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Spitting Kobra track pertama ,
memprediksi kemudian
Spitting cobras track first, predict later
Date:
May 15, 2010
Source:
Journal of Experimental Biology
Summary:
Spitting cobras spray venom in the eyes of their
victims with remarkable accuracy, but how do they achieve this accuracy when
they cannot steer the jet of venom? Researchers have found that cobras
initially track their prey's movements, but at the moment when they spit, they
predict where the victim's eyes will be 200 milliseconds in the future and aim
there.
...............................
Most venomous snakes are legendary for their lethal bites,
but not all. Some spit defensively. Bruce Young, from the University of
Massachusetts Lowell, explains that some cobras defend themselves by spraying
debilitating venom into the eyes of an aggressor.
Getting the
chance to work with spitting cobras in South Africa, Young took the opportunity
to record the venom spray tracks aimed at his eyes. Protected by a sheet of
Perspex, Young caught the trails of venom and two things struck him: how
accurately the snakes aimed and that each track was unique. This puzzled Young.
For a start the cobra's fangs are fixed and they can't change the size of the
venom orifice, "so basic fluid dynamics would lead you to think that the
pattern of the fluid should be fixed," explains Young.
But Young
had also noticed that the snakes 'wiggled' their heads just before letting fly.
"The question became how do we reconcile those two things," says
Young, who publishes his discovery that the snakes initially track their
victim's movement and then switch to predicting where the victim is going to be
200 milliseconds in the future in the Journal of Experimental Biology.
Young
remembers that Guido Westhoff had also noticed the spitting cobra's "head
wiggle," so he and his research assistant, Melissa Boetig, traveled to
Horst Bleckmann's lab in the University of Bonn, Germany, to find out how
spitting cobras fine-tune their venom spray. The team had to find out how a
target provokes a cobra to spit, and Young was the man for that job, "I
just put on the goggles and the cobras start spitting all over," laughs
Young.
Wearing a
visor fitted with accelerometers to track his own head movements while Boetig
and Westhoff filmed the cobra's movements at 500 frames/s, Young stood in front
of the animals and taunted them by weaving his head about. Over a period of 6
weeks, the team filmed over 100 spits before trying to discover why Young was
so successful at provoking the snakes.
Analyzing
Young's movements, only one thing stood out; 200 ms before the snake spat,
Young suddenly jerked his head. The team realized that Young's head jerk was
the spitting trigger. They reasoned that the snake must be tracking Young's
movements right up to the instant that he jerked his head and that it took a
further 200 ms for the snake to react and fire off the venom.
But Young
was still moving after triggering the snake into spitting and the snake can't
steer the stream of venom, so how was the cobra able to successfully hit
Young's eyes if it was aiming at a point where the target had been 200 ms
previously? Realigning the data to the instant when Young jerked his head, the
team compared all of the snakes' head movements and noticed that the cobras
were all moving in a similar way. They accelerated their heads in the same
direction that Young's eyes were moving. "Not only does it speed up but it
predicts where I am going to be and then it patterns its venom in that
area," explains Young.
So spitting
cobras defend themselves by initially tracking an aggressor's movements. However,
at the instant that an attacker triggers the cobra into spitting, the reptile
switches to predicting where the attacker's eyes will be 200 ms in the future
and aims there to be sure that it hits its target.
Story
Source:
The above
story is based on materials provided by Journal of Experimental Biology. The original article was written
by Kathryn Knight. Note: Materials may be edited for content and length.
Journal
Reference:
- Westhoff, G., Boetig, M., Bleckmann, H. and Young, B.A. Target tracking during venom 'spitting' by cobras. Journal of Experimental Biology, 2010; 213: 1797-1802 [link]
