Department of Biology, Stanford University, 371 Serra Mall, Stanford, CA 94305, USA.
J Exp Biol. 2012 Jan 1;215(Pt 1):68-74. doi: 10.1242/jeb.062794.
Chemosensory signaling is crucial for communication in many fish species, but little is known about how signalers modulate chemical output in response to sensory information and social context. Here, we tested the hypothesis that dominant male African cichlid fish (Astatotilapia burtoni) use urine signals during social interactions, and demonstrate that this signaling depends on social context (reproductive; territorial) and on available sensory information (visual cues; full interaction). We injected males with dye to visualize urine pulses and exposed them to full sensory information or visual cues alone of four types: (1) dominant male; (2) gravid (reproductively receptive) females; (3) mouth-brooding (non-receptive) females; or (4) control (no fish). We found that males released urine sooner and increased their urination frequency when visually exposed to gravid females as compared with mouth-brooding females and or no-fish controls. While males could distinguish female reproductive states using visual cues alone, courtship behavior rates were ∼10-fold higher when they fully interacted with gravid females compared with receiving visual cues alone. Males also increased their urination and territorial behaviors when exposed to another male, suggesting that chemical signals may convey information on dominance status. These data support the hypothesis that dominant males use urine as a chemical signal and adjust the frequency of their urine output based on contextual information.
化学感觉信号对于许多鱼类物种的交流至关重要,但对于信号发出者如何根据感觉信息和社会背景来调节化学输出知之甚少。在这里,我们检验了一个假设,即优势雄性非洲慈鲷(Astatotilapia burtoni)在社交互动中使用尿液信号,并证明这种信号取决于社会背景(繁殖;领地)和可用的感觉信息(视觉线索;完整的互动)。我们给雄性注射染料以可视化尿液脉冲,并将它们暴露于四种类型的完整感觉信息或仅视觉线索下:(1)优势雄性;(2)妊娠(繁殖接受)雌性;(3)口孵育(非接受)雌性;或(4)对照(无鱼)。我们发现,与口孵育雌性和无鱼对照相比,雄性在视觉上暴露于妊娠雌性时会更快地释放尿液并增加其排尿频率。虽然雄性可以仅通过视觉线索来区分雌性的繁殖状态,但与仅接收视觉线索相比,当它们与妊娠雌性完全互动时,求偶行为率要高出约 10 倍。当雄性暴露于另一只雄性时,它们还会增加尿液和领地行为,这表明化学信号可能传达有关优势地位的信息。这些数据支持了一个假设,即优势雄性使用尿液作为化学信号,并根据上下文信息调整其尿液输出的频率。