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A polar dinosaur feather assemblage from Australia

Kundrát, Martin ; Rich, Thomas H. ; Lindgren, Johan LU ; Sjövall, Peter ; Vickers-Rich, Patricia ; Chiappe, Luis M. and Kear, Benjamin P. (2020) In Gondwana Research 80. p.1-11
Abstract

Exceptionally preserved Mesozoic feathered dinosaur fossils (including birds) are famous, but recognized from only very few localities worldwide, and are especially rare in the Southern Hemisphere. Here we report an assemblage of non-avian and avian dinosaur feathers from an Early Cretaceous polar (around 70°S) environment in what is now southeastern Australia. The recovered remains incorporate small (10–30 mm long) basal paravian-like tufted body feathers, open-vaned contour feathers, and asymmetrical bird-like wing feathers that possess high-angled barbs with possible remnants of barbicels — amongst the geologically oldest observed to date. Such morphological diversity augments scant skeletal evidence for a range of insulated... (More)

Exceptionally preserved Mesozoic feathered dinosaur fossils (including birds) are famous, but recognized from only very few localities worldwide, and are especially rare in the Southern Hemisphere. Here we report an assemblage of non-avian and avian dinosaur feathers from an Early Cretaceous polar (around 70°S) environment in what is now southeastern Australia. The recovered remains incorporate small (10–30 mm long) basal paravian-like tufted body feathers, open-vaned contour feathers, and asymmetrical bird-like wing feathers that possess high-angled barbs with possible remnants of barbicels — amongst the geologically oldest observed to date. Such morphological diversity augments scant skeletal evidence for a range of insulated non-avian theropods and birds inhabiting extreme southern high-latitude settings during the Mesozoic. Although some of these fossil feathers exhibit what may be residual patterning, most are uniformly toned and preserve rod-shaped microbodies, as well as densely-packed microbody imprints on the barbules that are structurally consistent with eumelanosomes. Geochemical analysis detected no identifiable residual biomolecules, which we suspect were lost via hydrolysis and oxidization during diagenesis and weathering. Nevertheless, an originally dark pigmentation can be reasonably inferred from these melanic traces, which like the coloured feathers of modern birds, might have facilitated crypsis, visual communication and/or thermoregulation in a cold polar habitat.

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author
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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Aves, Early Cretaceous, Melanosomes, Mesozoic birds, Paraves
in
Gondwana Research
volume
80
pages
11 pages
publisher
Elsevier
external identifiers
  • scopus:85075659002
ISSN
1342-937X
DOI
10.1016/j.gr.2019.10.004
language
English
LU publication?
yes
id
4b43968b-2291-4960-bd9b-ff2793fbd0e5
date added to LUP
2019-12-13 08:32:54
date last changed
2022-04-18 19:23:00
@article{4b43968b-2291-4960-bd9b-ff2793fbd0e5,
  abstract     = {{<p>Exceptionally preserved Mesozoic feathered dinosaur fossils (including birds) are famous, but recognized from only very few localities worldwide, and are especially rare in the Southern Hemisphere. Here we report an assemblage of non-avian and avian dinosaur feathers from an Early Cretaceous polar (around 70°S) environment in what is now southeastern Australia. The recovered remains incorporate small (10–30 mm long) basal paravian-like tufted body feathers, open-vaned contour feathers, and asymmetrical bird-like wing feathers that possess high-angled barbs with possible remnants of barbicels — amongst the geologically oldest observed to date. Such morphological diversity augments scant skeletal evidence for a range of insulated non-avian theropods and birds inhabiting extreme southern high-latitude settings during the Mesozoic. Although some of these fossil feathers exhibit what may be residual patterning, most are uniformly toned and preserve rod-shaped microbodies, as well as densely-packed microbody imprints on the barbules that are structurally consistent with eumelanosomes. Geochemical analysis detected no identifiable residual biomolecules, which we suspect were lost via hydrolysis and oxidization during diagenesis and weathering. Nevertheless, an originally dark pigmentation can be reasonably inferred from these melanic traces, which like the coloured feathers of modern birds, might have facilitated crypsis, visual communication and/or thermoregulation in a cold polar habitat.</p>}},
  author       = {{Kundrát, Martin and Rich, Thomas H. and Lindgren, Johan and Sjövall, Peter and Vickers-Rich, Patricia and Chiappe, Luis M. and Kear, Benjamin P.}},
  issn         = {{1342-937X}},
  keywords     = {{Aves; Early Cretaceous; Melanosomes; Mesozoic birds; Paraves}},
  language     = {{eng}},
  pages        = {{1--11}},
  publisher    = {{Elsevier}},
  series       = {{Gondwana Research}},
  title        = {{A polar dinosaur feather assemblage from Australia}},
  url          = {{http://dx.doi.org/10.1016/j.gr.2019.10.004}},
  doi          = {{10.1016/j.gr.2019.10.004}},
  volume       = {{80}},
  year         = {{2020}},
}