Abstract
Maintaining soil health is integral to agricultural production, and the archaeological record contains multiple lines of palaeoclimatic and palaeoenvironmental proxy evidence that can contribute to the understanding and analysis of long-term trajectories of change that are key for contextualizing 21st century global environmental challenges. Soil is a capital resource and its nutrient balance is modified by agricultural activities, making it necessary to ensure soil productivity is maintained and managed through human choices and actions. Since prehistory this has always been the case; soil is a non-renewable resource within a human lifetime. Here, we present and interpret carbon and nitrogen isotope analysis of charred cereals from southern Scandinavia. Anthropogenic effects on soils are evident from the initiation of farming 6000 years ago, as is amendment to counteract its effects. The earliest cereals were planted on pristine soils, and by the late Neolithic, agriculture extensified. By the Iron Age it was necessary to significantly amend depleted soils to maintain crop yields. We propose that these data provide a record of soil water retention, net precipitation and amendment. From the start of the Neolithic there is a concurrent decrease in both Δ13C and δ15N, mitigated only by the replacement of soil organic content in the form of manure in the Iron Age. The cereal isotopes provide a record of trajectories of agricultural sustainability and anthropogenic adaptation for nearly the entire history of farming in the region.
Highlights
These features are impacted by anthropogenic land use (Environment Agency 2019) and it has posed a significant research challenge to assess how prehistoric agricultural practices impacted soil health and productivity
We present and interpret carbon and nitrogen isotope analysis of 327 samples of charred cereals from archaeological sites across southern Scandinavia, and interpret these together with previously published data to assess the long-term impact of agrarian practices on soil health from the Neolithic to the early Medieval period
Each cereal grain was crushed to a powder and analyzed using a Costech Elemental Analyser (ECS 4010) attached to a Thermo Scientific Delta V Advantage IRMS in the Stable Isotope Biogeochemistry Laboratory (SIBL) operated by the Department of Earth Sciences, Durham University
Summary
Isotopic analyses of cereal grains permit the evaluation of past crop husbandry practices, including the application of manure and various watering regimes (Bogaard et al, 2013; Wallace et al, 2014), as well as recording broad-scale factors, such as changes in climate and environment (Ferrio et al, 2005; Fiorentino et al, 2015). We present and interpret carbon and nitrogen isotope analysis of 327 samples of charred cereals from archaeological sites across southern Scandinavia, and interpret these together with previously published data to assess the long-term impact of agrarian practices on soil health from the Neolithic to the early Medieval period
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