Department of Archaeology, History, Cultural Studies and Religion, University of Bergen, Bergen, Norway.
SFF Centre for Early Sapiens Behaviour (SapienCE), University of Bergen, Bergen, Norway.
PLoS One. 2024 Nov 21;19(11):e0310741. doi: 10.1371/journal.pone.0310741. eCollection 2024.
Over the last 30 years, high-resolution site documentation has rapidly developed, with analogue drawings and film photography being replaced with high-precision digital recordings. Today, most archaeological field data sets are produced using digital tools that store spatial and visual information in various digital formats directly, i.e., born-digital. A fully digital workflow makes the process of combining, comparing, and integrating field datasets quicker, easier, and potentially more analytically powerful. However, at sites where both analogue and born-digital data sets have been produced, additional procedural digitization steps are required before full data interoperability is achieved. In cases where the archaeological sites have a long excavation history, multiple generations of analogue and digital site documentation techniques have often been used, making it particularly challenging to physically reconstruct an excavated site based on its archival material. The Middle Stone Age site of Blombos Cave, South Africa, is a prime example of this type of challenging situation. This site features a more than 3-meter-deep and well-preserved archaeological sequence dated to between 300 and 100 000 years ago. Since it was initially excavated in 1991, multiple archaeological campaigns have been carried out (>15), and the excavations are still ongoing. The field documentation from Blombos Cave has, over the years, produced varied but rich datasets that have never been integrated into a single, coherent, and accessible archive. In this paper we evaluate the changes in excavation protocol at Blombos Cave over time, and we use this knowledge to digitally integrate and map the various stages of excavation within a three-dimensional framework using digital photogrammetry and archival photographs. The archaeological and analytical value of this approach is exemplified through multiple case studies, in which we demonstrate how and why the merging of old and new archaeological field data can lead to new results, specifically by offering more complete mapping and more accurate and analytically dynamic visualisations. The research history at Blombos Cave is not unique or site-specific. Our approach would be applicable to a wide variety of sites and contexts where long-running excavations have produced a mix of analogue and digital field data.
在过去的 30 年中,高分辨率遗址记录技术迅速发展,模拟绘图和胶片摄影已经被高精度数字记录所取代。如今,大多数考古领域数据集都是使用数字工具生成的,这些工具以各种数字格式直接存储空间和视觉信息,即数字原生。完全数字化的工作流程使组合、比较和集成领域数据集的过程更快、更容易,并且在分析上更具潜力。然而,在同时产生模拟和数字数据集的遗址中,在实现完全数据互操作性之前,需要进行额外的程序数字化步骤。在考古遗址具有悠久发掘历史的情况下,通常会使用多代模拟和数字遗址记录技术,这使得根据档案材料重建挖掘遗址的物理结构具有特别大的挑战性。南非布隆伯斯洞穴的中石器时代遗址就是这种具有挑战性情况的一个典型例子。该遗址有一个 3 米多深且保存完好的考古序列,年代可追溯到 30 万至 10 万年前。自 1991 年首次发掘以来,已经进行了多次考古活动(>15 次),并且发掘工作仍在继续。多年来,布隆伯斯洞穴的实地记录产生了各种各样但丰富的数据集,但从未整合到一个单一的、连贯的、可访问的档案中。在本文中,我们评估了布隆伯斯洞穴随时间推移的挖掘协议变化,并利用这些知识,通过数字摄影测量和存档照片,在三维框架内整合和绘制各个挖掘阶段。通过多个案例研究,展示了如何以及为什么合并新旧考古实地数据可以带来新的结果,特别是通过提供更完整的绘图以及更准确和分析上更具动态性的可视化效果,证明了这种方法的考古学和分析价值。布隆伯斯洞穴的研究历史并非独一无二或特定于该遗址。我们的方法将适用于各种具有长期发掘历史且产生模拟和数字实地数据混合的遗址和背景。
