Borealopelta

Borealopelta (meaning "Northern shield") is a genus of nodosaurid ankylosaur from the Lower Cretaceous of Alberta, Canada. It contains a single species, B. markmitchelli, named in 2017 by Caleb Brown and colleagues from a well-preserved specimen known as the Suncor nodosaur. Discovered at an oil sands mine north of Fort McMurray, Alberta, the specimen is remarkable for being among the best-preserved dinosaur fossils of its size ever found. It preserved not only the armor (osteoderms) in their life positions, but also remains of their keratin sheaths, overlying skin, and stomach contents from the animal's last meal. Melanosomes were also found that indicate the animal had a reddish skin tone.

Borealopelta
Temporal range: Early Cretaceous,
The holotype specimen on display at the Royal Tyrell Museum
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Clade: Ornithischia
Clade: Thyreophora
Suborder: Ankylosauria
Family: Nodosauridae
Subfamily: Nodosaurinae
Genus: Borealopelta
Brown et al., 2017
Species:
B. markmitchelli
Binomial name
Borealopelta markmitchelli
Brown et al., 2017

Discovery and history

Holotype shown from above

The holotype specimen was uncovered on March 21, 2011, at the Millennium Mine, an oil sands mine 30 kilometres (19 mi) north of Fort McMurray, Alberta, that is owned and operated by Suncor Energy.[1] It was discovered by a miner, Shawn Funk, who was digging in the bank and noticed the specimen.[2] The Wabiskaw Member sediments (belonging to the Clearwater Formation) were being removed to allow mining of the underlying bitumen-rich sands of the McMurray Formation when an excavator struck the fossil. Noting the unusual nature of the exposed fragments, the operators alerted the Royal Tyrrell Museum of Palaeontology. In accordance with Suncor's mining permit and Alberta fossil law, the specimen became the property of the Alberta government.[1]

On March 23, Royal Tyrrell Museum scientist Donald Henderson and senior technician Darren Tanke were brought to the mine to examine the specimen, which, based on photographs, they expected to be a plesiosaur or another marine reptile, as no land animals had ever been discovered in the oil sands previously.[1] Upon correct identification, which was made on-site by Tanke, Henderson was astonished to learn that it was an ankylosaurian dinosaur and not a marine reptile. The animal had apparently been washed out to sea after death.[3]

After three days of mine safety training, museum staff and Suncor employees began working to recover all pieces of the fossil. Aside from the several pieces broken free, the bulk of the specimen was still embedded 8 metres (26 ft) up a cliff that was 12 metres (39 ft) high. The process took fourteen days in total.[1]

As the major piece of rock containing the fossil was being lifted out, it broke under its own weight into several pieces. Museum staff salvaged the specimen by wrapping and stabilizing the pieces in plaster, after which they were able to successfully transport them to the Royal Tyrell Museum. There, technician Mark Mitchell spent six years removing the adhering rock and preparing the fossil for study, which was sponsored by the National Geographic Society. The species B. markmitchelli was named for him in recognition of his skilled work.[1][4][5] The specimen was put on public exhibit on May 12, 2017, as part of the Royal Tyrrell Museum's "Grounds for Discovery" exhibition, along with other specimens discovered via industrial activity.[5]

Description

Restoration

Borealopelta was a large dinosaur, measuring 5.5 metres (18 ft) long and weighing 1.3 metric tons (1.4 short tons). The Suncor specimen is remarkable for its three-dimensional preservation of a large, articulated dinosaur complete with soft tissue. While many small dinosaurs have been preserved with traces of soft tissues and skin, they are usually flattened and compressed during fossilization. Similar-looking hadrosaurid "mummies" have a shriveled, desiccated appearance due to their partial mummification prior to fossilization. The Suncor specimen, however, appears to have sunk upside-down onto the sea floor shortly after its death, causing the top half of the body to be quickly buried with minimal distortion. The result is a specimen that preserves the animal almost as it would have looked in life, without flattening or shriveling.[6][4]

The Suncor specimen preserved numerous closely spaced rows of small armor plates, or osteoderms, lining the top and sides of its broad body. It had a straight tail rather than a tail club, and from the shoulders protruded a pair of long spines, shaped like the horns of a bull. Study of the pigments present in remnants of skin and scales suggest that it might have had a reddish-brown coloration in life, with a countershaded pattern that was used for camouflage.[6][4]

Classification

Side view of its display case at the museum.
Photocomposite and schematic line drawings of the holotype

Borealopelta was classified by Brown et al. within Nodosauridae. In the phylogenetic analysis conducted by the authors, Borealopelta nested within nodosaurids more derived than Nodosaurus. The completed cladogram was a strict consensus in 480 different trees, each with slightly different results. In both strict consensus and majority rules cladograms Borealopelta nested with Pawpawsaurus and Europelta in a group of Albian nodosaurs, with Hungarosaurus being the next closest taxon. The phylogeny below displays the results of the strict consensus, excluding taxa outside Nodosauridae.[6][7]

Nodosauridae

Sauroplites scutiger

Mymoorapelta maysi

Dongyangopelta yangyanensis

Gastonia burgei

Gargoyleosaurus parkpinorum

Polacanthus foxii

Peloroplites cedrimontanus

Sauropelta edwardsi

Nodosaurus textilis

Tatankacephalus cooneyorum

Silvisaurus condrayi

Animantarx ramaljonesi

Hungarosaurus tormai

Europelta carbonensis

Pawpawsaurus campbelli

Borealopelta markmitchelli

Struthiosaurus austriacus

Stegopelta landerensis

Panoplosaurus mirus

Edmontonia rugosidens

Edmontonia longiceps

Denversaurus schlessmani

Paleobiology

Comparisons of the size of the bony core and keratinous sheath of the parascapular spine of Borealopelta to modern analogs

The discovery that Borealopelta possessed camouflage coloration indicates that it was under threat of predation, despite its large size, and that the armor on its back was primarily used for defensive rather than display purposes.[6] Additionally, the spikes of Borealopelta might have had a dual function as defensive weapons and potential display structures useful in attracting mates and in species recognition.[8]

Diet

Examination of the specimen's stomach contents indicates that ferns were a major part of the animal's diet. The fact that ferns made up the majority of Borealopelta's last meal suggested that it was a highly selective feeder. Roughly six percent of the stomach contents contained charcoal as well, leading to the conclusion that Borealopelta was feeding in an area that was experiencing regrowth after a recent wildfire. Brown and colleagues inferred that the ferns themselves had been halfway through their growing season when ingested, suggesting that the Borealopelta individual ingested them in early or mid-summer, dying only a few hours afterward.[9]

Paleoecology

Specimen from the right side

The Suncor Borealopelta was preserved in the marine sandstones and shales of the Wabiskaw Member of the Clearwater Formation, which were laid down during the Albian stage of the Early Cretaceous period, about 110–112 million years ago.[6] At that time, the region was covered by the Western Interior Seaway, an inland sea that stretched from the Arctic Ocean to the Gulf of Mexico,[4][10] and the Wabiskaw sediments were being deposited in an offshore marine environment.[6]

The holotype specimen of Borealopelta must have been washed out to sea, perhaps during a flood. Initially, it was thought that it had bloated after death and floated on its back at the surface of the water for weeks before the eventual release of the built-up gases within the trunk region of the carcass at which point it sank.[11] Larramendi and colleagues in 2020 doubted this hypothesis, as ankylosaurians would need a density comparable to modern birds for this to occur which is most certainly not the case; instead, it is thought that the animal was washed out to sea where it drowned after struggling to stay near the surface and then proceeded to sink.[12]

The fact that ankylosaurians are front-heavy is probably what led to the animal being fossilized upside down. It landed on the seabed on its back with enough force to deform the immediately underlying sediments. About 15 centimetres (5.9 in) of sediment settled over the carcass prior to the release of body fluids, as evidenced by fluid-escape structures preserved in the sediments, and the body cavity became filled with sand. A siderite concretion began to form around the carcass shortly after its arrival on the seabed, which prevented scavenging and preserved the body intact, with its scales and osteoderms in their original configuration.[6]

See also

References

  1. Henderson, Donald (13 May 2013). "A one-in-a-billion dinosaur find". The Guardian. Retrieved 31 May 2017.
  2. Duggan, Graham. "Face to face with a perfectly preserved dinosaur that looks like it was alive yesterday". CBC. Archived from the original on 2020-01-01. Retrieved December 24, 2021.
  3. Chandler, Graham (19 May 2014). "Dinosaurs in the mines". Alberta Oil Magazine. Archived from the original on 4 August 2017. Retrieved 31 May 2017.
  4. "This Is the Best Dinosaur Fossil of Its Kind Ever Found". National Geographic Society. 12 May 2017. Retrieved 31 May 2017.
  5. "World's best-preserved armoured dinosaur revealed in all its bumpy glory". CBC News. 12 May 2017. Retrieved 31 May 2017.
  6. Brown, C.M.; Henderson, D.M.; Vinther, J.; Fletcher, I.; Sistiaga, A.; Herrera, J.; Summons, R.E. (2017). "An Exceptionally Preserved Three-Dimensional Armored Dinosaur Reveals Insights into Coloration and Cretaceous Predator-Prey Dynamics". Current Biology. 27 (16): 2514–2521.e3. doi:10.1016/j.cub.2017.06.071. PMID 28781051.
  7. Brown, C.M.; Henderson, D.M.; Vinther, J.; Fletcher, I.; Sistiaga, A.; Herrera, J.; Summons, R.E. (2017). "Supplemental Information: An Exceptionally Preserved Three-Dimensional Armored Dinosaur Reveals Insights into Coloration and Cretaceous Predator-Prey Dynamics". Current Biology. 27 (16): 2514–2521.e3. doi:10.1016/j.cub.2017.06.071. PMID 28781051. S2CID 5182644.
  8. Brown, C. M. (2017). "An exceptionally preserved armored dinosaur reveals the morphology and allometry of osteoderms and their horny epidermal coverings". PeerJ. 5: e4066. doi:10.7717/peerj.4066. PMC 5712211. PMID 29201564.
  9. Brown, C. M.; Greenwood, D. E.; Kalyniuk, J. E.; Braman, D. R.; Henderson, D. M.; Greenwood, C. L.; Basinger, J. F. (2020). "Dietary palaeoecology of an Early Cretaceous armoured dinosaur (Ornithischia; Nodosauridae) based on floral analysis of stomach contents". Royal Society. 7 (6): 200305. Bibcode:2020RSOS....700305B. doi:10.1098/rsos.200305. ISSN 2054-5703. PMC 7353971. PMID 32742695.
  10. Canadian Society of Petroleum Geologists and Alberta Geological Survey (1994). "The Geological Atlas of the Western Canada Sedimentary Basin, Chapter 19: Cretaceous Mannville Group of the Western Canada Sedimentary Basin". Compiled by Mossop, G.D. and Shetsen, I. Archived from the original on 2013-08-14. Retrieved 2013-08-01.
  11. Mallon, J.C.; Henderson, D.M.; McDonough, C.M.; Loughry, W.J (2018). "A "bloat-and-float" taphonomic model best explains the upside-down preservation of ankylosaurs". Palaeogeography, Palaeoclimatology, Palaeoecology. 497: 117–127. Bibcode:2018PPP...497..117M. doi:10.1016/j.palaeo.2018.02.010.
  12. Larramendi, A.; Paul, G.S.; Hsu, S.-Y. (2020). "A review and reappraisal of the specific gravities of present and past multicellular organisms, with an emphasis on tetrapods". The Anatomical Record. 304 (9): 1833–1888. doi:10.1002/ar.24574. PMID 33258532. S2CID 227243708.
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