Under- and over-water halves of Gyrinidae beetle eyes harbor different corneal nanocoatings providing adaptation to the water and air environments

Whirligig beetles ( Gyrinidae ) inhabit water surfaces and possess unique eyes which are split into the overwater and underwater parts. In this study we analyze the micro- and nanostructure of the split eyes of two Gyrinidae beetles genera, Gyrinus and Orectochilus . We find that corneae of the over...

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Veröffentlicht in:	Scientific reports 2014-08, Vol.4 (1), p.6004
Hauptverfasser:	Blagodatski, Artem, Kryuchkov, Michail, Sergeev, Anton, Klimov, Andrey A., Shcherbakov, Maxim R., Enin, Gennadiy A., Katanaev, Vladimir L.
Format:	Artikel
Sprache:	eng
Schlagworte:	147/3 631/57/2282 639/925/350/2093 Adaptation, Physiological Air Animals Coleoptera Cornea Cornea - physiology Eye Harbors Humanities and Social Sciences Microscopy, Atomic Force multidisciplinary Nanotechnology Ommatidia Science Spectrum Analysis, Raman Surface Properties Underwater Water - chemistry Wettability
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description	Whirligig beetles ( Gyrinidae ) inhabit water surfaces and possess unique eyes which are split into the overwater and underwater parts. In this study we analyze the micro- and nanostructure of the split eyes of two Gyrinidae beetles genera, Gyrinus and Orectochilus . We find that corneae of the overwater ommatidia are covered with maze-like nanostructures, while the corneal surface of the underwater eyes is smooth. We further show that the overwater nanostructures possess no anti-wetting, but the anti-reflective properties with the spectral preference in the range of 450–600 nm. These findings illustrate the adaptation of the corneal nanocoating of the two halves of an insect's eye to two different environments. The novel natural anti-reflective nanocoating we describe may find future technological applications.
doi_str_mv	10.1038/srep06004
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In this study we analyze the micro- and nanostructure of the split eyes of two Gyrinidae beetles genera, Gyrinus and Orectochilus . We find that corneae of the overwater ommatidia are covered with maze-like nanostructures, while the corneal surface of the underwater eyes is smooth. We further show that the overwater nanostructures possess no anti-wetting, but the anti-reflective properties with the spectral preference in the range of 450–600 nm. These findings illustrate the adaptation of the corneal nanocoating of the two halves of an insect's eye to two different environments. 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In this study we analyze the micro- and nanostructure of the split eyes of two Gyrinidae beetles genera, Gyrinus and Orectochilus . We find that corneae of the overwater ommatidia are covered with maze-like nanostructures, while the corneal surface of the underwater eyes is smooth. We further show that the overwater nanostructures possess no anti-wetting, but the anti-reflective properties with the spectral preference in the range of 450–600 nm. These findings illustrate the adaptation of the corneal nanocoating of the two halves of an insect's eye to two different environments. 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In this study we analyze the micro- and nanostructure of the split eyes of two Gyrinidae beetles genera, Gyrinus and Orectochilus . We find that corneae of the overwater ommatidia are covered with maze-like nanostructures, while the corneal surface of the underwater eyes is smooth. We further show that the overwater nanostructures possess no anti-wetting, but the anti-reflective properties with the spectral preference in the range of 450–600 nm. These findings illustrate the adaptation of the corneal nanocoating of the two halves of an insect's eye to two different environments. The novel natural anti-reflective nanocoating we describe may find future technological applications.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>25103074</pmid><doi>10.1038/srep06004</doi><oa>free_for_read</oa></addata></record>
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subjects	147/3 631/57/2282 639/925/350/2093 Adaptation, Physiological Air Animals Coleoptera Cornea Cornea - physiology Eye Harbors Humanities and Social Sciences Microscopy, Atomic Force multidisciplinary Nanotechnology Ommatidia Science Spectrum Analysis, Raman Surface Properties Underwater Water - chemistry Wettability
title	Under- and over-water halves of Gyrinidae beetle eyes harbor different corneal nanocoatings providing adaptation to the water and air environments
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