Trade-off between coding efficiency and color space in outer retinal circuits with colored oil droplets

Abstract

To enhance color vision, animals adapt diverse strategies according to their environmental conditions. For instance, zebrafish use clever retinal circuits to encode spectral information in aquatic environments. Other species, such as birds, develop colored oil droplets to expand their plethora of distinguishable colors. Studies on these species provide insights into each strategy. Nevertheless, there is no data on retinas using both strategies simultaneously. In this work, we combine our knowledge of colored oil droplets and circuits for efficient spectral coding in different species to explore the outcome of retinas exhibiting both strategies simultaneously. Our findings suggest the existence of a trade-off between coding efficiency and color-space area in zebrafish-like retinal circuits. More specifically, we find that spectral encoding becomes compromised with the presence of colored oil droplets while the accessible color space expands significantly.