Ada Dinçkal , Ángela Herrejón Lagunilla , Angel Carrancho , Cristo M. Hernández Gomez , Carolina Mallol
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Initial experimentation was conducted to understand the potential effects of sodium silicate treatment on the optical and mechanical qualities of the thin sections. When no significant optical anomalies were identified, the methodology was tested using samples gathered from hearths at level X (ca. 52 ky BP) at the Middle Palaeolithic site of El Salt, Spain. Thin section analysis was conducted on archaeological hearth samples to identify syn- and post-depositional processes influencing the magnetic data. Micromorphological analysis of magnetic samples can identify the causes of anomalous magnetic direction, attributing them to specific sedimentary features rather than sampling or measurement errors. Discrepancies in magnetic signatures are linked to the presence or absence of certain combustion layers, such as black and white layers, as well as the impact of bioturbation and mechanical deformation. 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引用次数: 0
摘要
在此,我们提出一种新方法,将土壤微观形态学与磁导向样本分析相结合,以改进对考古地磁结果的解释。其目的是测试不规则的考古地磁数据是否可以通过单一样本方法与土壤微形态分析相结合进行研究,从而使上述考古地磁数据有助于进行更有意义的考古解释。实验工作包括重复使用之前用硅酸钠树脂处理过的定向磁性样本,然后用聚酯或环氧树脂重新浸渍,制作薄片。最初的实验是为了了解硅酸钠处理对薄片光学和机械质量的潜在影响。在未发现明显光学异常的情况下,使用从西班牙埃尔盐中旧石器时代遗址 X 层(约公元前 52 千年)的炉床采集的样本对该方法进行了测试。对考古炉床样本进行了薄片分析,以确定影响磁性数据的同期和后期沉积过程。磁性样本的微观形态分析可以确定磁性方向异常的原因,将其归因于特定的沉积特征,而不是取样或测量误差。磁性特征的差异与是否存在某些燃烧层(如黑白层)以及生物扰动和机械变形的影响有关。这种综合方法不仅验证了磁性数据对矿床的代表性,还提供了对产生磁性特征的沉积结构的直观理解,从而提高了考古磁性研究的解释潜力。我们的研究结果主张在考古地磁研究中例行纳入薄片检测,尤其是在处理复杂的沉积序列和模糊的磁数据时。
Improving archaeomagnetic interpretations by reusing magnetically oriented samples for micromorphological analysis
Here we present a novel approach that combines soil micromorphology with the analysis of magnetically oriented samples to improve the interpretation of archaeomagnetic results. The aim is to test whether irregular archaeomagnetic data can be examined with micromorphological soil analysis in a single sample methodology, allowing said archaeomagnetic data to contribute to more meaningful archaeological interpretation. Experimental work included reusing oriented magnetic samples previously treated with sodium silicate resin, which were then re-impregnated with polyester or epoxy resins to produce thin sections. Initial experimentation was conducted to understand the potential effects of sodium silicate treatment on the optical and mechanical qualities of the thin sections. When no significant optical anomalies were identified, the methodology was tested using samples gathered from hearths at level X (ca. 52 ky BP) at the Middle Palaeolithic site of El Salt, Spain. Thin section analysis was conducted on archaeological hearth samples to identify syn- and post-depositional processes influencing the magnetic data. Micromorphological analysis of magnetic samples can identify the causes of anomalous magnetic direction, attributing them to specific sedimentary features rather than sampling or measurement errors. Discrepancies in magnetic signatures are linked to the presence or absence of certain combustion layers, such as black and white layers, as well as the impact of bioturbation and mechanical deformation. This integrative approach improves the interpretive potential of archaeomagnetic studies by not only validating the magnetic data as representative of the deposit but also providing a visual understanding of the sedimentary structure creating the magnetic signature. Our findings advocate for the routine inclusion of thin section inspection in archaeomagnetic research, particularly when dealing with complex sedimentary sequences and ambiguous magnetic data.
期刊介绍:
The Journal of Archaeological Science is aimed at archaeologists and scientists with particular interests in advancing the development and application of scientific techniques and methodologies to all areas of archaeology. This established monthly journal publishes focus articles, original research papers and major review articles, of wide archaeological significance. The journal provides an international forum for archaeologists and scientists from widely different scientific backgrounds who share a common interest in developing and applying scientific methods to inform major debates through improving the quality and reliability of scientific information derived from archaeological research.