Colour discrimination thresholds vary throughout colour space in a reef fish (Rhinecanthus aculeatus)

Naomi F. Green, Emily Guevara, D. Osorio, J. Endler, N. Marshall, M. Vorobyev, K. L. Cheney
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引用次数: 7

Abstract

ABSTRACT Animals use colour vision in a range of behaviours. Visual performance is limited by thresholds, which are set by noise in photoreceptors and subsequent neural processing. The receptor noise limited (RNL) model of colour discrimination is widely used for modelling colour vision and accounts well for experimental data from many species. In one of the most comprehensive tests yet of colour discrimination in a non-human species, we used Ishihara-style stimulus patterns to examine thresholds for 21 directions at five locations in colour space for the fish Rhinecanthus aculeatus. Thresholds matched RNL model predictions most closely for stimuli near the achromatic point, but exceeded predictions (indicating a decline in sensitivity) with distance from this point. Thresholds were also usually higher for saturation than for hue differences. These changes in colour threshold with colour space location and direction may give insight into photoreceptor non-linearities and post-receptoral mechanisms of colour vision in fish. Our results highlight the need for a cautious interpretation of the RNL model – especially for modelling colours that differ from one another in saturation (rather than hue), and for highly saturated colours distant from the achromatic point in colour space.
珊瑚鱼(Rhinecanthus aculeatus)的色彩辨别阈值在色彩空间中有所不同。
动物在一系列行为中使用色觉。视觉表现受到阈值的限制,阈值由光感受器中的噪声和随后的神经处理设定。受体噪声限制(RNL)颜色识别模型被广泛用于颜色视觉建模,并能很好地解释来自许多物种的实验数据。在非人类物种中最全面的颜色识别测试之一中,我们使用石原式刺激模式来检查颜色空间中5个位置的21个方向的阈值。对于消色差点附近的刺激,阈值与RNL模型的预测最接近,但随着距离消色差点的增加,阈值超出了预测(表明灵敏度下降)。饱和度的阈值通常也高于色相差异的阈值。这些颜色阈值随颜色空间位置和方向的变化可能有助于深入了解鱼类的光感受器非线性和感受器后的色彩视觉机制。我们的研究结果强调了对RNL模型进行谨慎解释的必要性——特别是对饱和度(而不是色调)不同的颜色进行建模时,以及对色彩空间中远离消色差点的高度饱和颜色进行建模时。
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