Research

Synchronizing Cilia

Like human swimmers, freshwater algae can synchronize their limbs to swim. But unlike humans, they have no brain to coordinate those motions.

Just like human swimmers, microswimmers have to coordinate their motion to swim. But unlike humans, swimmers like the freshwater alga Chlamydomonas reinhardtii doesn’t have a brain to help it synchronize its cilia. To investigate how these microswimmers manage their stroke, researchers built a biorobot with mechanically linked segments that mimic the alga’s swimming once a motor sets the robot vibrating.

When the robot's base is allowed to rotate, the cilia synchronize in the freestyle-like R-mode.
When the robot’s base is allowed to rotate, the cilia synchronize in the freestyle-like R-mode.
When allowed to move forward and back, the biorobot's cilia synchronize in the X-mode, which resembles the breaststroke.
When allowed to move along an axis, the biorobot’s cilia synchronize in the X-mode, which resembles the breaststroke.

The researchers found two strokes that mirrored the real-life alga. In one, allowing the robot’s base to rotate produced a freestyle-like stroke they called R-mode. The other came from allowing the robot’s base to move forward and backward, which created a breaststroke-like X-mode. In the wild, only the X-mode provides helpful motion, but, oddly enough, the researchers found this mode was the most energy intensive. (Image credit: top – J. Larson, others – Y. Xia et al.; research credit: Y. Xia et al.; via APS Physics)

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