![]() ![]() In Dordogne (France), decreasing horse and reindeer d15Ncoll values coeval to decreasing horse d18Obp values between the Aurignacian and the Early Gravettian periods reflected a clear change in the environment, while no contrast in d15Ncoll values was observed between the Early and Final Gravettian at the Abri Pataud. This decline could be tentatively explained by human pressure through hunting. Thus, we hypothesize that during the Aurignacian and Gravettian, the ecological niche of mammoth was intact but not occupied intensively by mammoths due to a decline in their population. This unusual pattern was already occurring during the Aurignacian, while the oxygen-18 abundances in bone phosphate (d18Obp) of horse and reindeer were unchanged between Aurignacian and Gravettian periods, which rules out significant change in environmental and climatic conditions. ![]() During the Aurignacian and Gravettian occupation at Geißenkl€osterle in the Ach Valley (Germany), the mammoths had the expected stable isotope signature, but the nitrogen-15 of horses showed an unexpected overlap with those of the mammoth. The abundances of carbon-13 in mammoth collagen are comparable to those of other grazers like horse (Equus sp.), while the nitrogen-15 abundances are significantly higher (about 3‰) than in the other herbivores, either horse or reindeer (Rangifer tarandus). The specificity of the ecological niche occupied by the woolly mammoth is clearly reflected by their collagen 13C and 15N abundances (d13Ccoll and d15Ncoll), measured on skeletal remains of the typical mammoth steppe. However, decreasing genetic diversity and increasing indications of nutritional stress point to a likely decline of this megaherbivore. ![]() Its contribution to human subsistence during the Gravettian period as source of raw material was documented in southwestern France and southwestern Germany, with some evidence of active hunting in the latter region. The woolly mammoth (Mammuthus primigenius) was an emblematic and key species of the so-called mammoth steppe ecosystem between ca. Significant contrasts in δ34Scoll values were found between the Dordogne and the Ach Valley for the same herbivores species, which confirms the potential of sulphur-34 in collagen as a mobility tracker. The direct dating and sulphur-34 measurement on the ivory of the Early Gravettian at Pataud showed that almost all of them were of contemporaneous and local origin. The mammoth of Dordogne yielded slightly higher δ15Ncoll values than expected, probably as a consequence of the nursing effect since all the analyzed samples were ivory instead of bone. In Dordogne (France), decreasing horse and reindeer δ15Ncoll values coeval to decreasing horse δ18Obp values between the Aurignacian and the Early Gravettian periods reflected a clear change in the environment, while no contrast in δ15Ncoll values was observed between the Early and Final Gravettian at the Abri Pataud. This unusual pattern was already occurring during the Aurignacian, while the oxygen-18 abundances in bone phosphate (δ18Obp) of horse and reindeer were unchanged between Aurignacian and Gravettian periods, which rules out significant change in environmental and climatic conditions. During the Aurignacian and Gravettian occupation at Geißenklösterle in the Ach Valley (Germany), the mammoths had the expected stable isotope signature, but the nitrogen-15 of horses showed an unexpected overlap with those of the mammoth. The specificity of the ecological niche occupied by the woolly mammoth is clearly reflected by their collagen 13C and 15N abundances (δ13Ccoll and δ15Ncoll), measured on skeletal remains of the typical mammoth steppe. ![]()
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