Color vision in animals

BackgroundThe colors in which we see an object are not only dependent on the spectral composition of the reflected light but also represent an interpretation by our eyes and the trichromatic visual system.ObjectiveHow do animals of other species see the world?ResultsThe majority of mammals do not have three but only two types of cones and therefore have dichromatic color vision. Marine mammals and some nocturnally active mammals even have only one type of cone and are completely color blind. In contrast, birds as well as many fish and reptiles see in the world in more color hues and with four types of cones. Many vertebrates, insects and crustaceans can see not only the spectrum perceived by us but also ultraviolet radiation as light.ConclusionIn order to understand how animals of other species see the world, their visual systems must be understood and the animals must be tested in behavioral investigations

A snail-eating snake recognizes prey handedness

Specialized predator-prey interactions can be a driving force for their coevolution. Southeast Asian snail-eating snakes (Pareas) have more teeth on the right mandible and specialize in predation on the clockwise-coiled (dextral) majority in shelled snails by soft-body extraction. Snails have countered the snakes’ dextral-predation by recurrent coil reversal, which generates diverse counterclockwise-coiled (sinistral) prey where Pareas snakes live. However, whether the snake predator in turn evolves any response to prey reversal is unknown. We show that Pareas carinatus living with abundant sinistrals avoids approaching or striking at a sinistral that is more difficult and costly to handle than a dextral. Whenever it strikes, however, the snake succeeds in predation by handling dextral and sinistral prey in reverse. In contrast, P. iwasakii with little access to sinistrals on small peripheral islands attempts and frequently misses capturing a given sinistral. Prey-handedness recognition should be advantageous for right-handed snail-eating snakes where frequently encountering sinistrals. Under dextral-predation by Pareas snakes, adaptive fixation of a prey population for a reversal gene instantaneously generates a sinistral species because interchiral mating is rarely possible. The novel warning, instead of sheltering, effect of sinistrality benefitting both predators and prey could further accelerate single-gene ecological speciation by left-right reversal