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     http://www.sciencedaily.com/releases/2012/06/
     120613133032.htm 
 
Where Humans Split from Sharks: Common Ancestor Comes Into Focus
enlarge

These are various latex molds taken from the fossil of Acanthodes bronni. 
(Credit: Megan Doherty/University of Chicago)
June 13, 2012 — The common 
ancestor of all jawed vertebrates on Earth resembled a shark, according 
to a new analysis of the braincase of a 290-million-year-old fossil fish that 
has long puzzled paleontologists.
New research on Acanthodes bronni, a fish from the Paleozoic era, sheds light 
on the evolution of the earliest jawed vertebrates and offers a new glimpse of 
the last common ancestor before the split 
between the earliest sharks and the first bony fishes -- the lineage 
that would eventually include human beings.
"Unexpectedly, Acanthodes turns out to be the best view we have of 
conditions in the last common ancestor of bony fishes and sharks," said 
Michael Coates, PhD, professor of organismal biology and anatomy at the 
University of Chicago and senior author of the study published in Nature. "Our 
work is telling us that the earliest bony fishes looked pretty 
much like sharks, and not vice versa. What we might think of as shark 
space is, in fact, general modern jawed vertebrate space."
The group gnathostomes, meaning "jaw-mouths," includes tens of 
thousands of living vertebrate species, ranging from fish and sharks to 
birds, reptiles, mammals and humans. Cartilaginous fish, which today 
include sharks, rays, and ratfish, diverged from the bony fishes more 
than 420 million years ago. But little is known about what the last 
common ancestor of humans, manta rays and great white sharks looked 
like.
Coates and colleagues Samuel Davis and John Finarelli found answers 
to this mystery in an unexpected place: the acanthodians, extinct fishes that 
generally left behind only tiny scales and elaborate suites of fin spines. But 
armed with new data on what the earliest sharks and bony 
fishes looked like, Coates and colleagues re-examined fossils of Acanthodes 
bronni, the best-preserved acanthodian species.
Davis created highly detailed latex molds of specimens revealing the 
inside and outside of the skull, providing a valuable new data set for 
assessing cranial and jaw anatomy as well as the organizations of 
sensory, circulatory and respiratory systems in the species.
"We want to explore braincases if possible, because they are 
exceptionally rich sources of anatomical information," Coates said. 
"They're much better than scales, teeth or fin spines, which, on their 
own, tend to deliver a confusing signal of evolutionary relationships."
The analysis of the sample combined with recent CT scans of skulls 
from early sharks and bony fishes led the researchers to a surprising 
reassessment of what Acanthodes bronni tells us about the history of 
jawed vertebrates.
"For the first time, we could look inside the head of Acanthodes, and describe 
it within this whole new context," Coates said. "The more we 
looked at it, the more similarities we found with sharks."
However, analysis of the evolutionary relationships of Acanthodes bronni -- 
even with these new data added -- still connected this species to 
early bony fishes. Meanwhile, some acanthodian species turned out to be 
primitive sharks, while others were relatives of the common ancestor of 
sharks and bony fishes.
This result explains some of the longstanding confusion about the 
placement of acanthodians in vertebrate history. But additional analyses went a 
step further. Using more than 100 morphological characters, the 
researchers quantified the mutual resemblance among the earliest jawed 
fishes. Acanthodians as a whole, including the earliest members of 
humans' own deep evolutionary past, appear to cluster with ancient 
sharks.
"The common ancestors of all jawed vertebrates today organized their 
heads in a way that resembled sharks," said Finarelli, PhD, Lecturer in 
Vertebrate Biology at University College Dublin. "Given what we now know about 
the interrelatedness of early fishes, these results tell us that 
while sharks retained these features, bony fishes moved away from such 
conditions."
Furthermore, the analysis demonstrated that all of these early 
members of the modern gnathostomes are clearly separated from what now 
appear to be the most primitive vertebrates with jaws: a collection of 
armored fishes called placoderms.
"There appears to be a fundamental distinction between the placoderms and all 
other vertebrates with jaws," Finarelli said.
This new revision of the lineage of early jawed vertebrates will 
allow paleontologists to dig into deeper mysteries, including how the 
body plan of these ancient species transformed over the transition from 
jawless to jawed fishes.
"It helps to answer the basic question of what's primitive about a 
shark." Coates said. "And, at last, we're getting a better handle on 
primitive conditions for jawed vertebrates as a whole."
"This study is an example of the power of phylogenetics combined with the 
comparative morphology of living and fossil organisms," said 
Maureen Kearney, program director in National Science Foundation's 
Division of Environmental Biology, which co-funded the research. "It 
shows us important evolutionary transitions in the history of life, 
providing a new window into the sequence of evolutionary changes during 
early vertebrate evolution."
The study, "Acanthodes and shark-like conditions in the last common 
ancestor of modern gnathostomes," will be published on June 14 by Nature. The 
research was also funded by the Natural Environment Research Council.
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________________________________
 
Story Source:
The above story is reprinted from materials provided by University of Chicago 
Medical Center, via Newswise. 
>Note: Materials may be edited for content and length. For further information, 
>please contact the source cited above.
________________________________
 
Journal Reference:
        1. Samuel P. Davis, John A. Finarelli, Michael I. Coates. Acanthodes 
and shark-like conditions in the last common ancestor of modern gnathostomes. 
Nature, 2012; 486 (7402): 247 DOI: 10.1038/nature11080
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University of Chicago Medical Center (2012, June 13). Where humans split from 
sharks: Common ancestor comes into focus. ScienceDaily. Retrieved May 19, 2013, 
from http://www.sciencedaily.com­/releases/2012/06/120613133032.htm 
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