Maintainers of this repository:
Armando Falcucci (armando.falcucci@uni-tuebingen.de)
Domenico Giusti (domenico.giusti@uni-tuebingen.de)
[[DOI] Not yet available
The content available at the above provided URL will reproduce the results as documented in the publication. Instead, the files hosted at https://github.com/ArmandoFalcucci/Linking-Blades represent the developmental versions and might have undergone modifications since the paper’s publication.
Armando Falcucci (armando.falcucci@uni-tuebingen.de)
Domenico Giusti (domenico.giusti@uni-tuebingen.de)
Armando Falcucci, Domenico Giusti, Filippo Zangrossi, Matteo De Lorenzi, Letizia Ceregatti, Marco Peresani. Refitting the context: A reconsideration of the Aurignacian sequence at Fumane Cave through spatial taphonomy and lithic technology. in preparation (2024).
High-resolution chrono-stratigraphic frameworks are crucial for unraveling the biocultural processes behind the dispersals of Homo sapiens across Europe. Detailed technological studies of lithic assemblages retrieved from multi-stratified sequences allow archaeologists to precisely model the chrono-cultural dynamics of the early Upper Paleolithic. However, it is of paramount importance to verify the overall integrity of these assemblages before building explanatory models of cultural change. In this study, multiple lines of evidence suggest that the stratigraphic sequence of Fumane Cave in northeastern Italy experienced minor post-depositional reworking, establishing it as a pivotal site for exploring the earliest stages of the Aurignacian. By conducting a systematic search for connections between broken blade fragments and applying spatial analysis techniques, we identified three areas of the excavation containing assemblages suitable for renewed archaeological investigations. Subsequent technological analyses, incorporating attribute analysis, reduction intensity, and multivariate statistics, have allowed us to discern the spatial organization of the site during the formation of the Protoaurignacian stratigraphic complex (i.e., A2 and A1). Moreover, diachronic comparisons between three successive stratigraphic units prompted us to reject the hypothesis of chrono-cultural continuity of the Protoaurignacian in northeastern Italy after the onset of the Heinrich Event 4. Based on the variability of the lithic and osseous artifacts, the most recent assemblage analyzed, D3b alpha, is ascribed to the Early Aurignacian, aligning the evidence from Fumane with the current understanding of the development of the Aurignacian across Europe. Overall, this study demonstrates the high effectiveness of the break connection method when combined with detailed spatial analysis and lithic technology, providing a methodological tool particularly amenable to be applied to sites excavated in the past with varying degrees of recording accuracy.
Pleistocene; Europe; Spatial Analysis; Taphonomy; Lithic Technology; Upper Paleolithic; Assemblage Integrity.
Within this repository, various folders house data
(data), code (script), and output files
(output) pertinent to the paper. The data folder
encompasses the blank and core datasets from the Aurignacian of Fumane
Cave and the dataset of the blade fragment connection study. To
replicate the results, download the entire repository and employ
Refitting-the-Context.Rproj and open the folder
script. For ensuring reproducibility, the renv
package (v. 1.0.3) was utilized, following the procedures detailed in
its vignette. All analyses and visualizations in the paper were
conducted using R 4.3.1 on Microsoft Windows 10.0.19045 (64-bit). As the
necessary packages are available in the renv folder, they
are not explicitly listed here.
Code: MIT http://opensource.org/licenses/MIT, copyright holders: Armando Falcucci & Domenico Giusti (2024).
Data and intellectual work: Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), copyright holder: the authors (2024).