![](http://pinterest.com/pin/create/button/?url=https://trecnews4u.blogspot.com/2014/08/bagaimana-amfibi-menyeberang-benua-dna.html&media=https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjB9XOxjB7HGiIewIj_tOF0frhtwSt0IVwrLRNde7l8wTnmmiE4AwuUuUe4uXJN3Y7RwKqzWQzCCozG_cm2mgK6RchOFHK8gHEeRFqhTWorxgEattMNBBDmUq4xXeF7LDJr3Op40LYgsIMt/s72-c/140804123214-large.jpg&description=SILAHKAN MENGGUNAKAN " MESIN TRANSLATE "..GOOGLE TRANSLATEÂ DISAMPING KANAN INI............. PLEASE USE ........ " TRA...){kind=link}
DISAMPING KANAN INI.............
PLEASE USE ........ "TRANSLATE MACHINE" .. GOOGLE TRANSLATE BESIDE RIGHT THIS
.................
Bagaimana
amfibi menyeberang benua: DNA membantu mengumpulkan perjalanan 300 - juta-tahun
Seorang
profesor telah berhasil membangun sebuah diagram komprehensif pertama dari
jenis distribusi geografis amfibi, menampilkan
gerakan 3.309 spesies antara 12 ekoregion global. ..... dengan data urutan DNA, ia berusaha
akurat mengumpulkan 300 - juta tahun alur cerita perjalanan mereka..........
How amphibians crossed continents: DNA helps piece together
300-million-year journey
Date:
August 4,
2014
Source:
George Washington University
Summary:
A professor has succeeded in
constructing a first-of-its-kind comprehensive diagram of the geographic distribution
of amphibians, showing the movement of 3,309 species between 12 global
ecoregions. Armed with DNA sequence data, he sought to accurately piece
together the 300-million-year storyline of their journey.
..............................
There are more than 7,000 known species of amphibians that
can be found in nearly every type of ecosystem on six continents. But there
have been few attempts to understand exactly when and how frogs, toads,
salamanders and caecilians have moved across the planet throughout time.
Armed with
DNA sequence data, Alex Pyron, an assistant professor of biology at the George
Washington University, sought to accurately piece together the 300-million-year
storyline of their journey.
Dr. Pyron
has succeeded in constructing a first-of-its-kind comprehensive diagram of the
geographic distribution of amphibians, showing the movement of 3,309 species
between 12 global ecoregions. The phylogeny -- or diagram of evolutionary
relationships -- includes about half of all extant amphibian species from every
taxonomic group.
"There
have been smaller-scale studies, but they included only a few major lineages
and were very broad," Dr. Pyron said. "What we needed was a
large-scale phylogeny that included as many species as possible. That allows us
to track back through time, not only how different species are related, but
also how they moved from place to place."
His
findings, which appear in the journal Systematic Biology, suggest that,
contrary to popular belief, certain groups of amphibians may have swam long
distances from one landmass to another within the past few million years.
Biologists
have long hypothesized the distribution of extant lineages of amphibians has
been driven by two major processes: vicariance and dispersal.
Vicariance occurs
when a population is separated following a large-scale geophysical event. After
the fragmentation of supercontinent Pangaea and the subsequent split of the
Laurasian and Gondwanan landmasses, certain groups of amphibians were able to
"hitch a ride" from one continent to another, Dr. Pyron explained.
The researcher's biogeographic analysis supports this hypothesis, showing that
continental movement can explain the majority of patterns in the distribution
of extant species of amphibians.
Dr. Pyron
also found that dispersal during the Cenozoic Era (66 million years ago to the
present), likely across land bridges or short distances across oceans, also
contributed to their distribution.
Given their
ancient origin, it is unsurprising that the history of amphibians is a mixture
of both vicariance and dispersal. But the third and final distribution pattern
that Dr. Pyron notes in his study was an unexpected finding.
Past studies
have assumed that long-distance over water dispersal was essentially impossible
for amphibians due to salt intolerance. However, when Dr. Pyron began
completing his analysis, he noticed a number of cases of distribution that
could not be explained by old age.
For
instance, one group of frogs found in Australia and New Guinea (pelodryadine
hylids) that originated around 61 to 52 million years ago is deeply nested
within a group of amphibians that exist only in South America. By the time
pelodryadines originated, all major continental landmasses occupied their
present-day positions, with South America and Australia long separated from
Antarctica.
"They're
120 million years too late to have walked to Australia," Dr. Pyron said.
So how could
this group of South American amphibians be related to frogs on the other side
of the world?
"You
wouldn't think that frogs would be able to swim all the way there, but that
seems like one of the more likely explanations for how you could have such a
young group nested within South America and have it somehow get to this other
continent," Dr. Pyron said.
In his
study, Dr. Pyron points two other instances of long-distance oceanic dispersal.
"What
you have is this mixture of processes. You have vicariance, which over 300
million years has put certain groups in Africa, some in Australia and others in
South America," Dr. Pyron said. "But even more recently, within the
last few million years, you have these chance events of long distance
dispersals across the ocean, which can influence distribution patterns."
Dr. Pyron's
next research question is whether there is any specific quality, such as
tolerance to salt water, which allows some groups of amphibians to be better
dispersers. He has also begun to conduct a similar analysis with lizards and
snakes to see if the same distribution patterns hold up. And as new species are
discovered, Dr. Pyron will continue to revise his model.
These
findings not only provide evidence for the unlikely hypothesis of long-distance
oceanic dispersal, but they also provide a model for explaining the
distribution of other species and learning about the geographic diversity of
different groups. For example, an endangered frog in South America unconnected
to any other major lineages would need to be a high conservation priority.
"That's
something we can only learn from a biogeographic analysis," Dr. Pyron
said.
Story
Source:
The above
story is based on materials provided by George Washington University. The original article was written
by Lauren Ingeno. Note: Materials may be edited for content and length.
Journal
Reference:
- R. A. Pyron. Biogeographic Analysis Reveals Ancient Continental Vicariance and Recent Oceanic Dispersal in Amphibians. Systematic Biology, 2014; DOI: 10.1093/sysbio/syu042
KSE –
KOMUNITAS SATWA EKSOTIK – EXOTIC PETS COMMUNITY-- INDONESIA
Visit Our Community and Joint W/
Us....Welcome All Over The World
KSE = KOMUNITAS SATWA
EKSOTIK
MENGATASI KENDALA MINAT DAN JARAK
KAMI ADA DI TIAP KOTA DI INDONESIA
MENGATASI KENDALA MINAT DAN JARAK
KAMI ADA DI TIAP KOTA DI INDONESIA
DETAIL TENTANG KSE-----KLIK : www.komunitassatwaeksotik-pendaftaran.blogspot.com
GABUNG......... ( menerima keanggotaan seluruh kota dan daerah di Indonesia )
HUBUNGI : 089617123865
......................... 