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Buaya kuno mungkin relatif Sumber makanan untuk Titanoboa, ular terbesar yang pernah dikenal
Ancient crocodile relative likely food source for Titanoboa, largest
snake ever known
Date:
February 3,
2010
Source:
University of Florida
Summary:
A 60-million-year-old relative of crocodiles was
likely a food source for Titanoboa, the largest snake the world has ever known.
Paleontologists found fossils of the new species of ancient crocodile in the
Cerrejon Formation in northern Colombia. The site, one of the world's largest
open-pit coal mines, also yielded skeletons of the giant, boa constrictor-like Titanoboa,
which measured up to 45 feet long
....................
A 60-million-year-old relative of crocodiles described
recently by University of Florida researchers in the Journal of Vertebrate Paleontology
was likely a food source for Titanoboa, the largest snake the world has ever
known.
Working with
scientists from the Smithsonian Tropical Research Institute in Panama,
paleontologists from the Florida Museum of Natural History on the UF campus
found fossils of the new species of ancient crocodile in the Cerrejon Formation
in northern Colombia. The site, one of the world's largest open-pit coal mines,
also yielded skeletons of the giant, boa constrictor-like Titanoboa, which
measured up to 45 feet long. The study is the first report of a fossil
crocodyliform from the same site.
"We're
starting to flesh out the fauna that we have from there," said lead author
Alex Hastings, a graduate student at the Florida Museum and UF's department of
geological sciences.
Specimens
used in the study show the new species, named Cerrejonisuchus improcerus,
grew only 6 to 7 feet long, making it easy prey for Titanoboa. Its scientific
name means small crocodile from Cerrejon.
The findings
follow another study by researchers at UF and the Smithsonian providing the
first reliable evidence of what Neotropical rainforests looked like 60 million
years ago.
While
Cerrejonisuchus is not directly related to modern crocodiles, it played an
important role in the early evolution of South American rainforest ecosystems,
said Jonathan Bloch, a Florida Museum vertebrate paleontologist and associate
curator.
"Clearly
this new fossil would have been part of the food-chain, both as predator and
prey," said Bloch, who co-led the fossil-hunting expeditions to Cerrejon
with Smithsonian paleobotanist Carlos Jaramillo. "Giant snakes today are
known to eat crocodylians, and it is not much of a reach to say Cerrejonisuchus
would have been a frequent meal for Titanoboa. Fossils of the two are often found
side-by-side."
The concept
of ancient crocodyliforms as snake food has its parallel in the modern world,
as anacondas have been documented consuming caimans in the Amazon. Given the
ancient reptile's size, it would have been no competition for Titanoboa, Hastings
said.
Cerrejonisuchus
improcerus is the
smallest member of Dyrosauridae, a family of now-extinct crocodyliforms.
Dyrosaurids typically grew to about 18 feet and had long tweezer-like snouts
for eating fish. By contrast, the Cerrejon species had a much shorter snout,
indicating a more generalized diet that likely included frogs, lizards, small
snakes and possibly mammals.
"It
seems that Cerrejonisuchus managed to tap into a feeding resource that wasn't
useful to other larger crocodyliforms," Hastings said.
The study
reveals an unexpected level of diversity among dyrosaurids, said Christopher A.
Brochu, a paleontologist and associate professor in geosciences at the
University of Iowa.
"This
diversity is more evolutionarily complex than expected," said Brochu, who
was not involved in the study. "A limited number of snout shapes evolved
repeatedly in many groups of crocodyliforms, and it appears that the same is
true for dyrosaurids. Certain head shapes arose in different dyrosaurid
lineages independently."
Dyrosaurids
split from the branch that eventually produced the modern families of
alligators and crocodiles more than 100 million years ago. They survived the
major extinction event that killed the dinosaurs but eventually went extinct
about 45 million years ago. Most dyrosaurids have been found in Africa, but
they occur throughout the world. Prior to this finding, only one other
dyrosaurid skull from South America had been described.
Scientists
previously believed dyrosaurids diversified in the Paleogene, the period of
time following the mass extinction of dinosaurs, but this study reinforces the
view that much of their diversity was in place before the mass extinction
event, Brochu said. Somehow dyrosaurids survived the mass extinction intact
while other marine reptile groups, such as mosasaurs and plesiosaurs, died out
completely.
The
crocodyliform's diminutive size came as a surprise, Hastings said, especially
considering the giant reptiles that lived during the Late Cretaceous. The
fossil record also points to the possibility of other types of ancient
crocodyliforms inhabiting the same ecosystem. "In a lot of these tropical,
diverse ecosystems in which crocodyliforms can thrive, you often see multiple
snout types," he said. "They tend to start speciating into different
groups."
Story
Source:
The above
story is based on materials provided by University of Florida. Note: Materials may be edited
for content and length.
