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Intensification in Pastoralist Cereal Use Coincides with the Expansion of Trans-regional Networks in the Eurasian Steppe

Overview
Journal Sci Rep
Specialty Science
Date 2019 Jun 12
PMID 31182719
Citations 12
Authors
Alicia R Ventresca Miller
Cheryl A Makarewicz
Affiliations
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Abstract

The pace of transmission of domesticated cereals, including millet from China as well as wheat and barley from southwest Asia, throughout the vast pastoralist landscapes of the Eurasian Steppe (ES) is unclear. The rich monumental record of the ES preserves abundant human remains that provide a temporally deep and spatially broad record of pastoralist dietary intake. Calibration of human δC and δN values against isotope ratios derived from co-occurring livestock distinguish pastoralist consumption of millet from the products of livestock and, in some regions, identify a considerable reliance by pastoralists on C crops. We suggest that the adoption of millet was initially sporadic and consumed at low intensities during the Bronze Age, with the low-level consumption of millet possibly taking place in the Minusinsk Basin perhaps as early as the late third millennium cal BC. Starting in the mid-second millennium cal BC, millet consumption intensified dramatically throughout the ES with the exception of both the Mongolian steppe where millet uptake was strongly delayed until the end of first millennium cal BC and the Trans-Urals where instead barley or wheat gained dietary prominence. The emergence of complex, trans-regional political networks likely facilitated the rapid transfer of cultivars across the steppe during the transition to the Iron Age.

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References
1.
Stevens C, Murphy C, Roberts R, Lucas L, Silva F, Fuller D . Between China and South Asia: A Middle Asian corridor of crop dispersal and agricultural innovation in the Bronze Age. Holocene. 2016; 26(10):1541-1555. PMC: 5125436. DOI: 10.1177/0959683616650268. View
2.
Van der Merwe N, Vogel J . 13C content of human collagen as a measure of prehistoric diet in woodland North America. Nature. 1978; 276(5690):815-6. DOI: 10.1038/276815a0. View
3.
Schoeninger M . Stable isotope evidence for the adoption of maize agriculture. Curr Anthropol. 2010; 50(5):633-40. DOI: 10.1086/605111. View
4.
Ambrose S, DeNiro M . The isotopic ecology of East African mammals. Oecologia. 2017; 69(3):395-406. DOI: 10.1007/BF00377062. View
5.
Koch P, Heisinger J, Moss C, Carlson R, Fogel M, Behrensmeyer A . Isotopic tracking of change in diet and habitat use in african elephants. Science. 1995; 267(5202):1340-3. DOI: 10.1126/science.267.5202.1340. View