Searching for long-term trends in prehistoric manuring practice. δ15N analyses of charred cereal grains from the 4th to the 1st millennium BC

Current concepts of prehistoric manuring are founded on limited and mainly circumstantial evidence, giving rise to much ambiguity with respect to the onset of systematic use of manure to enhance cereal production. This paper reports carbon (C) and nitrogen (N) contents and isotopic compositions (delta C-13, delta N-15) of charred grains of naked barley, emmer and spelt dating to the first four millennia of early agriculture in Denmark. The delta N-15 values ranged from c. 0.5 parts per thousand-5.5 parts per thousand, 0.5 parts per thousand-6.0 parts per thousand and 1.5 parts per thousand-8 parts per thousand for spelt, emmer and naked barley, respectively. This study represents the until now most comprehensive investigation of long term trends in delta N-15 values of charred cereal grains, which previous research have proposed as an indicator for prehistoric manuring practice. Our study suggests a long-term (3900-500 BC) decrease of manuring intensity in emmer cropping. Conversely the long-term (2300 BC AD 1) trend for naked barley cropping displays a more distinct and significant increase (+2 parts per thousand) in grain delta N-15 values, reflecting an increased manuring intensity with an average delta N-15 value of as high as 6 parts per thousand. We interpret this trend as indicating the initiation of a more intensive and systematic manuring practice associated with cultivation of barley in the Early Iron Age (500 BC-0). Although the isotopic signal ascribed to manuring was (somewhat) variable, the relative manuring effect was detected throughout the chronological continuum being investigated. Further, we observed that the conventional sample pre-treatment (acid-base-acid) induced an average delta N-15 offset of 0.7 parts per thousand (pre-treated sample > non pre-treated sample). This has not previously been reported. Methodological advancements are needed to remedy this issue and provide consensus about appropriate pretreatment of grain samples from archaeological sites. We conclude that N-isotope analysis of charred cereal grains constitutes a new and direct source of information about prehistoric manuring practice. (C) 2013 Elsevier Ltd. All rights reserved.