From Meroitic to Christian times (350 B.C.-A.D. 1400), Sudanese Nubia experienced political, economic, cultural, and environmental upheaval. Change in any one of these aspects of ancient lifeways can affect subsistence. Dietary patterns from this period are reconstructed by measuring stable carbon and nitrogen isotope ratios in tissue samples from 146 mummies excavated from five sites in the Wadi Halfa area. On average, delta 13C values of bone collagen, muscle, and skin indicate high consumption levels of C3 plants (presumably wheat or barley staples, mixed vegetables, and fruits) throughout the sequence. However, during the X-Group period (A.D. 350-550), there is a statistically significant increase in consumption of C4 plants (millet or sorghum), which are predominant in both the archeological record and in modern crop production for most of the Northern Sudan. The X-Group period was also associated with a low Nile and political and economic restructuring. Increased use of C4 plants on a seasonal basis is also indicated by shifting delta 13C values along hair shafts for both X-Group and Christian periods. delta 15N values suggest that the major source of protein for all time periods came from herbivorous animals. A small, but significant increase in 15N over the 1,000-year sequence could be the result of fertilization.
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To investigate geographic origins of the sacrificial Burials 2–5 from the Moon Pyramid at Teotihuacan and to reconstruct changes in residence since their childhoods, we analyzed tooth enamel for oxygen- and strontium-isotope ratios and bone just for oxygen-isotope ratios. The combination of these analytical techniques involves both climatic and geological variables, therefore enhancing resolution of geographic identification. Most of the sacrificed individuals appear to have been born in a foreign location. These regions probably include other areas within the Basin of Mexico and the central highlands, as well as the Gulf Coast and the Sierra Madre del Sur. Other possible regions of origin are the southern highlands, the Motagua Valley, and the Maya Lowlands. There is considerable overlap in the oxygen-isotope ratios between the Moon Pyramid and Feathered Serpent Pyramid victims, but each structure contains a group of isotopically distinct individuals. The Moon Pyramid sacrifices include some individuals with high oxygen-isotope ratios, possibly indicating the Gulf Coast or Maya Lowlands, whereas the Feathered Serpent Pyramid contains a distinct group with very low oxygen-isotope ratios, possibly indicating Oaxaca, Michoacan, or the coastal plain and piedmont of Guatemala. The sacrifices in the two pyramids also differ in their patterns of movement. Most of the Moon Pyramid victims appear to have arrived in the city recently, but the majority of those from the Feathered Serpent Pyramid had lived in Teotihuacan for a long time before their death.
The development of isotopic baselines for comparison with paleodietary data is crucial, but often overlooked. We review the factors affecting the carbon (δ13C) and nitrogen (δ15N) isotopic compositions of plants, with a special focus on the carbon and nitrogen isotopic compositions of twelve different species of cultivated plants (n = 91) and 139 wild plant species collected in northern Peru. The cultivated plants were collected from nineteen local markets. The mean δ13C value for maize (grain) was −11.8±0.4 ‰ (n = 27). Leguminous cultigens (beans, Andean lupin) were characterized by significantly lower δ15N values and significantly higher %N than non-leguminous cultigens. Wild plants from thirteen sites were collected in the Moche River Valley area between sea level and ∼4,000 meters above sea level (masl). These sites were associated with mean annual precipitation ranging from 0 to 710 mm. Plants growing at low altitude sites receiving low amounts of precipitation were characterized by higher δ15N values than plants growing at higher altitudes and receiving higher amounts of precipitation, although this trend dissipated when altitude was >2,000 masl and MAP was >400 mm. For C3 plants, foliar δ13C was positively correlated with altitude and precipitation. This suggests that the influence of altitude may overshadow the influence of water availability on foliar δ13C values at this scale.
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