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The origin of traveling waves in an emperor penguin huddle
Gerum, R.C.; Fabry, B.; Metzner, C.; Beaulieu, M.; Ancel, A.; Zitterbart, D.P. (2013). The origin of traveling waves in an emperor penguin huddle. New j. phys. 15(125022): 17 pp. hdl.handle.net/10.1088/1367-2630/15/12/125022
In: New Journal of Physics. IOP Publishing: Bristol. ISSN 1367-2630, more
Peer reviewed article  

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Keyword
    Marine

Authors  Top 
  • Gerum, R.C.
  • Fabry, B.
  • Metzner, C.
  • Beaulieu, M.
  • Ancel, A.
  • Zitterbart, D.P.

Abstract
    Emperor penguins breed during the Antarctic winter and have to endure temperatures as low as -50 °C and wind speeds of up to 200 km h-1. To conserve energy, they form densely packed huddles with a triangular lattice structure. Video recordings from previous studies revealed coordinated movements in regular wave-like patterns within these huddles. It is thought that these waves are triggered by individual penguins that locally disturb the huddle structure, and that the traveling wave serves to remove the lattice defects and restore order. The mechanisms that govern wave propagation are currently unknown, however. Moreover, it is unknown if the waves are always triggered by the same penguin in a huddle. Here, we present a model in which the observed wave patterns emerge from simple rules involving only the interactions between directly neighboring individuals, similar to the interaction rules found in other jammed systems, e.g. between cars in a traffic jam. Our model predicts that a traveling wave can be triggered by a forward step of any individual penguin located within a densely packed huddle. This prediction is confirmed by optical flow velocimetry of the video recordings of emperor penguins in their natural habitat.

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