Zigzagging, not straight line more efficient while trekkingFebruary 21st, 2008 - 1:53 pm ICT by admin
Washington, Feb 21 (ANI): While traversing steep hillsides, trekking on a straight line might seem like the shortest route, but its the zigzag course that provides the most efficient and fastest way for humans to go up or down hilly terrains, according to a new study.
American and British researchers have developed a mathematical model showing that zigzagging, or switchbacks, offer the most easiest and fastest path when trailing steep slopes.
I think zigzagging is something people do intuitively, said Marcos Llobera, a University of Washington assistant professor of anthropology who is a landscape archaeologist.
People recognize that zigzagging, or switchbacks, help but they dont realize why they came about, he added.
Llobera, who is interested in reconstructing patterns of movement within past landscapes, said the model and a study that describes it stem from earlier research that looked at the emergence of trail systems. That research focused on flat terrain.
You would expect a similar process on any landscape, but when you have changes in elevation it makes things more complicated, he said.
There is a point, or critical slope, where it becomes metabolically too costly to go straight ahead, so people move at an angle, cutting into the slope.
Eventually they need to go back toward the direction they were originally headed and this creates zigzags. The steeper the slope, the more important it is that you tackle it at the right angle, he added.
Trails evolve, among other reasons, because of physical differences in people and the differences in the biomechanics and energy cost of ascending and descending a slope.
You get a different pattern if people are going up or down and this may lead to the emergence of shortcuts. Walking downhill generally takes less energy except for braking, Llobera said.
We would expect to see different paths going up and down, but what we end up with is a compromise and shortcuts arent as apparent, he added.
He further explained that many other physical factors can influence the creation and development of a trail or path, and that the new model is a simplified one and a place to start.
In due course Llobera hopes to build a simulation engine that would allow archaeologists to plug in a terrain and explore different patterns of movement through it.
He is particularly interested in using it with landscapes that have resulted from the accumulations of various societies and cultures.
The study appears in the Journal of Theoretical Biology. (ANI)
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