DEAN
Professor Matthew R Evans
FACULTY OF SCIENCE
THE UNIVERSITY OF HONG KONG
香港大學
理學院
Press Release
Major breakthrough in knowledge of dinosaur appearance
HKU palaeontologist reconstructs feathered dinosaurs in the flesh with new technology
March 1, 2017
Dr Pittman and the laser-stimulated fluorescence device used for scanning the soft tissues of Archiornis.
(Background photo is a life reconstruction of bird-like feathered dinosaur Archiornis)
Until now it has been hard to get an accurate idea of the shape of a dinosaur from its fossilised remains, as
only their bones are usually preserved. Using a new technique, Dr Michael Pittman from the Department of
Earth Sciences, the University of Hong Kong and his collaborators reconstructed the first highly detailed
body outline of a feathered dinosaur based on high-definition images of its preserved soft tissues (Fig. 1).
This ground breaking work was published in Nature Communications on February 28, 2017 (Tuesday),
London time.
Laser-stimulated fluorescence (LSF) is a revolutionary new technique using high power lasers that makes
unseen soft tissues preserved alongside the bones, literally “glow in the dark” by fluorescence (Figs. 2 & 3).
The technique developed by collaborator Tom Kaye of the Foundation for Scientific Advancement, scans the
fossils with a violet laser in a dark room. The laser “excites” the few skin atoms left in the matrix making
them glow, to reveal what the shape of the dinosaur actually looked like (Fig. 4). “For the last 20 years we
have been amazed by the wondrous feathered dinosaurs of Northeastern China. However, we never thought
they would preserve soft tissues so extensively,” said lead author and palaeontologist Dr Michael Pittman.
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Dr Pittman and his colleagues examined over 200 specimens of the feathered bird-like dinosaur Anchiornis to
find the dozen with special preservation. The quantitative reconstruction shows the contours of the wings,
legs and even perfectly preserved foot scales, providing new details that illuminate the origin of birds.
“The detail was so well lit that we could see the texture of the skin,” said Dr Pittman (Fig. 3). Anchiornis
lived in the late Jurassic period (~160 million years old), close to the time when palaeontologists think birds
first appeared. In recovering important soft tissue details of the wing in particular, Dr. Pittman and his
colleagues found that the shape of wing (Fig. 2) was in many ways similar to modern birds, but it also had
some seemingly primitive characteristics like feathers arranged more evenly across the wing rather than in
distinct rows. These new insights provide crucial information for reconstructing how dinosaurs experimented
and eventually achieved flight. The new laser technique brings out hidden details because of the high
intensity laser light. The team is already scheduling trips worldwide to fulfill requests to scan exceptional
specimens.
Dr Pittman is one of the few dinosaur experts in the region. He is currently offering a free HKU online
course Dinosaur Ecosystems.
The journal paper can be viewed at: http://www.nature.com/articles/ncomms14576.
Illustration video by Dr Pittman
Direct download (all versions and photos): http://bit.ly/dinox-press
Image download and illustration
http://www.scifac.hku.hk/news/media?page=1
Presentation powerpoints: http://www.cpao.hku.hk/media/170301_Anchiornis_body_outline_paper.pdf
For more details about dinosaurs and Dr Pittman’s
https://www.edx.org/course/dinosaur-ecosystems-hkux-dinox .
online
course,
please
visit:
Figure 1. Reconstructed body outline of the bird-like feathered dinosaur Anchiornis using laserstimulated fluorescence images. Coloured areas represent different fossil specimens and black area are
approximated reconstructions. For the first time we have an accurate body outline of a bird-like dinosaur.
For the first time we have an accurate body outline of a bird-like dinosaur. The body length of Anchiornis
(head to tail) is about 40cm. Credit: Wang XL, Pittman M et al. 2017.
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Figure 2. The wing of the bird-like feathered dinosaur Anchiornis under laser-stimulated fluorescence.
The folds of skin in front of the elbow and behind the wrist (called patagia) were covered in feathers, just like
in modern living birds. Credit: Wang XL, Pittman M et al. 2017.
Figure 3. The foot of the bird-like feathered dinosaur Anchiornis. Top image shows the foot under
normal light. Bottom image shows the foot under laser light. Inset image shows the scaly details of a single
footpad. The footpad scales are preserved, but only visible under laser-stimulated fluorescence. Credit: Wang
XL, Pittman M et al. 2017.
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Figure 4. Life reconstruction of the bird-like feathered dinosaur Anchiornis. Revised life reconstruction
using the new body outline laser-stimulated fluorescence data. Credit: Julius T. Csotonyi 2017.
Figure 5. Anchiornis fossil. Credit: Shandong TianYu Museum of Natural History
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Figure 6. Dr Pittman
Figure 7. Dr Pittman examines fossils using LSF in Shandong TianYu Museum of Natural History.
Over 200 specimens of Anchiornis kept in the museum was examined to find about a dozen of them with
special preservation for scanning of details using the new technology. Credit: Michael Pittman 2017
For media enquiries, please contact Dr Michael Pittman, Research Assistant Professor, HKU Department of
Earth Sciences (tel: +852 5625 5019/ 3917 7840/ email: [email protected]); or Mr Benjamin Miu, HKU
Faculty of Science (tel: +852 3917 4948; email: [email protected]), Ms Melanie Wan, Senior Manager
(Media), HKU Communication and Public Affairs Office (tel: 2859 2600 email: [email protected]).
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