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Ancient
shark fossil reveals new insights into jaw evolution
Ancient
shark fossil reveals new insights into jaw evolution
Date:
April 16,
2014
Source:
American Museum of Natural History
Summary:
The skull of a newly discovered 325-million-year-old
shark-like species suggests that early cartilaginous and bony fishes have more
to tell us about the early evolution of jawed vertebrates -- including humans
-- than do modern sharks, as was previously thought. The new study shows that
living sharks are actually quite advanced in evolutionary terms, despite having
retained their basic 'sharkiness' over millions of years.
.................................
The skull of a newly discovered 325-million-year-old
shark-like species suggests that early cartilaginous and bony fishes have more
to tell us about the early evolution of jawed vertebrates -- including humans
-- than do modern sharks, as was previously thought. The new study, led by
scientists at the American Museum of Natural History, shows that living sharks
are actually quite advanced in evolutionary terms, despite having retained
their basic "sharkiness" over millions of years. The research is
published today in the journal Nature.
"Sharks
are traditionally thought to be one of the most primitive surviving jawed
vertebrates. And most textbooks in schools today say that the internal jaw
structures of modern sharks should look very similar to those in primitive
shark-like fishes," said Alan Pradel, a postdoctoral researcher at the
Museum and the lead author of the study. "But we've found that's not the
case. The modern shark condition is very specialized, very derived, and not
primitive."
The new
study is based on an extremely well-preserved shark fossil collected by Ohio
University professors Royal Mapes and Gene Mapes in Arkansas, where an ocean
basin once was home to a diverse marine ecosystem. The fossilized skull of the
new species, named Ozarcus mapesae, along with similar specimens from
the same location, were part of a recent donation of 540,000 fossils from Ohio
University to the Museum.
The heads of
all fishes -- sharks included -- are segmented into the jaws and a series of
arches that support the jaw and the gills. These arches are thought to have
given rise to jaws early in the tree of life.
Because
shark skeletons are made of cartilage, not bone, their fossils are very fragile
and are usually found in flattened fragments, making it impossible to study the
shape of these internal structures. But the Ozarcus mapesae specimen was
preserved in a nearly three-dimensional state, giving researchers a rare
glimpse at the organization of the arches in a prehistoric animal.
"This
beautiful fossil offers one of the first complete looks at all of the gill
arches and associated structures in an early shark. There are other shark
fossils like this in existence, but this is the oldest one in which you can see
everything," said John Maisey, a curator in the Museum's Division of
Paleontology and one of the authors on the study. "There's enough depth in
this fossil to allow us to scan it and digitally dissect out the cartilage
skeleton."
Working with
scientists at the European Synchrotron, the ESRF, Pradel imaged the specimen
with high-resolution x-rays to get a detailed view of each individual arch
shape and organization. "We discovered that the arrangement of the arches
is not like anything you'd see in a modern shark or shark-like fish," said
Pradel. "Instead, the arrangement is fundamentally the same as bony
fishes."
The authors
say it's not unexpected that sharks -- which have existed for about 420 million
years -- would undergo evolution of these structures. But the new work,
especially when considered alongside other recent developments about early
jawed vertebrates, has significant implications for the future of evolutionary
studies of this group. "Bony fishes might have more to tell us about our
first jawed ancestors than do living sharks," Maisey said.
Story
Source:
The above
story is based on materials provided by American Museum of Natural History. Note:
Materials may be edited for content and length.
Journal
Reference:
- Alan Pradel, John G. Maisey, Paul Tafforeau, Royal H. Mapes, Jon Mallatt. A Palaeozoic shark with osteichthyan-like branchial arches. Nature, 2014; DOI: 10.1038/nature13195
Cite This
Page:
American Museum of Natural History.
"Ancient shark fossil reveals new insights into jaw evolution."
ScienceDaily. ScienceDaily, 16 April 2014.
<www.sciencedaily.com/releases/2014/04/140416133336.htm>.
