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Spatio-temporal dynamics in collective frog choruses examined by mathematical modeling and field observations.

ABSTRACT: This paper reports theoretical and experimental studies on spatio-temporal dynamics in the choruses of male Japanese tree frogs. First, we theoretically model their calling times and positions as a system of coupled mobile oscillators. Numerical simulation of the model as well as calculation of the order parameters show that the spatio-temporal dynamics exhibits bistability between two-cluster antisynchronization and wavy antisynchronization, by assuming that the frogs are attracted to the edge of a simple circular breeding site. Second, we change the shape of the breeding site from the circle to rectangles including a straight line, and evaluate the stability of two-cluster and wavy antisynchronization. Numerical simulation shows that two-cluster antisynchronization is more frequently observed than wavy antisynchronization. Finally, we recorded frog choruses at an actual paddy field using our sound-imaging method. Analysis of the video demonstrated a consistent result with the aforementioned simulation: namely, two-cluster antisynchronization was more frequently realized.

SUBMITTER: Aihara I 

PROVIDER: S-EPMC5384602 | biostudies-literature | 2014 Jan

REPOSITORIES: biostudies-literature

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Spatio-temporal dynamics in collective frog choruses examined by mathematical modeling and field observations.

Aihara Ikkyu I   Mizumoto Takeshi T   Otsuka Takuma T   Awano Hiromitsu H   Nagira Kohei K   Okuno Hiroshi G HG   Aihara Kazuyuki K  

Scientific reports 20140127

This paper reports theoretical and experimental studies on spatio-temporal dynamics in the choruses of male Japanese tree frogs. First, we theoretically model their calling times and positions as a system of coupled mobile oscillators. Numerical simulation of the model as well as calculation of the order parameters show that the spatio-temporal dynamics exhibits bistability between two-cluster antisynchronization and wavy antisynchronization, by assuming that the frogs are attracted to the edge  ...[more]

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