Probing dietary change of the Kwädąy Dän Ts'ìnchį individual, an ancient glacier body from British Columbia: I. Complementary use of marine lipid biomarker and carbon isotope signatures as novel indicators of a marine diet

Corr, Lorna T.; Richards, Michael P.; Jim, Susan; Ambrose, Stanley H.; Mackie, Adam; Beattie, Owen; Evershed, Richard P.

doi:10.1016/j.jas.2008.01.018

Cited by 45 publications

(21 citation statements)

References 47 publications

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“…They are most possibly degradation 747 products of chlorophyll (e.g. Rontani and Volkmann, 2003), but what is noteworthy, both these 748 compounds are constituents of marine and fresh-water fish oils (Corr et al, 2008). 749 Surprisingly, despite their old age, the coprolites contain sterols.…”

Section: Arthropod Remains 696mentioning

confidence: 99%

Coprolites of Late Triassic carnivorous vertebrates from Poland: An integrative approach

Zatoń

Niedźwiedzki

Marynowski

et al. 2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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Vertebrate coprolites derived from the Upper Triassic terrestrial deposits of southern Poland have been subjected for various analytical methods in order to retrieve the information about their composition, potential producer's diet and nature of the preserved microbial structures. Morphologically, they have been classified to four morphotypes, of which only three were further analysed due to their good state of preservation. Their groundmass occurred to be composed by francolite, a carbonate-rich apatite, in which abundant coccoid structures are preserved. Based on various microscopic and organic geochemical techniques, they are interpreted as fossilized bacteria which could have mediated the phosphatization of the faeces. The thin sectioning revealed that the coprolites consist of those containing exclusively bone remains, and those preserving both bone and plant remains. Those coprolites preserving only vertebrate remains are suggestive for exclusive carnivorous diet of the producers. However, the interpretation of coprolites consisting of both vertebrate and plant remains is more debatable. Although they may attest for omnivory, it is not excluded that potential producers were carnivorous which occasionally ingested plants, or accidentally swallowed plant material during feeding. The latter may involve predation or scavenging upon other herbivorous animals which used to fed on plants. It is not excluded that the potential producers may have been animals that foraged in or near aquatic habitats, such as semi-aquatic archosaurs and/or temnospondyls, what is supported by the presence of ostracode remain and fish scales within the coprolites, as well as by the presence of such specific biomarkers as phytanic and pristanic acids, which are characteristic constituents of fish oil. The preservation of such labile organic compounds as sterols, palmitin, stearin or levoglucosan attests for mineralization of the faeces on very early stages of diagenesis. The article concerns the study of coprolites derived from the Upper Triassic, bonebearing deposits of southern Poland. For the first time we used integrative approach combining various analytical methods (transmission-light microscopy, scanning electron microscopy, transmission electron microscopy, scanning transmission x-ray microscopy, Xray absorption near edge structure, electron microprobe analysis, XRD, inorganic and organic geochemistry, palynology) in order to decipher various problems concerning the coprolites, including the coprolite composition, the producers' diet, the nature of the coprolite groundmass and microbial consortia preserved. Thus, to our knowledge, this paper is the first of such a kind ever published and may be a reference article to other research concerning paleobiology of coprolites. As recently the journal published several papers concerning coprolites and related papers, we think that the submitted article fits well the journal scope and would also be often cited in the future. Therefore, we hope the paper will be considered for...

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Section: Arthropod Remains 696mentioning

confidence: 99%

Coprolites of Late Triassic carnivorous vertebrates from Poland: An integrative approach

Zatoń

Niedźwiedzki

Marynowski

et al. 2015

Palaeogeography, Palaeoclimatology, Palaeoecology

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“…The isotopic composition along a strand of preserved hair provided a less robust dietary signature due to its fragmentary nature, pointing towards a possible shift towards a more terrestrial/freshwater dietary profile in the last year of life (Richards et al, 2007). Both the molecular and carbon isotopic composition of individual lipids extracted from skin and bone samples indicated a diet dominated by marine foods (bone lipids) in the last year of life followed by a transition to a more terrestrial diet in the very latter period (skin lipids; Corr et al, 2008). In order to validate this conclusion, the objective here was to concentrate on protein amino acids in the bone and skin, as a further means of comparing long-term (bone: 10-30 years; Rucklidge et al, 1992) and short-term diet (skin: months; Gerber and Altman, 1960).…”

Section: Introductionmentioning

confidence: 99%

Probing dietary change of the Kwädąy Dän Ts'ìnchį individual, an ancient glacier body from British Columbia: II. Deconvoluting whole skin and bone collagen δ13C values via carbon isotope analysis of individual amino acids

Corr

Richards

Grier

et al. 2009

Journal of Archaeological Science

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Section: Fatty Acids In Archaeological Skeletal and Soft Tissue Remaimentioning

confidence: 99%

“…This is mainly due to the apparently low survival rates of bone fatty acids in the archaeological record; fatty acids only seem to be preserved in significant abundances under exceptional burial environments, for example arid, waterlogged and frozen sites (Evershed and Connolly 1987;Mayer et al 1997;Copley et al 2004;Corr et al 2008). In a recent study (Corr et al 2008(Corr et al , 2009) the male remains of a preserved ice body recovered from a retreating glacier in the Tatshenshini-Alsek Park, British Columbia in August 1999 were investigated. Studies on rats and pigs raised on isotopically controlled diets have shown that bone fatty acid d 13 C values are 13 C-depleted by up to 3.4 % with respect to whole diet (Jim 2000;Jim et al 2001Jim et al , 2003bHowland et al 2003).…”

Section: Fatty Acids In Archaeological Skeletal and Soft Tissue Remaimentioning

confidence: 99%

“…mono-, di-and triacylglycerols, which are rather non-specific biomakers and thus present considerable challenges to identifying their origins (Condamin et al 1975;Passi et al 1981;Rottländer and Schlichtherle 1983;Patrick et al 1985;Rottlander 1990;Evershed et al, 1991). Moreover, the co-occurring lipid constitutents of skeletal and soft tissues hold considerable untapped potential to enhance studies of ancient diet (Stott and Evershed 1996;Howland et al 2003;Jim et al 2004;Corr et al 2008). While collagen is widely exploited for its bulk stable isotope signature in the reconstruction of ancient human diet there is now considerable evidence that additional information exists in its constituent amino acids (Tuross et al 1998;Corr et al 2005Corr et al , 2009Fogel and Tuross 2003;Jim et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

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Compound‐specific Stable Isotopes in Organic Residue Analysis in Archaeology

Evershed

2009

Organic Mass Spectrometry in Art and Archaeology

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Probing dietary change of the Kwädąy Dän Ts'ìnchį individual, an ancient glacier body from British Columbia: I. Complementary use of marine lipid biomarker and carbon isotope signatures as novel indicators of a marine diet

Cited by 45 publications

References 47 publications

Coprolites of Late Triassic carnivorous vertebrates from Poland: An integrative approach

Coprolites of Late Triassic carnivorous vertebrates from Poland: An integrative approach

Probing dietary change of the Kwädąy Dän Ts'ìnchį individual, an ancient glacier body from British Columbia: II. Deconvoluting whole skin and bone collagen δ13C values via carbon isotope analysis of individual amino acids

Compound‐specific Stable Isotopes in Organic Residue Analysis in Archaeology

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