Unearthing the Appearance of Ancient Animals: X-Ray Technique for Determining Fossil Pigmentation Patterns
ScienceDaily (June 30, 2011) — An international team including University of Pennsylvania paleontologists is unearthing the appearance of ancient animals by using the world's most powerful X-rays. New research shows how trace metals in fossils can be used to determine the pigmentation patterns of creatures dead for more than a hundred million years.
The research was conducted by an international team working with Phillip Manning, an adjunct professor in the School of Arts and Sciences' Department of Earth and Environmental Science, and Peter Dodson, a professor in both the Department of Earth and Environmental Science and the School of Veterinary Medicine's Department of Animal Biology. They collaborated with Roy Wogelius of the University of Manchester, Uwe Bergmann of Stanford University's SLAC National Accelerator Laboratory and other researchers.
Their work will be published in the journal Science on July 1.
Manning and Dodson have long studied fossils of the earliest birds, including Confuciusornis sanctus, which lived 120 million years ago and was one of many evolutionary links between dinosaurs and birds, and Gansus yumenensis, which is considered the oldest modern bird and lived more than 100 million years ago. Their partnership with researchers from Manchester and Stanford, however, has opened a new avenue of investigation.
"Every once in a while we are lucky enough to discover something new, something that nobody has ever seen before," said Wogelius, a geochemist and the paper's lead author.
The team's discovery is rooted in a new technique, using technology based on synchrotron radiation to identify copper-bearing molecules in the fossilized feathers of these ancient birds.
"There is an intimate relationship between trace metals and organics. When you're getting a good suntan, melanin forms in your skin. There are many forms of melanin, and some are found in the dark feathers of birds, but copper is always bound into its structure," Manning said. "You can see this in living animals, but it's only since we've been using a synchrotron -- a vast accelerator that generates intense X-rays a hundred million times brighter than the sun -- that we can see the chemical detail in fossils and show that the copper complexes we found were originally part of the animal."
Metallic compounds can survive in these fossils for hundreds of millions of years because they are unpalatable to microorganisms. But to distinguish the copper that was bound in melanin with copper that might have been geochemically produced requires the precision that only a tool like the synchrotron can provide. By measuring the energy released by atoms when they are bombarded with high-powered X-rays, researchers can get an accurate picture of the molecules in which they reside.
"We're able to map absolute quantities, to parts-per-million levels in discrete biological structures, which we compare with living organisms and see they are comparable," Manning said.
The new technique paints a richer picture of the lives of these ancient creatures.
"While our work doesn't yet allow you to diagnose color, you can get the concentration and distribution of pigments," Dodson said. "In other words, you can work out monochrome patterns, which may tell us something about camouflage or other traits relevant to natural selection of the species."
"If we could eventually give colors to long extinct species, that in itself would be fantastic," said co-author Uwe Bergmann, deputy director of the Linac Coherent Lightsource at SLAC. "But synchrotron radiation has revolutionized science in many fields, most notably in molecular biology. It is very exciting to see that it is now starting to have an impact in paleontology, in a way that may have important implications in many other disciplines,"
The team is confident that further research with this technique will enable them to fully diagnose color via fossil chemistry, and they also believe that this is only one of many applications the technique will have.
"This synchrotron research is really important as it gives us the first clue to really understanding what happens with organic debris when you bury it in the ground," Manning said. "For example, there are huge implications for understanding the mass transfer of buried waste; trace metals can be bad if you get too much of them, so we can spatially map and give images of exact loadings of these metals in both living and extinct organisms. No one else can do this. It's not just contributing to a field, it's creating a whole new discipline."
In addition to Wogelius, Manning, Dodson and Bergmann, the research was conducted by Holly Barden, Nick Edwards and William Sellers, of Manchester University; Peter Larson of Manchester University and the Black Hills Institute of Geological Researc, Inc.; Kevin Taylor of Manchester Metropolitan University; Sam Webb of the SLAC National Accelerator Laboratory; Hai-lu You of the Chinese Academy of Geological Sciences; and Li Da-qing of the Gansu Geological Museum.
Support for this research was provided by the United Kingdom's National Environmental Research Council and an anonymous private donor.
Fossil samples were provided by the Black Hills Institute Museum and the Museum für Naturkunde, Humboldt University, Berlin. The Stanford Synchrotron Radiation Lightsource at SLAC is a Department of Energy Office of Science national user facility which provides synchrotron radiation for research in chemistry, biology, physics and materials science to more than a thousand users each year.
Story Source:The above story is reprinted (with editorial adaptations by ScienceDaily staff) from materials provided by University of Pennsylvania.
Journal Reference:
- R. A. Wogelius, P. L. Manning, H. E. Barden, N. P. Edwards, S. M. Webb, W. I. Sellers, K. G. Taylor, P. L. Larson, P. Dodson, H. You, L. Da-Qing, U. Bergmann. Trace Metals as Biomarkers for Eumelanin Pigment in the Fossil Record. Science, 2011; DOI: 10.1126/science.1205748
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