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Journal article
Machine learning ATR-FTIR spectroscopy data for the screening of collagen for ZooMS analysis and mtDNA in archaeological bone
Faunal remains from archaeological sites allow for the identification of animal species that enables the better understanding of the relationships between humans and animals, not only from their morphological information, but also from the ancient biomolecules (lipids, proteins, and DNA) preserved in these remains for thousands and even millions of... -
Journal article
Matrilines in Neolithic cattle from Orkney, Scotland reveals complex husbandry patterns of ancestry
mtDNA, isotopic and archaeozoological analyses of cattle teeth and bones from the Late Neolithic site of Links of Noltland, Orkney, Scotland revealed these animals followed similar grazing regimes but displayed diverse genetic origins and included one cattle skull that carried an aurochs (wild cattle) genetic haplotype. Morphometric analyses indicate the...Fraser, Sheena ; Elsner, Julia ; Hamilton, W Derek ; Sayle, Kerry L ; Schlumbaum, Angela …
Proteomics, Cetaceans, Marine mammals, Pinnipeds, Archaeological collagen, ZooMS, and Species identification
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Journal article
Corrigendum to “Species identification of archaeological marine mammals using collagen fingerprinting” [YJASC 41 (2014) 631–641]
Throughout human history, coastal and marine resources have been a vital part of human subsistence. As a result archaeological faunal assemblages from coastal sites often contain large quantities of skeletal remains indicative of human interaction with marine mammals. However, these are often hard to identify due to a unique combination...Buckley, M ; Fraser, S ; Herman, Jeremy S ; Melton, N D ; Mulville, J …
Proteomics, Cetaceans, Marine mammals, Pinnipeds, Archaeological collagen, ZooMS, and Species identification
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Journal article
Species identification of voles and lemmings from Late Pleistocene deposits in Pin Hole Cave (Creswell Crags, UK) using collagen fingerprinting
Microfaunal remains are commonly used as palaeoenvironmental proxies and have been proposed as a means to identify relative ages of Late Quaternary deposits through biostratigraphy (i.e., utilising ‘Mammal Assemblage Zones’). However, assemblages of faunal remains can include a diverse range of taxa which are often difficult to distinguish using morphological... -
Journal article
Species identification of archaeological marine mammals using collagen fingerprinting
Throughout human history, coastal and marine resources have been a vital part of human subsistence. As a result archaeological faunal assemblages from coastal sites often contain large quantities of skeletal remains indicative of human interaction with marine mammals. However, these are often hard to identify due to a unique combination...Buckley, M ; Fraser, S ; Herman, Jeremy S ; Melton, N D ; Mulville, J …
Proteomics, Cetaceans, Marine mammals, Pinnipeds, Archaeological collagen, ZooMS, and Species identification
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Journal article
Preserved collagen reveals species identity in archaeological marine turtle bones from Caribbean and Florida sites
Advancements in molecular science are continually improving our knowledge of marine turtle biology and evolution. However, there are still considerable gaps in our understanding, such as past marine turtle distributions, which can benefit from advanced zooarchaeological analyses. Here, we apply collagen fingerprinting to 130 archaeological marine turtle bone samples up...