Mechanisms, functions and ecology of colour vision in the honeybee.

N Hempel De Ibarra,R Menzel,M Vorobyev

doi:10.1007/s00359-014-0915-1

N Hempel De Ibarra, R Menzel + Show 1 more

Open Access

https://doi.org/10.1007/s00359-014-0915-1

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Abstract

Research in the honeybee has laid the foundations for our understanding of insect colour vision. The trichromatic colour vision of honeybees shares fundamental properties with primate and human colour perception, such as colour constancy, colour opponency, segregation of colour and brightness coding. Laborious efforts to reconstruct the colour vision pathway in the honeybee have provided detailed descriptions of neural connectivity and the properties of photoreceptors and interneurons in the optic lobes of the bee brain. The modelling of colour perception advanced with the establishment of colour discrimination models that were based on experimental data, the Colour-Opponent Coding and Receptor Noise-Limited models, which are important tools for the quantitative assessment of bee colour vision and colour-guided behaviours. Major insights into the visual ecology of bees have been gained combining behavioural experiments and quantitative modelling, and asking how bee vision has influenced the evolution of flower colours and patterns. Recently research has focussed on the discrimination and categorisation of coloured patterns, colourful scenes and various other groupings of coloured stimuli, highlighting the bees’ behavioural flexibility. The identification of perceptual mechanisms remains of fundamental importance for the interpretation of their learning strategies and performance in diverse experimental tasks.

Highlights

Colour vision of the honeybee, Apis mellifera L., has been studied in more detail than that of any other animal apart from primates
Lubbock (1882) reported that foraging honeybees repeatedly visited coloured cards when rewarded with drops of honey
Further observations of colour discrimination and wavelength-dependent preferences followed in other animals, such as water flees and fish (e.g. Lubbock 1888; von Frisch 1912), but the experiments by von Frisch (1914) with honeybees were the most significant ones proving the existence of colour vision in non-human animals

Summary

Introduction

Colour vision of the honeybee, Apis mellifera L., has been studied in more detail than that of any other animal apart from primates. The models assume that signals from the three receptor types are compared via two independent colour-opponent mechanisms to code the chromatic aspects of a stimulus and ignore detection and discrimination of stimuli on the basis of achromatic mechanisms.

Results

Conclusion