Raman spectroscopy reveals the presence of both eumelanin and pheomelanin in the skin of lacertids

Abstract

Melanic pigments play a key role in the coloration of animals, but the type of melanin pigment in black, brown, and blue colored scales of Squamata has not been studied. Based on research on birds and mammals, we may expect that pheomelanin is the majority pigment in brownish colorations and eumelanin is the majority pigment in black and blue colorations of Squamata. To characterize the pigments that underlie the melanin-based colorations of lizards, we analyzed the skin of nine genera of lacertids using dispersive Raman spectroscopy. Our results suggest that no prediction can be made on the type of pigmentary melanin present in the skin of the lacertids based alone on the hue of the sample. Indeed, brownish patterns in the skin of Psammodromus, Gallotia, Acanthodactylus, and Algyroides lizards presented both chemical forms of melanin: eumelanin and pheomelanin. Therefore, pheomelanogenesis might be an ancient characteristic within Lacertidae, because it was detected in genera in the Lacertini, Eremini, and Gallotini. Raman spectra of melanic-based patterns of genus Zootoca and ultraviolet (UV)-blue patches of Podarcis, Iberolacerta, Lacerta, and Timon lizards suggested that eumelanin is the majority pigment in these patches. Raman spectroscopy is a suitable nondestructive technique useful to identify melanin forms in the skin of lizards, and it demonstrated that pheomelanin is synthesized by Squamata.