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Mengapa
sloths dan Manatee memiliki leher luar biasa panjang (atau pendek)
Sticking their necks out for evolution: Why sloths and manatees have
unusually long (or short) necks
Date:
May 6, 2011
Source:
BioMed Central
Summary:
As a rule all mammals have the same number of
vertebrae in their necks regardless of whether they are a giraffe, a mouse, or
a human. But both sloths and manatees are exceptions to this rule having
abnormal numbers of cervical vertebrae. New research shows how such different
species have evolved their unusual necks.
....................
As a rule all mammals have the same number of vertebrae in
their necks regardless of whether they are a giraffe, a mouse, or a human. But
both sloths and manatees are exceptions to this rule having abnormal numbers of
cervical vertebrae. New research published in BioMed Central's open access
journal EvoDevo shows how such different
species have evolved their unusual necks.
Birds,
reptiles and amphibians have varying number of vertebrae in their necks, swans
have 22-25, but mammals, regardless of size of animal or the animal's neck,
only have seven. Aberrant neck vertebrae are usually correlated with an
increase in risk of stillbirth, childhood cancer and neuronal problems in
mammals. These pleiotropic events are often associated with physical problems,
such as thoracic outlet syndrome, due to misplaced or crushed nerves, muscles
and blood vessels.
The only
mammals which have evolved different numbers of neck vertebrae without any
apparent problems are sloths and manatees. Two-toed sloths (Choloepus) have 5-7
neck vertebrae while three-toed sloths (Bradypus) have 8 or 9. There is some
controversy over whether these changes are due to homeotic alteration, where
mutation of a gene, such as Hox, causes incorrect skeletal patterning, or are
due to an alteration in primaxial/abaxial patterning, where the thoracic
structure overwrites that of the cervical vertebrae. Homeotic alteration would
affect systems throughout the body and explains the associated effects seen in
other mammals. Alteration in primaxial/abaxial patterning would only affect the
vertebrae but may explain how sloths escape adverse effects.
After
looking at evidence from sloths and related species such as anteaters and
armadillos, none of which showed unusual neck structures, it became apparent
that the conversion of vertebrae from cervical to thoracic for Choleopus
suggested a complete foreshortening of the neck and there were ribs associated
with the 7th vertebra. For C. hoffmanni these were complete ribs fused to the
sternum, but for C. didactylus they were rudimentary ribs suggesting a
transitional structure. In contrast, the 8th vertebra for Bradypus was still
cervical and most resembled a normal 6th vertebra but the 9th vertebra had
rudimentary ribs. None of these vertebrae patterns can be explained by
alteration in primaxial/abaxial patterning. Furthermore other skeletal
abnormalities were found in sloths including fusion of vertebrae, defective
production of cartilage, ossification of sternum and pelvic girdle, abnormal
fibrous bands connected to rudimentary ribs, and asymmetric ribs, which can
only be explained as side effects of homeotic alteration.
Similarly
the skeletons of manatees (Trichechus) were compared to dugongs and hyraxes.
Manatee vertebrae and skeletons also showed similar alteration to the sloths.
Surprisingly about half of the dugongs and a couple of the hyraxes studied also
had reduced number of neck vertebrae and all of these had other skeletal
abnormalities.
Dr Galis
from the Netherlands Centre for Biodiversity Naturalis said, "Our research
casts doubts on the validity of the aberrant primaxial/abaxial patterning
theory and instead lends weight to Bateson's theory of homeotic transformation
where the identity of the vertebrae has been changed from cervical to thoracic
(or visa-versa depending on whether the neck if shorter as for Choloepus or
longer as for Bradypus). The defects seen are most similar to mice with Hox
mutations."
Dr Galis
continued, "We think that it is the slow lifestyle and low metabolic rate
which has allowed evolution to alter the neck length of sloths without any of
the side effects seen for other mammals. Their low metabolic rates protect them
from cancer and their low activity rates protect them from thoracic outlet
syndrome." So, for a sloth, being slow allowed them to evolve unusual
necks.
Story
Source:
The above
story is based on materials provided by BioMed Central. Note: Materials may be edited for content and
length.
Journal
Reference:
- Irma Varela-Lasheras, Alexander J Bakker, Steven D van der Mije, Johan AJ Metz, Joris van Alphen and Frietson Galis. Breaking evolutionary and pleiotropic constraints in mammals. On sloths, manatees and homeotic mutations. EvoDevo, 2011; (in press) [link]
