The molecules of meals: new insight into Neolithic foodways

IF 0.3 3区 社会学 0 HUMANITIES, MULTIDISCIPLINARY
J. Smyth, R. Evershed
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引用次数: 15

Abstract

Abstract:AbstractDetails of daily life such as food and drink can be difficult to capture in prehistory, especially on an island with a temperate climate and covered mainly by acidic soils: plant remains will only survive through charring or water-logging, whilst animal bone frequently dissolves unless calcined. At the molecular level, however, a host of biochemical and isotopic signatures exist indicating what our prehistoric antecedents ate and drank. The most robust of these biomarkers are lipids, commonly found absorbed into the clay matrix of pottery vessels—the residues of meals sometimes many thousands of years old. The wet, acidic conditions that accelerate the decay of so much prehistoric organic matter fortunately preserve these lipid residues exceedingly well. This paper details the results of a recent programme of molecular and compound-specific stable isotope analysis on lipids from nearly 500 Irish Neolithic vessels, providing unparalleled insights into the diet, and food procurement and processing activities of our earliest farming communities.
食物的分子:对新石器时代食物方式的新见解
摘要:在史前时期,人们很难捕捉到日常生活的细节,比如食物和饮料,尤其是在一个气候温和、主要被酸性土壤覆盖的岛屿上:植物遗骸只能通过炭化或淹水存活下来,而动物骨头除非经过煅烧,否则往往会溶解。然而,在分子水平上,存在大量的生化和同位素特征,表明我们的史前祖先吃了什么和喝了什么。这些生物标志物中最强大的是脂质,通常被吸收到陶器的粘土基质中——有时是数千年前食物的残留物。潮湿、酸性的环境加速了这么多史前有机物的腐烂,幸运的是,这些脂质残留物保存得非常好。本文详细介绍了最近对近500个爱尔兰新石器时代容器的脂质进行分子和化合物特异性稳定同位素分析的结果,为我们最早的农业社区的饮食、食品采购和加工活动提供了无与伦比的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.40
自引率
9.10%
发文量
18
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