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The organic signature of an experimental meat-cooking fireplace: The identification of nitrogen compounds and their archaeological potential.

Authors :
Lejay, Mathieu
Alexis, Marie A.
Quénéa, Katell
Anquetil, Christelle
Bon, François
Source :
Organic Geochemistry. Dec2019, Vol. 138, pN.PAG-N.PAG. 1p.
Publication Year :
2019

Abstract

• %Corg and %N reflect significant inputs of OM in sediments during fireplace operation. • Lipids and bulk OM mark the use of wood as fuel and the involvement of animal OM. • Distinction between meat-cooking and bone-fueled fireplaces is possible. • N-compounds are characteristic of culinary use. A better understanding of the operation and use of prehistoric fires is fundamental to interpreting the organization of living spaces. Following a previous study that focused on the organic signatures of fireplaces fueled with wood and/or bones, this study targeted the completion of an experimental reference database through the addition of a wood-fueled fireplace dedicated to the cooking of meat. Different sedimentary features of this experimental fireplace were visually identified (e.g. darkening, reddening), sampled, and subjected to geochemical analysis. Corg and N contents were quantified, samples were extracted with organic solvents and analyzed through GC–MS and bulk organic matter was characterized through py(TMAH)-GC–MS. Five different samples were studied and compared with a control sample, representative of the local background. A significant increase of Corg and N contents was measured for the three samples presenting darkened or charred caracteristics. The meat-cooking fireplace seems to be characterized by the strong contribution of nitrogen, which was visible in elementary analyses as well as in the molecular composition of solvent extracts, and bulk organic matter. More specifically, compounds containing nitrile functions, amides, N-heterocyclic and N-aromatic compounds could be detected in solvent extracts. Amines, amides, N-heterocyclic and N-aromatic compounds could be identified in py(TMAH)-GC–MS. Some of these compounds present a relative stability in soils and could therefore aid in our comprehension and functional interpretations of archaeological fireplaces, and may, more particularly, make it possible to highlight the use of fireplaces for the cooking of meat. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01466380
Volume :
138
Database :
Academic Search Index
Journal :
Organic Geochemistry
Publication Type :
Academic Journal
Accession number :
139630645
Full Text :
https://doi.org/10.1016/j.orggeochem.2019.103923