Cole Gemma L, Endler John A
Centre for Integrative Ecology, Deakin University, Waurn Ponds, Victoria, Australia
Centre for Integrative Ecology, Deakin University, Waurn Ponds, Victoria, Australia.
Proc Biol Sci. 2016 Sep 28;283(1839). doi: 10.1098/rspb.2016.0861.
The appearance of animal colour signals depends jointly upon the ambient light spectrum and the signal's reflectance spectra. Light environment heterogeneity might, therefore, allow individuals to enhance their signal by signalling in an environment that increases signal efficacy. We tested this hypothesis by providing male guppies (Poecilia reticulata), a choice of three light environments in which to display their colour signal to females: green, lilac, and clear. We paired males with both receptive and non-receptive females to test whether female response might affect male behavioural decisions. Males preferred the clear environment in all trials and this environment also resulted in males having the highest average visual contrast. Sexual behaviour was influenced by complex interactions between female receptivity, light environment, and male colour pattern contrast. Males spent significantly more time in the environment in which their colour signal had the highest contrast, but only when paired with receptive females. Significant interactions between light environment and individual male colour components were also seen only in receptive trials. Our results suggest that males use light environment to enhance their colour pattern, but only in the presence of receptive females.
动物颜色信号的呈现共同取决于环境光谱和信号的反射光谱。因此,光环境异质性可能使个体通过在能提高信号效力的环境中发出信号来增强自身信号。我们通过为雄性孔雀鱼(孔雀花鳉)提供三种光环境供其选择,以便向雌性展示其颜色信号,来验证这一假设:绿色、淡紫色和透明环境。我们将雄性与接受和不接受的雌性配对,以测试雌性反应是否会影响雄性的行为决策。在所有试验中,雄性都更喜欢透明环境,而且这种环境也使雄性具有最高的平均视觉对比度。性行为受到雌性接受度、光环境和雄性颜色模式对比度之间复杂相互作用的影响。雄性在其颜色信号对比度最高的环境中停留的时间明显更长,但这仅在与接受的雌性配对时才会出现。仅在接受试验中也观察到了光环境与个体雄性颜色成分之间的显著相互作用。我们的结果表明,雄性利用光环境来增强其颜色模式,但仅在有接受的雌性在场时才会这样做。