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Scientists Discover Where
Snakes Lived When They Evolved into Limbless Creatures
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Blair Hedges, Penn State |
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The
mystery of where Earth’s first snakes lived as they
were evolving into limbless creatures from their lizard ancestors
has intrigued scientists for centuries. Now, the first study ever
to analyze genes from all the living families of lizards has revealed
that snakes made their debut on the land, not in the ocean. The
discovery resolves a long-smoldering debate among biologists about
whether snakes had a terrestrial or a marine origin roughly 150
million years ago—a debate rekindled recently by controversial
research in favor of the marine hypothesis.
In a paper published
in the Royal Society journal Biology Letters, Nicolas
Vidal, a
postdoctoral fellow, and S. Blair Hedges, professor of biology at Penn
State, describe how they put the two theories to the test.
They collected the largest genetic data set for snakes and lizards
ever used to address this question. Their collection includes two
genes from 64 species representing all 19 families of living lizards
and 17 of the 25 families of living snakes.
Genetic material from
some of the lizards was difficult to obtain because some species
live only on certain small islands or in remote parts of the world. “We
felt it was important to analyze genes from all the lizard groups
because almost every lizard family has been suggested as being
the one most closely related to snakes. If we had failed to include
genes from even one of the lizard families, we could have missed
getting the right answer,” Hedges explains.
“For
the marine hypothesis to be correct, snakes must be the closest
relative of the only lizards known to have lived in the ocean when
snakes evolved—the giant, extinct mosasaur lizards,” Vidal
says. “While we can’t analyze the genes of the extinct
mosasaurs, we can use the genes of their closest living cousins,
monitor lizards like the giant Komodo Dragon,” he explains.
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Blair Hedges, Penn State |
The
team analyzed gene sequences from each of the species, using several
statistical methods to determine how the species are related. “Although
these genes have the same function in each species—and so,
by definition, are the same gene—their structure in each
species is slightly different because of mutations that have developed
over time,” Vidal explains. When the genetic comparisons
were complete, Vidal and Hedges had a family tree showing the relationships
of the species.
“Our results show clearly that snakes are
not closely related to monitor lizards like the giant Komodo Dragon,
which are the closest living relatives of the mosasaurs—the
only known marine lizard living at the time that snakes evolved,” Vidal
says. “Because
all the other lizards at that time lived on the land, our study provides
strong evidence that snakes evolved on the land, not in the ocean.”
The
research suggests an answer to another long-debated question: why
snakes lost their limbs. Their land-based lifestyle, including
burrowing underground at least some of the time, may be the reason. “Having
limbs is a real problem if you need to fit through small openings
underground, as anybody who has tried exploring in caves knows,” Hedges
says. “Your body could fit through much smaller openings
if you did not have the wide shoulders and pelvis that support
your limbs.” The researchers note that the burrowing lifestyle
of many other species, including legless lizards, is correlated
with the complete loss of limbs or the evolution of very small
limbs.
This research was supported by the National
Aeronautics and Space Administration Astrobiology Institute and the National
Science Foundation.
Barbara K. Kennedy
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