Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)

Pachyrhinosaurus perotorum, a paleo-Arctic centrosaurine ceratopsid from the Kikak-Tegoseak Quarry (North Slope, Alaska) represents a unique opportunity to add to the understanding of ceratopsian bone histology, which is poorly understood due to the minimal preservation of growth markers (e.g. lines...

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Main Author: Goldsmith, Erika
Other Authors: Tumarkin-Deratzian, Allison, Chemtob, Steven M., Grandstaff, David E., Fiorillo, Anthony R.
Format: Thesis
Language:English
Published: Temple University. Libraries 2018
Subjects:
Paleontology
Geology
Arctic
north slope
Paleo-Arctic
Alaska
Online Access:https://hdl.handle.net/20.500.12613/1315
id fttempleuniv:oai:scholarshare.temple.edu:20.500.12613/1315
record_format openpolar
institution Open Polar
collection TUScholarShare (Temple University)
op_collection_id fttempleuniv
language English
topic Paleontology
Geology
spellingShingle Paleontology
Geology
Goldsmith, Erika
Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
topic_facet Paleontology
Geology
description Pachyrhinosaurus perotorum, a paleo-Arctic centrosaurine ceratopsid from the Kikak-Tegoseak Quarry (North Slope, Alaska) represents a unique opportunity to add to the understanding of ceratopsian bone histology, which is poorly understood due to the minimal preservation of growth markers (e.g. lines of arrested growth) and limited histological sampling across the ceratopsian lineage. Histological analyses of eight rib fragments from P. perotorum were conducted to add to the understanding of ceratopsian growth dynamics. Cyclical growth is preserved within ribs from P. perotorum allowing for the assignment of relative ontogenetic ages. One juvenile (DMNH 23891), 4 sub-adults (DMNH 21574, DMNH 24384, DMNH 24228, and DMNH 23888), and one adult (DMNH 24237) were identified. Radial and reticular fibrolamellar bone is prevalent in juvenile and sub-adult individuals indicating P. perotorum grew rapidly during ontogeny. Dense secondary bone is widespread in adult and three sub-adult individuals, which obscures most primary bone tissue and lines of arrested growth (LAGs). The degree of remodeling is higher than that previously reported in dinosaur rib histology, and may be attributable to differences in element-specific growth rate, environmental or biomechanical stresses. However, more histological studies of P. perotorum comparing growth between different postcranial long bones are needed to constrain the controls of secondary bone within this paleo-Arctic species. Although previous studies have interpreted taphonomy of the Kikak-Tegoseak Quarry (KTQ) using sedimentological and paleontological data, less is known about the geochemical taphonomy of this assemblage. P. perotorum bone has been altered from carbonate-hydroxyapatite to carbonate fluorapatite. XRD full width half maximum (FWHM) values display narrower peak widths (0.29-0.35°) than modern bone indicating a more crystalline apatite lattice structure. ATR-FTIR infrared splitting factor (IR-SF) values in P. perotorum specimens are greater (3.3-3.6) than in modern bone indicating that apatite crystallite sizes are larger than what is typically found in non-fossil bone. Higher crystallinity is a common result in fossil bone due the growth of authigenic apatite. ATR-FTIR spectra reveal elevated carbonate due to the addition of B-type carbonate into the apatite lattice. Relative amounts of carbonate correlates with ontogeny which could reflect a biological signal, although the effect of diagenetic alteration cannot be ruled out. Based on the elevated carbonate within bones of P. perotorum, there is potentially significant diagenetic alteration of the δ18Ocarbonate signal, therefore future stable isotope studies from the KTQ P. perotorum specimens should be cautious. Determining the potential chemical alteration of the δ18Ophosphate is more difficult since crystallinity data cannot differentiate between biogenic and secondary phosphate in bone. However, depleted carbonate: phosphate ratios can indicate the addition of more phosphate and thus, potential diagenetic alteration of the δ18Ophosphate. REE spider patterns yield different patterns between P. perotorum bones, which indicates taphonomic reworking (spatial and/or temporal) due to the preservation of different redox conditions and diffusion periods between bones. This observation is surprising due to the lack of significant/variable bone weathering or abrasion. Geology
author2 Tumarkin-Deratzian, Allison
Chemtob, Steven M.
Grandstaff, David E.
Fiorillo, Anthony R.
format Thesis
author Goldsmith, Erika
author_facet Goldsmith, Erika
author_sort Goldsmith, Erika
title Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
title_short Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
title_full Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
title_fullStr Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
title_full_unstemmed Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska)
title_sort bone histology and geochemical taphonomy of arctic centrosaurine ceratopsids from the kikak-tegoseak quarry (north slope, alaska)
publisher Temple University. Libraries
publishDate 2018
url https://hdl.handle.net/20.500.12613/1315
geographic Arctic
geographic_facet Arctic
genre Arctic
north slope
Paleo-Arctic
Alaska
genre_facet Arctic
north slope
Paleo-Arctic
Alaska
op_relation http://dx.doi.org/10.34944/dspace/1297
Theses and Dissertations
http://hdl.handle.net/20.500.12613/1315
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op_doi https://doi.org/20.500.12613/1315
https://doi.org/10.34944/dspace/1297
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spelling fttempleuniv:oai:scholarshare.temple.edu:20.500.12613/1315 2023-05-15T15:02:46+02:00 Bone Histology and Geochemical Taphonomy of Arctic Centrosaurine Ceratopsids from the Kikak-Tegoseak Quarry (North Slope, Alaska) Goldsmith, Erika Tumarkin-Deratzian, Allison Chemtob, Steven M. Grandstaff, David E. Fiorillo, Anthony R. 2018 166 pages https://hdl.handle.net/20.500.12613/1315 eng eng Temple University. Libraries http://dx.doi.org/10.34944/dspace/1297 Theses and Dissertations http://hdl.handle.net/20.500.12613/1315 IN COPYRIGHT- This Rights Statement can be used for an Item that is in copyright. Using this statement implies that the organization making this Item available has determined that the Item is in copyright and either is the rights-holder, has obtained permission from the rights-holder(s) to make their Work(s) available, or makes the Item available under an exception or limitation to copyright (including Fair Use) that entitles it to make the Item available. http://rightsstatements.org/vocab/InC/1.0/ Paleontology Geology Thesis/Dissertation Text 2018 fttempleuniv https://doi.org/20.500.12613/1315 https://doi.org/10.34944/dspace/1297 2021-08-26T18:58:53Z Pachyrhinosaurus perotorum, a paleo-Arctic centrosaurine ceratopsid from the Kikak-Tegoseak Quarry (North Slope, Alaska) represents a unique opportunity to add to the understanding of ceratopsian bone histology, which is poorly understood due to the minimal preservation of growth markers (e.g. lines of arrested growth) and limited histological sampling across the ceratopsian lineage. Histological analyses of eight rib fragments from P. perotorum were conducted to add to the understanding of ceratopsian growth dynamics. Cyclical growth is preserved within ribs from P. perotorum allowing for the assignment of relative ontogenetic ages. One juvenile (DMNH 23891), 4 sub-adults (DMNH 21574, DMNH 24384, DMNH 24228, and DMNH 23888), and one adult (DMNH 24237) were identified. Radial and reticular fibrolamellar bone is prevalent in juvenile and sub-adult individuals indicating P. perotorum grew rapidly during ontogeny. Dense secondary bone is widespread in adult and three sub-adult individuals, which obscures most primary bone tissue and lines of arrested growth (LAGs). The degree of remodeling is higher than that previously reported in dinosaur rib histology, and may be attributable to differences in element-specific growth rate, environmental or biomechanical stresses. However, more histological studies of P. perotorum comparing growth between different postcranial long bones are needed to constrain the controls of secondary bone within this paleo-Arctic species. Although previous studies have interpreted taphonomy of the Kikak-Tegoseak Quarry (KTQ) using sedimentological and paleontological data, less is known about the geochemical taphonomy of this assemblage. P. perotorum bone has been altered from carbonate-hydroxyapatite to carbonate fluorapatite. XRD full width half maximum (FWHM) values display narrower peak widths (0.29-0.35°) than modern bone indicating a more crystalline apatite lattice structure. ATR-FTIR infrared splitting factor (IR-SF) values in P. perotorum specimens are greater (3.3-3.6) than in modern bone indicating that apatite crystallite sizes are larger than what is typically found in non-fossil bone. Higher crystallinity is a common result in fossil bone due the growth of authigenic apatite. ATR-FTIR spectra reveal elevated carbonate due to the addition of B-type carbonate into the apatite lattice. Relative amounts of carbonate correlates with ontogeny which could reflect a biological signal, although the effect of diagenetic alteration cannot be ruled out. Based on the elevated carbonate within bones of P. perotorum, there is potentially significant diagenetic alteration of the δ18Ocarbonate signal, therefore future stable isotope studies from the KTQ P. perotorum specimens should be cautious. Determining the potential chemical alteration of the δ18Ophosphate is more difficult since crystallinity data cannot differentiate between biogenic and secondary phosphate in bone. However, depleted carbonate: phosphate ratios can indicate the addition of more phosphate and thus, potential diagenetic alteration of the δ18Ophosphate. REE spider patterns yield different patterns between P. perotorum bones, which indicates taphonomic reworking (spatial and/or temporal) due to the preservation of different redox conditions and diffusion periods between bones. This observation is surprising due to the lack of significant/variable bone weathering or abrasion. Geology Thesis Arctic north slope Paleo-Arctic Alaska TUScholarShare (Temple University) Arctic

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