Journal
JOURNAL OF EXPERIMENTAL BIOLOGY
Volume 224, Issue 9, Pages -Publisher
COMPANY BIOLOGISTS LTD
DOI: 10.1242/jeb.242336
Keywords
Activation patterns; Electromyography; Evolution; Locomotion; Pygocentrus nattereri; Social communication
Categories
Funding
- Fonds De La Recherche Scientifique (FNRS) [T.0101.15]
- Deutsche Forschungsgemeinschaft [DFG CRC870/TP B17 -118803580]
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In piranhas, sounds are produced through the vibration of the swim bladder wall caused by the contraction of bilateral sonic muscles. The neural motor pathway adjustments include a transition from a bilateral alternating pattern to a synchronous activation pattern, a switch from a slow- to a high-frequency regime, and an increase in the synchrony of motor neuron activation. Sound features correspond to the activity of the sonic muscles, suggesting a transition in the neural circuit associated with spinal motor neurons for faster simultaneous activation to generate vocal signals.
In piranhas, sounds are produced through the vibration of the swim bladder wall caused by the contraction of bilateral sonic muscles. Because they are solely innervated by spinal nerves, these muscles likely evolved from the locomotor hypaxial musculature. The transition from a neuromuscular system initially shaped for slow movements (locomotion) to a system that requires a high contraction rate (sound production) was accompanied with major peripheral structural modifications, yet the associated neural adjustments remain to this date unclear. To close this gap, we investigated the activity of both the locomotor and the sonic musculature using electromyography. The comparison between the activation patterns of both systems highlighted modifications of the neural motor pathway: (1) a transition from a bilateral alternating pattern to a synchronous activation pattern, (2) a switch from a slow- to a high-frequency regime, and (3) an increase in the synchrony of motor neuron activation. Furthermore, our results demonstrate that sound features correspond to the activity of the sonic muscles, as both the variation patterns of periods and amplitudes of sounds highly correspond to those seen in the sonic muscle electromyograms (EMG(sonic)) Assuming that the premotor network for sound production in piranhas is of spinal origin, our results show that the neural circuit associated with spinal motor neurons transitioned from the slow alternating pattern originally used for locomotion to a much faster simultaneous activation pattern to generate vocal signals.
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