Wave-type weakly electric fish emit a highly regular electric discharge using a specialized electric organ. This electric organ discharge (EOD) forms the basis for an electric sense used for navigation, prey detection and communication. The metabolic cost of the EOD is not fully understood, but recent research suggests that it constitutes a significant portion of the fish's energy budget. In the current study, manipulation of metabolic rate via exposure to hypoxia did not significantly alter EOD frequency. Changes in metabolic rate through swimming resulted in EOD frequency increase. To manipulate EOD frequency directly in individual fish, the jamming avoidance response (JAR) and long term frequency elevation (LTFE) were used. EOD frequency elevation and jamming stimulation resulted in an increased M˙O2 possibly associated with increases in sensory processing. Taken together, these data indicate that electric signalling in wave-type weakly electric fish is a not a major contributor to whole-animal energetic cost.
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机译:波浪型弱电鱼使用专门的电器官发出高度规则的放电。这种电子器官放电(EOD)构成了用于导航,猎物检测和通信的电感应的基础。 EOD的代谢成本尚不完全清楚,但最近的研究表明,它占鱼类能量预算的很大一部分。在当前的研究中,通过暴露于低氧状态来控制代谢率并没有显着改变EOD频率。游泳引起的代谢率变化导致EOD频率增加。为了直接在单个鱼中操纵EOD频率,使用了避免干扰响应(JAR)和长期频率升高(LTFE)。 EOD频率升高和干扰刺激导致M 2 O 2增加,可能与感觉处理的增加有关。综上所述,这些数据表明,波浪型弱电鱼中的电信号并不是整个动物能量成本的主要贡献者。
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