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2009-03-30 08:49:40
Dan Peterson
LiveScience's Sports Columnist
LiveScience.com dan Peterson
livescience's Sports Columnist
livescience.com Sun Mar 29, 10:15 am ET
Most regular runners can tell you when they reach that perfect equilibrium of
speed and comfort. The legs are loose, the heart is pumping and it feels like
you could run at this pace forever.
Researchers at the University of Wisconsin-Madison now have an explanation for
this state of running nirvana, and we can thank our ancestors and some
evolutionary biology for it.
For years, it has been thought that humans have a constant metabolic energy
rate. It was assumed that you would require the same total energy to run one
mile, no matter if you ran it in 5 minutes or 10 minutes. Even though your
energy burn rate would be higher at faster speeds, you would get there in half
the time.
Turns out, however, that each person has an optimal running pace that uses the
least amount of oxygen to cover a given distance. The findings, by Karen
Steudel, a zoology professor at Wisconsin, and Cara Wall-Scheffler of Seattle
Pacific University, are detailed in latest online edition of the Journal of
Human Evolution.
Steudel's team tested both male and female runners at six different speeds on a
treadmill while measuring their oxygen intake and carbon dioxide output. As
expected, each runner had different levels of fitness and oxygen use but there
were ideal speeds for each runner that required the least amount of energy.
Overall, the optimal speeds for the group were about 8.3 mph (about a 7:13
minutes per mile) for males and 6.5 mph (9:08 min/mile) for females.
The most interesting finding: At slower speeds, about 4.5 mph (13 min/mile),
the metabolic efficiency was at its lowest. Steudel explains that at this
speed, halfway between a walk and a jog, the runner's gait can be awkward and
unnatural.
"What that means is that there is an optimal speed that will get you there the
cheapest," Steudel says.
So, why is a zoology professor studying running efficiency? Steudel's previous
work has tried to build a theory of why our early ancestors evolved from moving
on four limbs to two limbs, also known as bipedalism. She has found that human
walking is a more efficient method of getting from point A to point B than on
all fours. It might also have been an advantage for hunting.
This latest research could offer some more clues of how we moved on to running.
Steudel explains, "This is a piece in the question of whether walking or
running was more important in the evolution of the body form of the genus
Homo."