Stable isotope analyses in human nutritional ecology

Schwarcz, Henry P.; Schoeninger, Margaret J.

doi:10.1002/ajpa.1330340613

Cited by 510 publications

(397 citation statements)

References 167 publications

(154 reference statements)

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“…Although used to assess whether the dietary protein carbon is derived from marine versus terrestrial sources or from C 3 or C4 plants, it is the trophic level of the protein consumed that is of interest here. Because the ␦ 15 N of bone collagen is Ϸ2‰ to Ϸ4‰ higher than dietary protein (59,60), one can use it to determine the main protein sources in the diets of cave bears, especially compared with other fauna from the same site, to see whether dietary protein derived mainly from plants, as indicated by other isotopic studies of cave bears, or from higher trophic level protein sources. Of particular relevance here, experimental work with living bears (14) has shown that bone collagen ␦ 15 N values are an accurate reflection of diet.…”

Section: Methodsmentioning

confidence: 99%

Isotopic evidence for omnivory among European cave bears: Late Pleistocene Ursus spelaeus from the Peştera cu Oase, Romania

Richards

Pacher

Stiller

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

101

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Previous bone collagen carbon and nitrogen isotopic studies of Late Pleistocene European cave bears (Ursus spelaeus) have shown that these bears frequently had low nitrogen isotope values, similar to those of herbivores and indicating either unusual physiology related to hibernation or a herbivorous diet. Isotopic analysis of animal bone from the Peştera cu Oase (Cave with Bones), Romania, shows that most of its cave bears had higher nitrogen isotope values than the associated herbivores and were, therefore, omnivorous. The Oase bears are securely identified as cave bears by both their morphology and DNA sequences. Although many cave bear populations may have behaved like herbivores, the Oase isotopic data demonstrate that cave bears were capable of altering their diets to become omnivores or even carnivores. These data therefore broaden the dietary profile of U. spelaeus and raise questions about the nature of the carnivore guild in Pleistocene Europe.carbon isotopes ͉ nitrogen isotopes ͉ diets ͉ ancient DNA L ate Pleistocene cave bear (Ursus spelaeus) diet and physiology is not well known, although based on skull, mandible, and tooth morphology, they have been inferred to have been largely herbivorous (1-4). Moreover, isotopic studies of central and western European cave bears have shown that, in most cases where their values are compared with herbivores and carnivores from the same site, they have ␦ 15 N values that plot with, or lower than, herbivores (Table 1). These dietary inferences are in the context of bears that had a period of dormancy, similar to modern black bears (Ursus americanus) and brown bears (Ursus arctos), given the abundance of hibernation nests in European caves. This pattern has been interpreted in several ways.Based Table 1), is that some cave bears were largely herbivorous, as are some modern bears, but that other cave bears were more carnivorous and hence exhibit ␦ 15 N values similar to those of many modern omnivorous U. arctos and U. americanus. In this interpretation, the variation in trophic level indicated by ␦ 15 N values would reflect ecological plasticity among U. spelaeus, in which they were more or less carnivorous depending on available food resources, body-size requirements, interspecific competition, seasonality, and temperature.Regardless of the cause, 86.1% of the available individual European adult cave bear ␦ 15 N values (n ϭ 101) are Ͻ6.0‰, and hence within the basically vegetarian range [the number rises to 95.6%, n ϭ 91 without Hilderbrand et al.'s (14) 10 specimens] (Table 1). In the context of this distribution of ␦ 15 N values, routine isotopic assessment of a cave bear metapodial associated with an early modern human cranium in the Late Pleistocene Peştera cu Oase, Caraş-Severin, southwestern [supporting information (SI) Text and SI Figs. 4 and 5], provided an anomalously high ␦ 15 N value of 7.8‰ (SI Table 2, Oase O34-232). To further evaluate this result and address the cause of the generally low cave bear ␦ 15 N values, we measured the isotope values of c...

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Section: Methodsmentioning

confidence: 99%

Isotopic evidence for omnivory among European cave bears: Late Pleistocene Ursus spelaeus from the Peştera cu Oase, Romania

Richards

Pacher

Stiller

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

101

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“…Carbon and nitrogen stable isotope ratios of adult human bone collagen are indicators of the main sources of dietary protein consumed over a number of years (20,21). Carbon isotope ratios (␦ 13 C values) can indicate if the source of dietary protein was from marine resources or terrestrial resources (22,23), as there is an Ϸ7 per mil (‰) shift between dissolved ocean bicarbonate and atmospheric carbon dioxide (the main respective sources of carbon for plants in each ecosystem) (24,25).…”

mentioning

confidence: 99%

Isotopic evidence for the diets of European Neanderthals and early modern humans

Richards

Trinkaus

2009

Proc. Natl. Acad. Sci. U.S.A.

309

168

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We report here on the direct isotopic evidence for Neanderthal and early modern human diets in Europe. Isotopic methods indicate the sources of dietary protein over many years of life, and show that Neanderthals had a similar diet through time (Ϸ120,000 to Ϸ37,000 cal BP) and in different regions of Europe. The isotopic evidence indicates that in all cases Neanderthals were top-level carnivores and obtained all, or most, of their dietary protein from large herbivores. In contrast, early modern humans (Ϸ40,000 to Ϸ27,000 cal BP) exhibited a wider range of isotopic values, and a number of individuals had evidence for the consumption of aquatic (marine and freshwater) resources. This pattern includes Oase 1, the oldest directly dated modern human in Europe (Ϸ40,000 cal BP) with the highest nitrogen isotope value of all of the humans studied, likely because of freshwater fish consumption. As Oase 1 was close in time to the last Neanderthals, these data may indicate a significant dietary shift associated with the changing population dynamics of modern human emergence in Europe.Europe ͉ isotopes ͉ collagen ͉ fishing

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“…Subsequently, interpretation of d 18 O and dD values in organic tissue samples becomes even more complicated when applied to modern human populations. 17 Isotopic analyses have a rich history in the human anthropological literature; [23][24][25][26][27] including the use of inorganic 18 O from teeth and bone to track past human movements. 28,29 Studies of modern humans are confined to organic tissues that can be non-invasively sampled (e.g.…”

mentioning

confidence: 99%

Tracking human travel using stable oxygen and hydrogen isotope analyses of hair and urine

O’Brien

Wooller

2007

Rapid Comm Mass Spectrometry

106

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Stable isotope analyses in human nutritional ecology

Cited by 510 publications

References 167 publications

Isotopic evidence for omnivory among European cave bears: Late Pleistocene Ursus spelaeus from the Peştera cu Oase, Romania

Isotopic evidence for omnivory among European cave bears: Late Pleistocene Ursus spelaeus from the Peştera cu Oase, Romania

Isotopic evidence for the diets of European Neanderthals and early modern humans

Tracking human travel using stable oxygen and hydrogen isotope analyses of hair and urine

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