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Peta Biologi pohon keluarga dari semua kelompok ular dan
kadal yang dikenal
Biologist maps the family tree of all known snake and lizard groups
Date:
May 8, 2013
Source:
George Washington University
Summary:
Biologists have created the first large-scale
evolutionary family tree for every snake and lizard around the globe.
.............................
A George Washington University biologist and a team of
researchers have created the first large-scale evolutionary family tree for
every snake and lizard around the globe.
The findings
were recently published in the journal BMC Evolutionary Biology. Alex
Pyron, the Robert F. Griggs Assistant Professor of Biology in GW's Columbian
College of Arts and Sciences, along with researchers from the City University
of New York and Arizona State University, detail the cataloging of 4,161
species of snakes and lizards, or squamates.
"Squamates
include all lizards and snakes found throughout the globe, including around
9,500 species on every continent except Antarctica, and found in most
oceans," said Dr. Pyron. "This is everything from cobras to garter
snakes to tiny geckos to the Komodo Dragon to the Gila Monster. They range from
tiny threadsnakes that can curl up on a dime to 10 feet monitor lizards and 30
foot pythons. They eat everything from ants to wildebeest."
The
evolutionary family tree, or phylogeny, includes all families and subfamilies
and most genus and species groups, said Dr. Pyron. While there are gaps on some
branches of the tree, the structure of the tree goes a long way toward fully
mapping every genus and species group.
"It's
like building an incomplete family tree for your family, but with half of the
'children' sampled. You're in it, but not your brother, one of your cousins is,
but not another. However, because it's so complete, we know where the missing
relatives go because there's no longer as much mystery as to how the missing
species, or cousins, are related, with a few notable exceptions for some
remaining species.
"This
is also a community effort. We sequenced hundreds of these species ourselves
but took thousands more from public databases, building on the work of
others."
Understanding
how various snakes and lizards are connected to each other fills a major gap in
knowledge, said Dr. Pyron, because before this, there were no single reference
for how all lizards and snakes were related or what their classification was.
"A
phylogeny and taxonomy is fundamental for all fields of biology that use
lizards and snakes, to understand how to classify the species being studied, to
interpret biological patterns in terms of relatedness, and even at a more basic
level, to count how many species are in an area, for example, for conservation
management purposes."
This project
has been in the works since 2008 with the last five years being the most
intense. It was funded by the National Science Foundation Postdoctoral Research
Fellowship in Biological Informatics.
The
researchers used DNA sequencing technology to genotype, or identify, the DNA of
thousands of lizards and snakes.
"We
have laid down the structure of squamate relationships and yet this is still
the beginning," said Dr. Pyron. "As hundreds of new species are
described every year from around the glove, this estimate of the squamate tree
of life shows us what we do know, and more importantly, what we don't know, and
will hopefully spur even more research on the amazing diversity of lizards and
snakes."
Story
Source:
The above
story is based on materials provided by George Washington University. Note: Materials may be edited
for content and length.
Journal
Reference:
- Robert Alexander Pyron, Frank T Burbrink, John J Wiens. A phylogeny and revised classification of Squamata, including 4161 species of lizards and snakes. BMC Evolutionary Biology, 2013; 13 (1): 93 DOI: 10.1186/1471-2148-13-93
