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Mite
sets new record as world's fastest land animal
Mite
sets new record as world's fastest land animal
Date:
April 27,
2014
Source:
Federation of American Societies for
Experimental Biology (FASEB)
Summary:
A Southern California mite far outpaces the Australian
tiger beetle, the current record-holder for running speed as measured in body
lengths per second. By this measure, the mite runs 20 times faster than a
cheetah and the equivalent of a person running 1300 miles per hour. The
discovery is exciting not only because it sets a new world record, but also for
what it reveals about the physiology of movement and the physical limitations
of living structures, the researcher says.
.....................
Move over, Australian tiger beetle. There's a new runner in
town.
Although the
mite Paratarsotomus macropalpis is no bigger than a sesame seed, it was
recently recorded running at up to 322 body lengths per second, a measure of
speed that reflects how quickly an animal moves relative to its body size. The
previous record-holder, the Australian tiger beetle, tops out at 171 body
lengths per second. By comparison, a cheetah running at 60 miles per hour
attains only about 16 body lengths per second.
Extrapolated
to the size of a human, the mite's speed is equivalent to a person running
roughly 1300 miles per hour.
The
California college student who spent a summer chasing down the remarkable mites
says the discovery is exciting not only because it sets a new world record, but
also for what it reveals about the physiology of movement and the physical
limitations of living structures.
"It's
so cool to discover something that's faster than anything else, and just to
imagine, as a human, going that fast compared to your body length is really
amazing," said Samuel Rubin, a junior and physics major at Pitzer College
who led much of the fieldwork to document the mite's movements. "But
beyond that, looking deeper into the physics of how they accomplish these
speeds could help inspire revolutionary new designs for things like robots or
biomimetic devices."
Rubin's
advisor, Jonathan Wright, Ph.D., a professor of biology at Pomona College,
became interested in the mites while studying the effect of muscle biochemistry
on how quickly animals can move their legs. But it wasn't until Rubin and other
students documented the mites' running speeds in their natural environment that
the research team knew they had found a new world record.
Both
relative speed and stride frequency increase as animals get smaller, and in
theory, muscle physiology should at some point limit how fast a leg can move.
"We were looking at the overarching question of whether there is an upper
limit to the relative speed or stride frequency that can be achieved,"
said Wright. "When the values for mites are compared with data from other
animals, they indicate that, if there is an upper limit, we haven't found it
yet."
The mite is
local to Southern California and is often found running along rocks or
sidewalks. Although it was first identified in 1916, little is known about its
habits or food sources.
The research
team used high-speed cameras to record the mites' sprints in the laboratory and
in their natural environment. "It was actually quite difficult to catch
them, and when we were filming outside, you had to follow them incredibly
quickly as the camera's field of view is only about 10 centimeters
across," said Rubin.
The research
team was also surprised to find the mites running on concrete up to 140 degrees
Fahrenheit (60 degrees Celsius), a temperature significantly higher than the
upper lethal temperature of most animals. "They're operating at
temperatures that seem to preclude activities of any other animal group. We've
seen them running where there were no other animals visibly active," said
Wright.
The mites
also are adept at stopping and changing directions extremely quickly,
attributes the researchers are investigating further for potential insights
that may be relevant to bioengineering applications.
Samuel Rubin
presented the team's findings during the Experimental Biology 2014 meeting on
Sunday, April 27, 2014.
Story
Source:
The above
story is based on materials provided by Federation of American Societies for Experimental Biology
(FASEB). Note: Materials may be edited for content and length.
Cite This
Page:
Federation of American Societies for
Experimental Biology (FASEB). "Mite sets new record as world's fastest
land animal." ScienceDaily. ScienceDaily, 27 April 2014.
<www.sciencedaily.com/releases/2014/04/140427191124.htm>.
