The fascinating nanostructures of butterflies

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 (Image: Pixabay CC0)
(Image: Pixabay CC0)
A team of interdisciplinary scientists from Australia and Austria has developed a method to understand how butterflies form their fascinating colors.

The research study, which was led by Bodo Wilts, Professor of Materials Physics at the Paris Lodron University of Salzburg, sheds new light on a previously little-understood phenomenon in nature.

"Butterflies and many other insects have tiny nanostructures that enable them to produce colors. Although we already know a lot about the optical properties of these structures, the development process of these structures in biological systems is still a mystery," explains Wilts.

The colors produced by these structures are created by the interaction of light with regularly arranged nanostructures - a phenomenon known as structural color, which occurs in almost all areas of life, from animals and plants to bacteria. "Our study has focused on developing a method that allows us to precisely measure the colors that these structures dynamically develop over time," says Wilts.

The research team has successfully demonstrated that hyperspectral microscopy - a special technique that provides spectral information for each image pixel - has the necessary spatial, temporal and spectral resolution to visualize the development of optical nanostructures in living biological systems. "This technique opens up completely new possibilities for us to study the dynamic process of color development in butterflies and other insects in the future," adds Wilts.

In contrast to conventional light microscopy, which only records in three color channels (red, green and blue), hyperspectral microscopy can record hundreds of color channels. This allows the nanostructures and potentially their development to be observed in real time.

The full results of the study "Elucidating nanostructural organization and photonic properties of butterfly wing scales using hyperspectral microscopy" have been published in the Royal Society journal Interface.