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Publication - Professor Innes Cuthill

    Countershading and Stripes in the Theropod Dinosaur Sinosauropteryx Reveal Heterogeneous Habitats in the Early Cretaceous Jehol Biota

    Citation

    Smithwick, F, Nicholls, R, Cuthill, I & Vinther, J, 2017, ‘Countershading and Stripes in the Theropod Dinosaur Sinosauropteryx Reveal Heterogeneous Habitats in the Early Cretaceous Jehol Biota’. Current Biology, vol 27., pp. 3337-3343.e2

    Abstract

    Countershading is common across a variety of lineages and ecological time. A dark dorsum and lighter ventrum helps to mask the three-dimensional shape of the body by reducing self-shadowing, decreasing conspicuousness and thus helping to avoid detection by predators and prey. The optimal countershading pattern is dictated by the lighting environment, which is in turn dependent upon habitat. With the discovery of fossil melanin it is possible to infer original colour patterns from fossils, including countershading. Applying these principles, we describe the pattern of countershading in the diminutive theropod dinosaur Sinosauropteryx from the Early Cretaceous Jehol Biota of Liaoning, China. From reconstructions based on exceptional fossils, the colour pattern is compared to predicted optimal countershading transitions based on 3D reconstructions of the animal’s abdomen imaged in different lighting environments. Reconstructed patterns match well with those predicted for animals living in open habitats. Jehol is presumed to have been a predominantly closed forested environment, however our results indicate a more heterogeneous range of habitats. Sinosauropteryx is also shown to exhibit a ‘bandit mask’, a common pattern in many living vertebrates, particularly birds, that serves multiple functions including camouflage. Sinosauropteryx therefore shows multiple colour pattern features likely related to the habitat in which it lived. Our results show how reconstructing the colour of extinct animals can inform on their ecologies beyond what may be obvious from skeletal remains alone.

    Full details in the University publications repository