Indiana University Bloomington

At 2,500 pounds and 43 feet, prehistoric snake is the largest on record

BLOOMINGTON, Ind. -- Scientists have recovered fossils from a 60-million-year-old South American snake whose length and weight might make today's anacondas and reticulated pythons seem a bit cuter and more cuddly.

Named Titanoboa cerrejonensis by its discoverers, the size of the snake's vertebrae suggest it weighed 1140 kg (2,500 pounds) and measured 13 meters (42.7 feet) nose to tail tip -- and that's a conservative estimate. A report describing the find appears in this week's Nature. (Head, J.J., J.I. Bloch, A.K. Hastings, J.R. Bourque, E. Cadena, F. Herrera, P.D. Polly, and C.A. Jaramillo. 2009. Giant boine snake from a Paleocene Neotropical rainforest indicates hotter past equatorial temperatures. Nature, 457: 715-718. link)

"At its greatest width, the snake would have come up to about your hips," said Indiana University Bloomington geologist David Polly, who identified the position of the fossil vertebrae, which made a size estimate possible. "The size is pretty amazing. But our team went a step further and asked, how warm would the Earth have to be to support a body of this size?"
 
Crews led by Smithsonian Tropical Research Institute geologist Carlos Jaramillo and University of Florida, Florida Museum of Natural History vertebrate paleontologist Jonathan Bloch discovered the fossils in the Cerrejon Coal Mine in northern Colombia and investigated what the snake's environment might have been like. Paleontologist Jason Head of the University of Toronto-Mississauga, the Nature report's lead author, used information gleaned by his collaborators to make an estimate of Earth's temperature 58 to 60 million years ago in an area encompassed by modern-day Colombia.

Paleontologists have long known of a rough correlation between an age's temperature and the size of its poikilotherms (cold-blooded creatures). Over geological time, as ages get warmer, so does the upper size limit on poikilotherms.

"There are many ways the anatomy of a species is correlated with its environment on broad scales," Polly said. "If we understand these correlations better, we will know more about how climate and climate change affect species, as well as how we can infer things about past climates from the morphology of the species that lived back then."

Assuming the Earth today is not particularly unusual, Head estimated a snake of Titanoboa'ssize would have required an average annual temperature of 30 to 34 C (86 to 93 F) to survive. By comparison, the average yearly temperature of today’s Cartagena, a Colombian coastal city, is about 83 F.

"Tropical ecosystems of South America were surprisingly different 60 million years ago," said Bloch. "It was a rainforest, like today, but it was even hotter and the cold-blooded reptiles were all substantially larger. The result was, among other things, the largest snakes the world has ever seen... and hopefully ever will."

“The temperature estimation shows that a tropical rainforest, like Cerrejon, lived at a temperature of 32 degrees Celsius, 5 degrees above the upper limit of temperature for tropical rainforest in modern times,” said Carlos Jaramillo, a palaeobotanist ad the Smithsonian Topical Research Institute.  “These data challenge the view that tropical vegetation lives near its climatic optimum and it has profound implications in understanding the effect of current global warming on tropical plants."

Evolution has produced a wide variety of gigantic animals over the last several hundred million years -- dinosaurs, ancient dragonflies, and today's blue whale, to name a few. Why some species lineages produce monsters remains a matter of debate among evolutionary biologists and ecologists.

The scientists classify Titanoboa as a boine snake, a type of non-venomous constrictor that includes anacondas and boas.

Polly extrapolated the placement of Titanoboa fossil vertebrae by comparing the fossils' structure to the vertebrae of today's boine snakes. Snake vertebrae get bigger near a snake's midsection, but they are also structured differently than vertebrae closer to a snake's head or tail. Using a computer model he wrote, Polly estimated the fossilvertebrae originate near Titanoboa's middle. That means that if Polly's model is incorrect about the bone's placement, the snake could have been even bigger.

Also contributing to the Nature report were Alexander Hastings, Jason Bourque, Fabiany Herrera, and Edwin Cadena, all graduate students from the University of Florida. Funding for the fieldwork came from National Science Foundation, the Smithsonian Institution, Carbones del Cerrejón LLC (Colombia), the Geological Society of America, and the Florida Museum of Natural History, University of Florida. Funding for the quantitative analysis came from the National Science Foundation, the University of London, and Indiana University. The IU Bloomington Department of Geological Sciences is a unit of the College of Arts and Sciences.

To speak with Polly, please contact him at +1 812-855-7994 or pdpolly@indiana.edu.
Contact Head at +
1 905 828-3981 or jason.head@utoronto.ca
Contact Jaramillo at  +507 212 80 89 or JaramilloC@si.edu.
Contact Bloch at +1 352-273-1938 or jbloch@flmnh.ufl.edu