Can X-ray Diffraction Distinguish Natural from Anthropogenic Hematite? Replication of the Conversion of Natural Goethite in Both Furnace and Campfire

Colorants Pub Date : 2022-09-06 DOI:10.3390/colorants1030022

Jules C. Picuri, Julia M. Natoli, S. E. Shaw, Shruthi P. Shyam, Stephen R. VanHoesen, Zhenyu Lin, W. J. Bowyer

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Abstract

Hematite, the mineral that gives color to bright red iron ochres, occurs naturally, but there is much evidence that early humans sometimes artificially produced hematite by heating a related mineral, goethite, in wood fires. This represents an important cognitive and technological advance in early human prehistory. Thus, there is a need to distinguish natural hematite from hematite generated by heating goethite in a wood fire. Measuring the line widths of powder X-ray diffraction (XRD) in hematite has been explored, and synthetic goethite heated in a modern furnace has been used as a model system for studying this process. We now show that to be an inappropriate model. Although chemically identical, natural goethite is physically different from and much more variable than goethite produced in a laboratory. Furthermore, by replicating the process using Stone Age technology, we show that heating goethite in a wood fire complicates the interpretation of XRD line widths of the resulting hematite. We conclude that strategies other than powder XRD are necessary to draw conclusions about the ancient processing of iron ochres.

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x射线衍射能否区分天然赤铁矿和人为赤铁矿?天然针铁矿在炉内和营火中转化的复制

赤铁矿是一种赋予鲜红色铁赭石颜色的矿物，它是天然存在的，但有很多证据表明，早期人类有时会通过在柴火中加热一种相关矿物针铁矿来人工生产赤铁矿。这代表了人类史前早期重要的认知和技术进步。因此，有必要区分天然赤铁矿和在柴火中加热针铁矿产生的赤铁矿。探讨了赤铁矿粉末x射线衍射(XRD)线宽的测量方法，并以现代炉加热的合成针铁矿为模型系统研究了这一过程。我们现在证明这是一个不合适的模型。虽然化学性质相同，但天然针铁矿在物理上与实验室生产的针铁矿不同，而且比实验室生产的针铁矿变化更大。此外，通过使用石器时代技术复制这一过程，我们发现，在柴火中加热针铁矿会使所得赤铁矿的XRD线宽解释变得复杂。我们认为，除了粉末XRD之外，还需要其他方法来得出铁赭石古代加工的结论。

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Colorants

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