dc.description.abstract |
The Early Upper Paleolithic marks a turning point in the history of human evolution. The cultural
modifications that are observable in the European archaeological record are linked to a complex
interaction of behavioral, environmental, and biological components that lead to the definitive
colonization of Europe by modern humans, and the extinction and/or assimilation of autochthonous
Neanderthal populations. Among the techno-complexes that characterize this period, the
Aurignacian has received most of the attention because its development marks the consolidation of
a set of cultural traits, such as long-distance mobility patterns, production of standardized lithic
implements, variate organic artifacts, figurative arts, and personal ornaments made from a wide
range of raw materials. However, research conducted in the last few decades has clearly shown that
this portrait is more complex than previously thought. The Aurignacian itself, which is frequently
described as the first pan-European techno-complex, is characterized by an important synchronic
and diachronic variability that has probably been underestimated because of its direct association
with the spread of modern humans into Europe.
In this framework, regional studies and accurate re-evaluation of pivotal sites are fundamental in
deconstructing the notion of the Aurignacian and achieving a better resolution of information for
prehistoric times. The study of lithic industries remains the principle method of investigation for this
period, although the growing field of archaeological sciences is enlarging the tools available to
scientists to better interpret a distant world that will never be uncovered in all of its facets and
details. Stone tools are thus the main focus of this thesis, although attention is also placed on other
artifacts, such as ornamental objects and bone and antler tools, and in the stratigraphic reliability
of the findings.
Stone artifact assemblages recovered from five Early Upper Paleolithic cultural units at the site of
Fumane Cave (Veneto, Italy) represent the main empirical basis of this doctoral thesis. Furthermore,
the results are complemented by the analysis of two additional sites, Isturitz (Basque Country,
France) and Les Cottés (Vienne, France), and by a systematic review of all sites containing early
evidence of Aurignacian occupation. The study of lithic assemblages follows a holistic approach that aims to integrate and combine methods belonging to different research traditions, such as reduction
sequence and attribute analysis.
The main research questions of this thesis can be divided into two main topics that have been
addressed in separate research projects, and are here combined to test the validity of the available
reconstructions for the beginning and development of the Aurignacian. The first goal was to reassess
the technological definition of the Protoaurignacian starting from an extensive analysis of the lithic
assemblages recovered in units A2–A1 from Fumane Cave and further investigate the variability of
the techno-complex across its geographic extent. Once the concept of the Protoaurignacian had
been carefully revised, the second research phase aimed to describe the development of the
Aurignacian in northern Italy by analyzing the whole Aurignacian sequence of Fumane Cave. The
outcomes of this assessment were compared to the so-called “Aquitaine Model”, formulated in
southwestern France, to test its applicability to the whole European extent.
The first major topic evaluates the reliability of the common definition of Protoaurignacian
technology. Results of the empirical investigation and the inter-site comparison confirm that the
Protoaurignacian is an industry dominated by bladelet implements, although bladelet production is
based on a broad range of reduction strategies that are not related to the dwindling core dimensions
as blade production progressed. The dissociation of blade and bladelet productions is thus not only
restricted to Early Aurignacian assemblages. Although rather homogeneous from a technological
standpoint, the variability of retouched bladelets emphasizes the differences that exist between the
Protoaurignacian regional groups. They are expected and, prior to drawing any conclusion, they
need to be better evaluated in concert with data obtained from multi-disciplinary studies.
The findings of the second research project reject the recurring practice, well-established among
Paleolithic archaeologists, to transfer a regional model to geographically distant case studies. At
Fumane Cave, the techno-typological features of the Protoaurignacian clearly persists throughout
the stratigraphic sequence with some gradual variations that are, however, less distinct if compared
to other sequences. Thus, both the “Aquitaine Model” and the idea according to which the
Protoaurignacian vanished at the onset of the Heinrich 4 event are invalidated when applied to
northern Italy.
In conclusion, this thesis represents an important step towards a more dynamic understanding of
the Aurignacian. The re-evaluation of pivotal sites and the definition of particular regional signatures
are yielding new insights into the beginning and development of the Upper Paleolithic. The huge amount of work that needs to be done rests on the willingness of archaeologists to test the validity of the reconstructions proposed so far, starting from accurate reassessments of the available data and the identification of potential sites to be investigated following a holistic approach that the unstoppable development of the technium (intended as an interconnected system of technology vibrating around us: Kelly 2010) is more than ever demanding. |
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