对砂岩、正长岩、玛瑙和石化木进行非破坏性特征描述,以进行产地研究:美国东南沿海平原的视角

IF 1.4 3区 地球科学 0 ARCHAEOLOGY Geoarchaeology-An International Journal Pub Date : 2024-07-23 DOI:10.1002/gea.22018
Simon P. Sherman III, Ryan M. Parish, Youngsang Kwon, Steven Meredith, David Johnson
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引用次数: 0

摘要

位于阿拉巴马州和密西西比州的硅质砂岩(包括石英岩)、石化木和玛瑙在美国东南部密西西比河谷下游地区每个公认的文化时期都被用作工具石资源。遗憾的是,这些材料并没有成为许多与产地相关调查的重点。最近对北美其他地区和比利牛斯山脉的石英岩和砂岩进行的分析成功地利用岩相学技术鉴别了这些材料的来源。本研究探讨了可见光/近红外反射光谱和傅立叶变换红外反射光谱(FTIR)在石英石以外的硅质材料来源上的应用,特别是砂岩、正长岩(石英砂岩)、石化木和玛瑙。该来源特征调查侧重于一项案例研究,涉及从八个不同采集点采集的材料,包括在阿拉巴马州和密西西比州采集的九种不同的硅质资源。这些材料来自两个不同的地质构造:哈蒂斯堡和塔拉哈塔。研究结果证明了非破坏性反射光谱法的能力,并介绍了一种新的离群值建模方法,该方法可检测、聚类离群值,并利用离群值自身的基向量集对其进行单独建模。本文采用了主成分分析、最小绝对收缩和选择算子回归、线性判别函数分析(LDA)和随机森林分类法,以更好地识别离群元素,并对石材材料进行精确判别(介于 67% 和 100% 之间)。虽然这是首次使用反射光谱技术对这些材料进行特征描述,以确定其出处,但初步结果与其他旨在量化岩层间(inter)和岩层内(intra)露头变化的出处技术相比,还是很有优势的。根据材料的高光谱特征对来源进行量化和区分,将有助于更好地了解史前对这些石器资源的依赖,并为确定流动性、社会互动和过去的其他行为提供替代物。
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Non-destructively characterizing sandstones, orthoquartzites, agates, and petrified wood for provenance research: Perspectives from the Southeastern Coastal Plain, United States

Siliceous sandstone (including quartzites), petrified wood, and agates located in Alabama and Mississippi were utilized as a toolstone resource during every recognized cultural period in the Lower Mississippi Valley region of the Southeastern United States. Regrettably, these materials have not been the focus of many provenance-related investigations. Recent analyses of quartzite and sandstone from other regions in North America and from the Pyrenees were successful in discriminating sources using petrographic techniques. The current study examines the application of visible/near-infrared reflectance and Fourier transform infrared reflectance (FTIR) spectroscopy on sourcing siliceous materials besides chert, particularly sandstones, orthoquartzites (quartz sandstone), petrified woods, and agates. This source characterization investigation focuses on a case study involving materials gathered from eight distinct collection sites, encompassing nine different siliceous resources collected in Alabama and Mississippi. These materials were sourced from two distinct geological formations: the Hattiesburg and Tallahatta. Results demonstrate the ability of non-destructive reflectance spectroscopy and introduces a new outlier modeling method that detects, clusters, and separately models outliers with their own set of basis vectors. Principal component analyses, least absolute shrinkage and selection operator regression, linear discriminant function analysis (LDA), and random forest classification are used in this paper to better identify outlier elements as well as discriminate for stone materials accurately (between 67% and 100%). Although this is the first reflectance spectroscopy investigation used to characterize these materials for provenance applications, the preliminary results compare favorably with other provenance techniques whose aim is to quantify between-formation (inter) and within-formation (intra) outcrop variation. The quantified and differentiated sources, based on the hyperspectral signatures of the material, will provide a better understanding of prehistoric reliance on these lithic resources and produces a proxy to determine mobility, social interaction, and other past behavior.

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来源期刊
Geoarchaeology-An International Journal
Geoarchaeology-An International Journal 地学-地球科学综合
CiteScore
3.60
自引率
5.90%
发文量
51
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.
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