摘要Butterfly coloration originates from the finely structured scales grown on the underlying wing cuticle.Most researchers who study butterfly scales are focused on the static optic properties of cover scales,with few works referring to dynamic optical properties of the scales.Here,the dynamic coloration effect of the multiple scales was studied based on the mea-surements of varying-angle reflection and the characterization of scale flexibility in two species of Lycaenid,Plebejus argyrognomon with violet wings and Polyommatus erotides with blue wings.We explored the angle-dependent color changeability and the color-mediating efficiency of wing scales.It was found that the three main kinds of flexible scales(cover,ground and androconia scales)were asynchronously bent during wing rotation,which caused the discoloration effect.The three layers of composite scales broaden the light signal when compared to the single scale,which may be of great significance to the recognition of insects.Specifically,the androconia scales were shown to strongly contribute to the overall wing coloration.The cover scale coloration was ascribed to the coherence scattering resulted from the short-range order at intermediate spatial frequencies from the 2D Fourier power spectra.Our findings are expected to deepen the understanding of the complex characteristics of biological coloration and to provide new inspirations for the fabrication of biomimetic flexible discoloration materials.