Spectral sensitivity transition in the compound eyes of a twilight-swarming mayfly and its visual ecological implications

Aquatic insect species that leave the water after larval development, such as mayflies, have to deal with extremely different visual environments in their different life stages. Measuring the spectral sensitivity of the compound eyes of the virgin mayfly (Ephoron virgo) resulted in differences between the sensitivity of adults and larvae. Larvae were primarily green-, while adults were mostly UV-sensitive. The sensitivity of adults and larvae was the same in the UV, but in the green spectral range, adults were 3.3 times less sensitive than larvae. Transmittance spectrum measurements of larval skins covering the eye showed that the removal of exuvium during emergence cannot explain the spectral sensitivity change of the eyes. Taking numerous sky spectra from the literature, the ratio of UV and green photons in the skylight was shown to be maximal for theta approximate to -13 degrees solar elevation, which is in the theta(min) = -14.7 degrees and theta(max) = -7.1 degrees typical range of swarming that was established from webcam images of real swarmings. We suggest that the spectral sensitivity of both the larval and adult eyes are adapted to the optical environment of the corresponding life stages.

Automated summary

Aquatic insect species that leave the water after larval development face different visual environments in their different life stages. This study focuses on the spectral sensitivity of the compound eyes of the mayfly species Ephoron virgo, and found differences between the sensitivity of adults and larvae. The study suggests that the spectral sensitivity of both the larval and adult eyes are adapted to the optical environment of the corresponding life stages.