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Otot mata Kura-kura menyesuaikan untuk berurusan dengan visi yang terhambat
Turtle eye muscle adapts to deal with obstructed vision
Date:
September
19, 2013
Source:
Saint Louis University Medical
Center
Summary:
While researchers expected that the pond turtle’s eyes
would operate like other animals with eyes on the side of their heads, this
particular species of turtle appears to have characteristics of both front and
side-eyed animals.
........................
In a recent study published in The
Journal of Comparative Neurology, Saint Louis University professor
of pharmacological and physiological science Michael Ariel, Ph.D., reported
surprising findings about the eye movements of pond turtles who can retract
their head deep into their shell. While researchers expected that the pond
turtle's eyes would operate like other animals with eyes on the side of their
heads, this particular species of turtle appears to have characteristics of
both front and side-eyed animals, affecting a specific eye muscle's direction
of pull and the turtle's eye position when its peripheral vision is blocked by
its shell.
Humans, and
many mammals like cats and monkeys, have their eyes viewing forward. In
contrast, most lower vertebrates, including turtles, have eyes that are lateral
-- on the side of their heads. Of the six muscles that move each eye, the muscles
that move lateral eyes differ from the muscles of animals that move eyes
viewing forward. In an earlier study, Ariel and his research team made an
unexpected observation that a nerve that moves one of the pond turtle's eye
muscles, the superior oblique muscle, was active when that turtle moved its
head from side to side, much like that of animals whose eyes view forward .
In the
current study, Ariel and the research team tested his theory that the pond
turtle had characteristics of a front-eyed animal in three ways:
physiologically, looking at the eye movement response to nerve stimulation;
anatomically, examining how muscles were attached to the eyes and head; and
behaviorally, examining eye positions.
And, indeed,
the researchers found that a turtle pulls its eyes in different directions when
its head is out of its shell compared to when its head is retracted deep within
its shell. Because the pond turtle can pull its head entirely into its shell,
resulting in an obstructed field of vision, it appears that this turtle has
developed a way to compensate and direct its eyes forward to best examine its
environment. Moreover, the superior oblique muscle may play a role in this
behavior as its direction of pull is more like that of a front-eyed animal than
that of animals with eyes on the side of their heads.
Eye
movements are related to the vestibulo-ocular reflex (VOR), a reflex whose
brain pathways are also studied by Ariel. The VOR allows your eyes to adjust
their position when you move your head. For example, when you turn your head to
the right, your eyes move to the left to keep the image you're looking at
within your field of view. The VOR also is a clinical test used to check eye
reflexes in people. When this process is not working, people can experience
vertigo, for example.
Ariel, who
has studied pond turtles for 25 years, says they are unique among all animals
because they block their peripheral vision by pulling their heads into their
shell. "Not all turtles can do this. A sea turtle, for example, cannot
pull its head into its shell. We expected that pond turtles would be like other
turtles and other lateral eye animals" said Ariel. "That wasn't the
case. Surprising, their eye movements can also be like that of humans."
Story
Source:
The above story
is based on materials provided by Saint Louis University Medical Center. Note: Materials may be edited
for content and length.
Journal
Reference:
- J.R. Dearworth, A.L. Ashworth, J.M. Kaye, D.T. Bednarz, J.F. Blaum, J.M. Vacca, J.E. McNeish, K.A. Higgins, C.L. Michael, M.G. Skrobola, M.S. Jones, M. Ariel. Role of the trochlear nerve in eye abduction and frontal vision of the red-eared slider turtle (Trachemys scripta elegans). Journal of Comparative Neurology, 2013; 521 (15): 3464 DOI: 10.1002/cne.23361
