so the strategy of slicing hunks of flesh off over a longer period of time, causing severe bleeding, makes sense for hunting a prey item that was too large to be taken down in one powerful bite.

That is all for this week!  Feel free to comment below!

References

Calvo, J. O.; Coria, R. A. (1998). "New specimen of Giganotosaurus carolinii (Coria & Salgado, 1995), supports it as the largest theropod ever found". Gaia15: 117–122.

Coria, R. A.; Salgado, L. (1995). "A new giant carnivorous dinosaur from the Cretaceous of Patagonia". Nature377 (6546): 224–226.

Coria, R. A.; Currie, P. J. (2002). "The braincase of Giganotosaurus carolinii (Dinosauria: Theropoda) from the Upper Cretaceous of Argentina". Journal of Vertebrate Paleontology22(4): 802–811.

Leanza, H. A; Apesteguía, S.; Novas, F. E; de la Fuente, M. S (2004). "Cretaceous terrestrial beds from the Neuquén Basin (Argentina) and their tetrapod assemblages". Cretaceous Research25 (1): 61–87.

Novas, F. E.; Agnolín, F. L.; Ezcurra, M. D.; Porfiri, J.; Canale, J. I. (2013). "Evolution of the carnivorous dinosaurs during the Cretaceous: The evidence from Patagonia". Cretaceous Research45: 174–215.

Therrien, F.; Henderson, D. M.; Ruff, C. B., 2005, "Bite Me: Biomechanical models of theropod mandibles and implications for feeding". In: Carpenter, K., The Carnivorous Dinosaurs. Life of the Past. Indiana University Press. pp. 179–237

Monday, July 12, 2021

Hypacrosaurus: Beast of the Week

This week we're checking out an important and well-studied plant-eater.  Make way for Hypacrosaurus!

Hypacrosaurus was a hadrosaurid ("duck-billed" dinosaur) that lived in what is now North America during the late Cretaceous period, between 75 and 67 million years ago.  When alive, like all members of its family, it would have eaten plants.  The largest adults measured about 30 feet (9.1 meters) from beak to tail.  The genus name translates to "Near the Highest Lizard" which is a seemingly odd genus name.  It's because the first Hypacrosaurus fossils uncovered were soon after the first Tyrannosaurus (the "highest" of dinosaurs at the time) fossils, and the two were similar in size, T.rex being a bit larger.  (This comparison made more sense at the time when we knew about WAY fewer dinosaurs.)

Hypcrosaurus altispinax life reconstruction in watercolors by Christopher DiPiazza.

Hypacrosaurus was a member of the lambeosaurine group within the hadrosaur family.  Lambeosaurines are known for having hollow bony crests growing from the tops of their skulls.  Parasaurolophus, and Hypacrosaurus' especially close relative, Corythosaurus are more famous members of this group.  Hypacrosaurus' crest was similar to Corythosaurus' in that it shaped almost like a sort of round helmet that starts about midway up the snout and ends at the base of the skull, behind the head.  Hypacrosaurus' crest was a bit shorter and wider than Corythosaurus', however.  Like its relatives, the crest was hollow and could have aided it in making specific kinds of sounds meant to communicate with members of its own species.  The crest also could have very well aided in visual display, since we know these dinosaurs grew the crests as they matured.  Different-sized and shaped crests would indicate the maturity of an individual when viewed by its peers.

Hypacrosaurus altispinax skull on display at the American Museum of Natural History in New York.

Hypacrosaurus, the genus, actually includes two distinct species that lived during different times.  Hypacrosaurus altispinax was discovered first and was found in Alberta, Canada.  Hypacrosaurus stebingeri was slightly smaller and had a lower crest than H.altispinax and was discovered in Montana, USA.

Hypacrosaurus is one of the few kinds of fossil dinosaurs scientists were able to find lots of eggs and babies from.  So much so, that they were able to study how these dinosaurs grew and aged throughout their lives.  Hypacrosaurus babies had only tiny, barely noticeable crests, and grew extremely fast for animals their size.  In fact, according to studies that examined multiple specimens of various sizes and looking at markings on the inside of their limb bones, paleontologists suggest Hypacrosaurus was sexually mature between only two to three years of age.  They didn't reach full adult size, however, until they were about ten to twelve.  The reasoning why an animal would have grown so quickly could have something to do with a need to avoid predation.  As the dinosaur grew, the variety of predators able to hunt it diminished.  The ability to reproduce early in life also probably played a part in its relationship with predators, since most dinosaurs likely never made it to adulthood.  

Skull of a baby Hypacrosaurus on display at the Museum of the Rockies in Montana.

Lastly, scientists were able to find preserved cells in beautifully preserved cartilage of a baby Hypacrosaurus specimen.  Not only that, but they were able to observe that these cells were in the process of dividing when the dinosaur died, and ultimately were able to extract traces of genetic material from it!  Not only was this cool for finding dinosaur genetic material, but it also proved that genetic material can survive MUCH longer than previously thought if the conditions are specific enough.

References

Bailleul, A. M.; Zheng, W.; Horner, J. R.; Hall, B. K.; Holliday, C. M.; Schweitzer, M. H. (2020). "Evidence of proteins, chromosomes and chemical markers of DNA in exceptionally preserved dinosaur cartilage"National Science Review7 (4): 815−822.

Cooper, Lisa N.; Lee, Andrew H.; Taper, Mark L.; Horner, John R. (2008). "Relative growth rates of predator and prey dinosaurs reflect effects of predation"Proceedings of the Royal Society B275 (1651): 2609–2615.

Erickson, G.M.; Zelenitsky, D.K.; Kay, D.I.; Norrell, M.A. (2017). "Dinosaur incubation periods directly determined from growth-line counts in embryonic teeth show reptilian-grade development" (PDF)Proceedings of the National Academy of Sciences114 (3): 540–545.

Horner, John R.; Currie, Phillip J. (1994). "Embryonic and neonatal morphology and ontogeny of a new species of Hypacrosaurus (Ornithischia, Lambeosauridae) from Montana and Alberta". In Carpenter, Kenneth; Hirsch, Karl F.; Horner John R. (eds.). Dinosaur Eggs and Babies. Cambridge: Cambridge University Press. pp. 312–336.