用X射线荧光检测伯利兹古代玛雅花岗岩磨石

IF 1.4 3区地球科学 0 ARCHAEOLOGY

Geoarchaeology-An International Journal Pub Date : 2023-01-01 DOI:10.1002/gea.21944

Tawny L. B. Tibbits, Meaghan M. Peuramaki-Brown, Marieka Brouwer Burg, Matthew A. Tibbits, Eleanor Harrison-Buck

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引用次数: 1

摘要

虽然在中美洲的古玛雅遗址中随处可见，但考古分析人士经常忽视磨石工具的解释潜力。古玛雅人经常用粗粒、不均匀的材料制造这些沉重、笨重的工具，这些材料很难从化学上获得，不像黑曜石。本文介绍了手持式能量色散X射线荧光（XRF）在由花岗岩（一种非均质、透明的石头）组成的来源地石文物（工具和建筑砌块）中的应用。我们提出了一种多组分方法，通过岩相显微镜、传统的实验室XRF和便携式XRF装置独立测试全岩、薄片和粉末样品，产生了可比的结果。在为伯利兹三个地理位置受限的花岗岩深成岩体建立了不同的地球化学特征后，我们设计了一种基于现场的XRF在全岩上的应用，该应用可以以足够的准确性和可靠性复制实验室XRF在粉末材料上的成分读数。我们将这种多焦XRF技术应用于伯利兹各地一系列古玛雅遗址的花岗岩磨石项目；我们在这里讨论两个具体的案例研究。我们的研究结果强调了多光谱XRF应用于确定粗粒、非均质岩石材料来源的广泛潜力。这些结果有助于将基石项目的一维功能解释推向其社会和意识形态维度，同时加深对花岗岩资源管理的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Using X-ray fluorescence to examine ancient Maya granite ground stone in Belize

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Using X-ray fluorescence to examine ancient Maya granite ground stone in Belize

While ubiquitous among ancient Maya sites in Mesoamerica, archaeological analysts frequently overlook the interpretive potential of ground stone tools. The ancient Maya often made these heavy, bulky tools of coarse‐grained, heterogeneous materials that are difficult to chemically source, unlike obsidian. This paper describes an application of handheld, energy‐dispersive X‐ray fluorescence (XRF) to provenance ground stone artifacts (tools and architectural blocks) composed of granite: a nonhomogenous, phaneritic stone. We present a multicomponent methodology that independently tested whole‐rock, thin‐sectioned, and powdered samples by petrographic microscope, conventional, lab‐based XRF, and portable XRF units, which yielded comparable results. After establishing distinct geochemical signatures for the three geographically restricted granite plutons in Belize, we devised a field‐based XRF application on a whole rock that could replicate the compositional readings of lab‐based XRF on powdered materials with sufficient accuracy and reliability. We applied this multishot XRF technique to granite ground stone items from a range of ancient Maya sites throughout Belize; we discuss two specific case studies herein. Our results underscore the widespread potential of multishot XRF applications for determining the provenance of coarse‐grained, heterogeneous rock materials. These results can help push the boundaries from one‐dimensional, functional explanations of ground stone items to their social and ideological dimensions, alongside deeper understandings of granite resource management.

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来源期刊

Geoarchaeology-An International Journal 地学-地球科学综合

CiteScore

3.60

自引率

5.90%

发文量

审稿时长

>12 weeks

期刊介绍： Geoarchaeology is an interdisciplinary journal published six times per year (in January, March, May, July, September and November). It presents the results of original research at the methodological and theoretical interface between archaeology and the geosciences and includes within its scope: interdisciplinary work focusing on understanding archaeological sites, their environmental context, and particularly site formation processes and how the analysis of sedimentary records can enhance our understanding of human activity in Quaternary environments. Manuscripts should examine the interrelationship between archaeology and the various disciplines within Quaternary science and the Earth Sciences more generally, including, for example: geology, geography, geomorphology, pedology, climatology, oceanography, geochemistry, geochronology, and geophysics. We also welcome papers that deal with the biological record of past human activity through the analysis of faunal and botanical remains and palaeoecological reconstructions that shed light on past human-environment interactions. The journal also welcomes manuscripts concerning the examination and geological context of human fossil remains as well as papers that employ analytical techniques to advance understanding of the composition and origin or material culture such as, for example, ceramics, metals, lithics, building stones, plasters, and cements. Such composition and provenance studies should be strongly grounded in their geological context through, for example, the systematic analysis of potential source materials.