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Harvest time: crop-reaping technologies and the Neolithisation of the Central Mediterranean

Published online by Cambridge University Press:  04 April 2017

Niccolò Mazzucco*
Affiliation:
UMR 7055 ‘Préhistoire et Technologie’, CNRS-Université Paris Ouest Nanterre la Défense, 21 Allée de l'Université, F-92023 Nanterre cedex, France
Denis Guilbeau
Affiliation:
UMR 7055 ‘Préhistoire et Technologie’, CNRS-Université Paris Ouest Nanterre la Défense, 21 Allée de l'Université, F-92023 Nanterre cedex, France
Cristiana Petrinelli-Pannocchia
Affiliation:
Dipartimento di Civiltà e Forme del Sapere, Università di Pisa, Via Pasquale Paoli 15, 56126 Pisa, Italy
Bernard Gassin
Affiliation:
UMR 5608, TRACES, Université de Toulouse II-Le Mirail, Maison de la Recherche, 5 Allée Antonio Machado, 31058 Toulouse cedex 9, France
Juan José Ibáñez
Affiliation:
Institución Milá y Fontanals, Spanish National Research Council (CSIC), Calle Egipcíaques 15, 08001 Barcelona, Spain
Juan Francisco Gibaja
Affiliation:
Institución Milá y Fontanals, Spanish National Research Council (CSIC), Calle Egipcíaques 15, 08001 Barcelona, Spain
*
*Author for correspondence (Email: [email protected])
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Extract

Neolithic societies were defined by the development of agricultural economies not only because part of their diet was obtained from cultivated plants, but also because crop-husbandry practices strongly affected people's lifestyles in a variety of ways. It is therefore unsurprising that the development and diffusion of agriculture can be studied from diverse perspectives and with different approaches, by analysing, for example, the macro- and micro-botanical remains of fruits and grains for morphometric and taxonomic variation (Colledge & Conolly 2007) and genetic history (Mascher et al.2016). Conversely, agriculture can be indirectly assessed through its impact on the environment and subsequent landscape modifications (Zanchetta et al.2013; Mercuri 2014). Yet another approach explores crop-husbandry practices as reflected in changing technology. New agricultural tasks required the adaptation of existing technologies and the adoption of new tools and practices, including querns, millstones and other grain-grinding equipment, as well as artefacts and structures for grain storage, cooking and processing.

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Copyright
Copyright © Antiquity Publications Ltd, 2017 

Introduction

Neolithic societies were defined by the development of agricultural economies not only because part of their diet was obtained from cultivated plants, but also because crop-husbandry practices strongly affected people's lifestyles in a variety of ways. It is therefore unsurprising that the development and diffusion of agriculture can be studied from diverse perspectives and with different approaches, by analysing, for example, the macro- and micro-botanical remains of fruits and grains for morphometric and taxonomic variation (Colledge & Conolly Reference Colledge and Conolly2007) and genetic history (Mascher et al. Reference Mascher, Schuenemann, Davidovich, Marom, Himmelbach, Hübner, Korol, David, Reiter, Riehl and Schreiber2016). Conversely, agriculture can be indirectly assessed through its impact on the environment and subsequent landscape modifications (Zanchetta et al. Reference Zanchetta, Bini, Cremaschi, Magny and Sadori2013; Mercuri Reference Mercuri2014). Yet another approach explores crop-husbandry practices as reflected in changing technology. New agricultural tasks required the adaptation of existing technologies and the adoption of new tools and practices, including querns, millstones and other grain-grinding equipment, as well as artefacts and structures for grain storage, cooking and processing.

The most evident innovation in flaked stone technology associated with the Neolithisation phenomenon concerns the so-called ‘glossy blades’. Early experimental and use-wear studies of these blades fed debate about the mechanisms responsible for polish formation (Anderson Reference Anderson1982; Unger-Hamilton Reference Unger-Hamilton1984). More recently, however, renewed attention towards these tools and their technological, functional and geographic variability (Ibáñez et al. Reference Ibáñez, Conte, Gassin, Gibaja, Gonzáles Urquijo, Márquez, Philibert, Rodriguez, Longo and Skakun2008; Maeda et al. Reference Maeda, Lucas, Silva, Tanno and Fuller2016) has considered their significance in relation to economic organisation, cultural boundaries and processes of technological innovation.

Research objectives

The ongoing research reported here is the result of three integrated projects: ‘Diffusion of Neolithic: agricultural technologies and innovations in the Central Mediterranean’, funded through a post-doctoral grant (to author N.M.) by the Fondation Fyssen; and the collective projects ‘Le temps des moissons: l'arrivée des premières communautés d'agriculteurs en méditerranée centrale’, funded by the Maison Archéologie & Ethnologie, René-Ginouvès, and ‘La difusión del neolítico en el Mediterráneo centro-occidental: agricultura, innovaciones tecnológicas y carbono 14HAR2016—75201-P’, funded by the Spanish Ministry of Economy and Competitiveness. The main aim of these projects is to reconstruct the technological systems related to the production and use of harvesting tools in different regions of the Central Mediterranean: the Italian Peninsula, the Dalmatian coast and Greece. The chronological framework ranges between c. 6500/6400 and 5000/4900 cal BC, from the Early Neolithic of Thessaly to the Early Neolithic of the Po Plain. These regions are crucial for understanding the mechanisms through which Neolithic lifestyles diffused across the Mediterranean and into Europe (Figure 1).

Figure 1. Geographic framework. Red dotted lines mark the area of the study. Red arrows indicate the main routes of diffusion acknowledged today. Darker blue shades indicate the areas with a major concentration of analysed sites.

The projects focus on the following questions:

  • Did the production and use of ‘glossy blades’ rely on a completely new technology compared to other classes of tools, such as trapezes or end-scrapers? How did Neolithic technological systems relate to those of the last hunter-gatherers in the same areas?

  • Were technological systems organised in the same way across all the regions under study? If not, can regional differences be explained as the result of constraints, such as the quality and availability of raw materials or the type of crops cultivated? Or, conversely, are differences the result of the divergent harvesting techniques?

  • If different harvesting techniques existed, can they be linked to different modes of agricultural production? Was such variability influenced by economic factors or mainly cultural ones?

  • Is it possible to highlight any development or changes between the Early Neolithic and later periods?

  • Can different harvesting traditions be linked to the different paths by which Neolithic communities diffused across the Mediterranean?

To answer these questions, fresh data about Early Neolithic socio-economic and cultural practices will be collected, integrating the results from the analysis of pottery assemblages, of carpological remains, of land-use patterns and radiocarbon dates.

Preliminary results

Our preliminary finds point to promising results (Mazzucco et al. Reference Mazzucco, Gibaja, Pessina and Ibáñez2016). It seems that at least two harvesting traditions existed in the Central Mediterranean, differing both in terms of the technologies of sickle and reaping-knife production, and in terms of the types of agricultural product harvested (Figures 2 & 3).

Figure 2. Examples of glossy blades for bended sickles, with: a) antler sickle from Karanovo (modified from Gurova Reference Gurova, van Gijn, Whittaker and Anderson2014); b) wooden sickle from La Marmotta (modified from Pessina & Tiné Reference Pessina and Tiné2008).

Figure 3. Examples of glossy blades for reaping knives, with: a) wooden sickle from La Draga (modified from Bosch et al. Reference Bosch, Chinchilla and Tarrús2006); b) reaping knife from Auvernier-Port (modified from Egloff Reference Egloff1987).

Moreover, the regional differences observed seem to sustain the hypothesis of multiple Neolithisation events, linked to the expansion of groups of diverse origins. In addition to a maritime route of expansion originating from southern Italy at the beginning of the sixth millennium BC and spreading along the Tyrrhenian and Adriatic coasts, a terrestrial wave also moved across the northern Mediterranean, around the mid-sixth millennium, spreading rapidly from northern Italy towards southern France and the north-east of the Iberian Peninsula. At the same time, harvesting technologies underwent change and innovation during the course of their diffusion.

Acknowledgements

We would like to express our gratitude to colleagues participating in this project, who allowed and helped us to analyse the material at the heart of this study: D. Arobba, L. Baglioni, M. Baioni, P. Biagi, P. Boccuccia, F. Briois, M. Colombo, C. Conati Barbaro, S. Forenbaher, J. Guilaine, S. Kacar, C. Lemorini, C. Longhi, V. Leonini, D. Lo Vetro, F. Martini, D. Mengoli, P. Miracle, A. Moroni, I.M. Muntoni, C. Perlès, A. Pessina, E. Podrug, G. Radi, D. Radić, A.M. Ronchitelli, M. Serradimigni, P. Schirolli, E. Starnini, L. Sarti, G. Steffé, J. Tirabassi, C. Tozzi, A.M. Tunzi, P. Visentini, M. Venturino Gambari and B. Voytek.

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Figure 0

Figure 1. Geographic framework. Red dotted lines mark the area of the study. Red arrows indicate the main routes of diffusion acknowledged today. Darker blue shades indicate the areas with a major concentration of analysed sites.

Figure 1

Figure 2. Examples of glossy blades for bended sickles, with: a) antler sickle from Karanovo (modified from Gurova 2014); b) wooden sickle from La Marmotta (modified from Pessina & Tiné 2008).

Figure 2

Figure 3. Examples of glossy blades for reaping knives, with: a) wooden sickle from La Draga (modified from Bosch et al.2006); b) reaping knife from Auvernier-Port (modified from Egloff 1987).