Abstract

Improving our knowledge of subsistence strategies and food processing techniques of past societies is of prime interest for better understanding human cultures as well as multiple aspects of human evolution. Beyond the simple matter of food itself, a substantial portion of socio-economic behavior is expressed in what, how, when, and with whom we eat. Over the last few decades, diverse methodologies for the analysis and interpretation of cut marks have progressively provided new insights for past butchery practices. For example, a recent study of the production of antelope biltong in South Africa concluded that the drying of meat generates high frequencies of longitudinal cut marks. This paper presents a cut mark analysis of faunal remains recovered by Lewis Binford from 8 campsites occupied by Nunamiut groups from the end of 19th to middle of the 20th century in the area around Anaktuvuk Pass, Alaska. The preparation of meat—primarily from caribou (Rangifer tarandus)–varied at these sites according to the season of occupation and was, depending on the site, either immediately consumed, processed after being stored in ice-cellars, or dried and stored. These faunal assemblages therefore provide a unique opportunity to explore the material traces of different meat preparation and preservation techniques in order to identify whether specific patterns can be identified and subsequently used to explore subsistence practices in the past. Binford’s Nunamiut faunal assemblages, which were produced by individuals using traditional techniques and methods, were analyzed in order to 1) further test the hypothesis that meat drying produces high frequencies of longitudinal cut marks, 2) explore the common assumption that skilled butchers leave smaller numbers of cut marks on bones compared to less experienced individuals, and 3) test whether cut mark patterns vary as a function of the processing techniques employed. The introduction of a %cutL index represents a quicker alternative to geo-referencing cut marks on bones when exploring meat processing techniques and methods and can easily be integrated in zooarchaeological analyses. While the results obtained support processing techniques linked to meat drying to leave high numbers of longitudinal cut marks, they are inconsistent with cut mark frequencies varying as a function of the butcher’s skill and experience. Analyzing cut mark patterns is therefore a reliable means for exploring food processing by past human societies and, by extension, their methods for safeguarding against unfavorable seasonal variations in both the abundance and condition of prey species. Identifying food storage in the archaeological record equally provides a unique window on to the social dynamics and potential inequalities of past societies.

Highlights

  • Better documenting subsistence strategies and associated techniques for the processing of vegetal and animal resources is essential for better understanding the specificities of human cultures

  • Food processing is a key aspect for research on human evolution as it has been demonstrated that cooking food increases its overall energy content and digestibility while reducing bacterial growth and broadens the spectrum of edible foods [1,2,3,4,5,6]

  • Intra-group disparities in food storage may underlie the emergence of social inequalities [for a discussion see 8, 10] or, at the very least, are intimately connected to the appearance of complex social relations

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Summary

Introduction

Better documenting subsistence strategies and associated techniques for the processing of vegetal and animal resources is essential for better understanding the specificities of human cultures. For societies that rely on the hunting of migratory species, storing surplus food helps secure against lean periods when prey is either fat-depleted and/or absent from the immediate environment This is the case for present day populations inhabiting (sub-)arctic contexts where plant consumption is limited by a short growing season and the diet is almost entirely based on the intake of animal protein. Dried meat is transported, as drying significantly reduces its weight and size [14], whereas the use of ice-cellars or other types of frozen storage, such as lakes, means returning to the storage site and represents a constraint in the mobility system In addition to these logistical aspects, storage plays an important social function. Intra-group disparities in food storage may underlie the emergence of social inequalities [for a discussion see 8, 10] or, at the very least, are intimately connected to the appearance of complex social relations

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