Date: January 16, 2018
Source:
Ludwig-Maximilians-Universität München
Chameleons are known to
communicate with conspecifics by altering their surface coloration. Munich
researchers have now found that the bony tubercles on the heads of many species
fluoresce under UV light and form impressive patterns.
Biogenic fluorescence is mainly
known from marine organisms, but is rare in terrestrial vertebrates. "So
we could hardly believe our eyes when we illuminated the chameleons in our
collection with a UV lamp, and almost all species showed blue, previously
invisible patterns on the head, some even over the whole body," says David
Prötzel, lead author of the new study and PhD student at the Bavarian State
Collection of Zoology (ZSM).
To understand the phenomenon, the
researchers used a variety of modern methods. Micro-CT scans showed that the
pattern of fluorescence exactly matched the distribution of tubercles pattern
on the skull. The tissue analyses yielded another surprise: "Our
histological 3D reconstruction shows that the skin covering the tubercles on
the skull is very thin and consists only of a transparent layer of epidermis,"explains
Dr. Martin Heß from the BioCenter of Ludwig-Maximilians-Universität (LMU) in
Munich.
These patches effectively act as
windows that enable UV light to reach the bone, where it is absorbed and then
emitted again as blue fluorescent light.
"It has long been known that
bones fluoresce under UV light, but that animals use this phenomenon to
fluoresce themselves has surprised us and was previously unknown," says
Dr. Frank Glaw, Curator of Herpetology at the Bavarian State Collection of
Zoology.
The tubercles fluoresce under UV
light to form distinct patterns that represent certain species or species
groups. In addition, the males in most species of the genus Calumma have
significantly more fluorescent tubercles than the females. Therefore, the
researchers suspect that this fluorescence is not a mere coincidence, but helps
the chameleons to recognize conspecifics, and presents a consistent pattern in
addition to their skin-based colour language -- especially as blue is a rare
colour and easily recognisable in the forest.
Story Source:
Materials
provided by Ludwig-Maximilians-Universität
München. Note: Content may be edited for style and length.
Journal Reference:
1 David Prötzel, Martin Heß, Mark D.
Scherz, Martina Schwager, Anouk van’t Padje, Frank Glaw. Widespread bone-based
fluorescence in chameleons. Scientific Reports, 2018; 8 (1) DOI: 10.1038/s41598-017-19070-7
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