![](http://pinterest.com/pin/create/button/?url=https://trecnews4u.blogspot.com/2014/07/vertebra-bagaimana-sloths-sampai-mereka.html&media=https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjdhyEoajciv8NYz5OyaTTShxgi85IKu95Dxo6F3Ra-8vTytvHWCBIsJ-Xk4uQ5FR190jEOPnLdqsuj_omN42Bi7a42kmUucjP0r0n7317SLrh5XlqflWiNRXOX0JvacSitRHagLlOIISL9/s72-c/101018163102-large.jpg&description= SILAHKAN MENGGUNAKAN " MESIN TRANSLATE "..GOOGLE TRANSLATE DISAMPING KANAN INI............. PLEASE USE ........ ...){kind=link}
SILAHKAN MENGGUNAKAN " MESIN TRANSLATE "..GOOGLE TRANSLATE
DISAMPING KANAN INI.............
PLEASE USE ........ "TRANSLATE MACHINE" .. GOOGLE TRANSLATE BESIDE RIGHT THIS
....................................
DISAMPING KANAN INI.............
PLEASE USE ........ "TRANSLATE MACHINE" .. GOOGLE TRANSLATE BESIDE RIGHT THIS
....................................
vertebra: Bagaimana sloths sampai mereka memiliki leher panjang
When vertebrae cross dress: How sloths got their long neck
Date:
October 19,
2010
Source:
University of Cambridge
Summary:
By examining the development of bones in the vertebral
column, limbs and ribcage, scientists have discovered how sloths evolved their
unique neck skeleton.
...........................
By examining the development of bones in the vertebral
column, limbs, and ribcage, scientists at the University of Cambridge have
discovered how sloths evolved their unique neck skeleton.
From mice to
giraffes, mammals are remarkable in that all but a handful of their 5000
species have exactly seven vertebrae in the neck. Among the few that deviate
from this number are three-toed sloths, which may have up to ten ribless
vertebrae in the neck.
Traditionally,
vertebrae above the shoulders that lack ribs are known as cervical or neck
vertebrae. Animals such as birds and lizards show great variety in the number
of vertebrae in their neck. For example, a swan may have twice as many as a
songbird.
Mammals, on
the other hand, are much more conservative. A giraffe has the same number of
neck vertebrae as a human, mouse, elephant, or armadillo; all have exactly
seven. Sloths are an exception, with up to 10 vertebrae in their neck.
In order to
discover if patterns of bone formation in these strange animals give any clues
to their divergent vertebral anatomy, scientists based at the University of
Cambridge have investigated the development of the skeleton in mammals,
focusing on the vertebral column in sloths.
The scientists
found that in all mammals except for sloths, bone formation always took place
earlier in the body of first few vertebrae of the ribcage than in the neck. The
only exception was among three-toed sloths, which show early bone-formation in
the bodies of their distal, ribless neck vertebrae, before those of the
ribcage.
However, by
observing the position of bone-formation within the vertebral column, the
investigators made a startling discovery: all mammals, including sloths, show
early development of the body of the eighth vertebra down from the head,
whether or not it is part of the neck.
In other
words, the bottom neck vertebrae of sloths show a similar sequence of
development as the top ribcage vertebrae of other mammals, both of which start
at eight vertebrae down from the head. This shows that the bottom
"neck" vertebrae of sloths are developmentally the same as ribcage
vertebrae of other mammals, but lack ribs.
Dr Robert
Asher, of the Department of Zoology at the University of Cambridge, said:
"The remarkable conservatism of the mammalian neck is apparent even in
those few species that superficially seem to be exceptions, like sloths. Even
though they've got eight to ten ribless vertebrae above the shoulders, unlike
the seven of giraffes, humans, and nearly every other species of mammal, those
extra few are actually ribcage vertebrae masquerading as neck vertebrae."
These new
results -- published in the Proceedings of the National Academy of Sciences
-- support the interpretation that the limb girdles and at least part of
the ribcage derive from different embryonic tissues than the vertebrae, and
that during the course of evolution, they have moved in concert with each other
relative to the vertebral column. In three-toed sloths, the position of the
shoulders, pelvis, and ribcage are linked with one another, and compared to
their common ancestor shared with other mammals, have shifted down the
vertebral column to make the neck longer.
Story
Source:
The above
story is based on materials provided by University of Cambridge. Note: Materials may be edited
for content and length.
Journal
Reference:
- Lionel Hautier, Vera Weisbecker, Marcelo R. Sánchez-Villagra, Anjali Goswami, Robert J. Asher. Skeletal development in sloths and the evolution of mammalian vertebral patterning. Proceedings of the National Academy of Sciences, 2010; DOI: 10.1073/pnas.1010335107
