Neolithic mines and quarries in Vaucluse (France)

ABSTRACT BOOK 7th INTERNATIONAL CONFERENCE OF THE UISPP COMMISSION ON FLINT MINING IN PRE- AND PROTOHISTORIC TIMES MONS AND SPIENNES 2016 5 MINING AND QUARRYING. GEOLOGICAL CHARACTERISATION, KNAPPING PROCESSES AND DISTRIBUTION NETWORKS DURING PRE- AND PROTOHISTORIC TIMES 28 SEPTEMBER – 1 OCTOBER 2016 RAPPORTS ARCHÉOLOGIE 5 La série ARCHÉOLOGIE de la collection RAPPORTS est une publication du DÉPARTEMENT DU PATRIMOINE (SPW/DGO4) Service public de Wallonie Direction générale opérationnelle de l'aménagement du territoire, du logement, du patrimoine et de l'énergie Département du patrimoine Pierre Paquet, Inspecteur général f.f. Rue des Brigades d’Irlande, 1-3 B - 5100 Jambes ÉDITEUR RESPONSABLE Pierre Paquet, Inspecteur général f.f. COORDINATION ÉDITORIALE Hélène Collet Philippe Lavachery CONCEPTION GRAPHIQUE DE LA COLLECTION Ken Dethier MISE EN PAGE SPW - DGO4 - Hainaut I IMPRIMERIE SPW-DGT-Département de la Gestion mobilière Direction de l'Édition COUVERTURE Fouilles d'un puits d'extraction de silex à Petit-Spiennes. Photo : M. Woodbury © SPW BIBLIOGRAPHIE, COLLET H & LAVACHERY PH (COORD), 2016. “MINING AND QUARRYING. GEOLOGICAL CHARACTERISATION, KNAPPING PROCESSES AND DISTRIBUTION NETWORKS DURING PRE- AND PROTOHISTORIC TIMES. ABSTRACTS », UISPP COMMISSION ON FLINT MINING IN PRE- AND PROTOHISTORIC TIMES, 7th INTERNATIONAL CONFERENCE, MONS-SPIENNES 28th SEPTEMBER – 1st OCTOBER 2016, NAMUR, SERVICE PUBLIC DE WALLONIE (RAPPORTS, ARCHÉOLOGIE, 5). En cas de litige, Médiateur de Wallonie : Marc Bertrand T. : +32 0800.191.99 — le-mediateur.be Avertissement Depuis le 1er août 2008, les nouvelles appellations « Service public de Wallonie. Direction générale opérationnelle de l'aménagement du territoire, du logement, du patrimoine et de l'énergie. Département du patrimoine » remplacent « Ministère de la Région wallonne. Direction générale de l'aménagement du territoire, du logement et du patrimoine. Division du patrimoine ». Tous droits réservés pour tous pays No de dépôt légal : D/2016/13.063/11 UISPP COMMISSION ON FLINT MINING IN PRE- AND PROTOHISTORIC TIMES MINING AND QUARRYING GEOLOGICAL CHARACTERISATION, KNAPPING PROCESSES AND DISTRIBUTION NETWORKS DURING PRE- AND PROTOHISTORIC TIMES 7th INTERNATIONAL CONFERENCE IN MONS AND SPIENNES (BELGIUM) 28 SEPTEMBER – 1 OCTOBER 2016 RAPPORTS, Archéologie, 5 Spiennes, 2016 Service public de Wallonie Direction générale opérationnelle de l’aménagement du territoire, du logement, du patrimoine et de l’énergie Département du patrimoine ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 SUMMARY PRESENTATION OF THE INTERNATIONAL CONFERENCE 7 ORGANISING & SCIENTIFIC COMMITTEES 9 PROGRAM 11 ORAL AND POSTER SESSIONS - ABSTRACTS 15 WEDNESDAY, 2 8 th OF SEPTEMBER 15 SPECIALIZATION OF THE LITHIC PRODUCTION IN THE COMMUNITY AND AMONG SEVERAL COMMUNITIES DURING THE END OF THE EARLY THE CASE OF THE NEOLITHIC IN BELGIUM, BLICQUIAN SITES 15 Solène DENIS PLACING THE TRANSMISSION OF TECHNICAL KNOWLEDGE IN THE SYSTEM OF BLADE PRODUCTION. A CASE STUDY FROM THE EARLY NEOLITHIC FLINT MINE OF CASA MONTERO (MADRID, SPAIN) 15 Nuria CASTAÑEDA, Susana CONSUEGRA, Pedro DÍAZ-DEL-RÍO INFLUENCE AND ROLE OF THE FLINT PLAQUETTES OF SALINELLES IN SOUTHERN FRANCE CAMBOUS SETTLEMENT (VIOLS-EN-LAVAL, HÉRAULT, FRANCE) THE EXAMPLE OF 16 Guilhem LANDIER CRUSHING, HAMMERING, AND SPLITTING: TRACING LOCAL PATTERNS OF LITHIC PRODUCTION AND CONSUMPTION AT A NEOLITHIC CHERT QUARRY LANDSCAPE ON THE SWABIAN ALB, GERMANY 16 Lynn FISHER, Susan HARRIS, Jehanne AFFOLTER, Corina KNIPPER, Rainer SCHREG LOJANIK, WEST-CENTRAL SERBIA. CATENA OF PREHISTORIC MINING THROUGH TIME AND SPACE 17 Vera BOGOSAVLJEVIĆ PETROVIĆ, Dragan JOVANOVIĆ, Jugoslav PENDIĆ, Divna JOVANOVIĆ BRONZE AGE WORKSHOP MATERIALS FROM THE WIERZBICA "ZELE" FLINT MINE SITE (POLAND) IN THE LIGHT OF RECENT RESEARCH 17 Jacek LECH, Dagmara H. WERRA RIJCKHOLT, BEYOND THE FLINT MINES AN INVESTIGATION OF THE SURROUNDING OF THE NEOLITHIC FLINT MINES OF RIJCKHOLT-ST.GEERTRUID 18 Jan-Willem DE KORT, José SCHREURS METHODOLOGIES OF EXTRACTION: THE MINING TECHNIQUES IN THE FLINT MINES OF SOUTHERN ENGLAND 18 Jon BACZKOWSKI THE NEOLITHIC FLINT MINES OF LE PETIT-MORIN VALLEY (MARNE, FRANCE) 19 Rémi MARTINEAU, Jehanne AFFOLTER, Jean-Jacques CHARPY, Anthony DUMONTET, Laure SALIGNY NEOLITHIC MINES AND QUARRIES IN VAUCLUSE (FRANCE) 20 Pierre-Arnaud DE LABRIFFE, Adrien REGGIO, Pierre ANDRE A NEW RESEARCH PROJECT FOCUSED ON THE STUDY OF FLINT QUARRIES IN NE IBERIA 20 Xavier TERRADAS, David ORTEGA, Dioscórides MARÍN, Alba MASCLANS, Carles ROQUÉ GUEST LECTURE LES GRANDES LAMES EN SILEX DE L’EUROPE DU NÉOLITHIQUE ET ALENTOUR Jacques PELEGRIN Directeur de Recherche, CNRS 4 21 THURSDAY, 2 9 th OF SEPTEMBER FLINT MINES WITHOUT THE FLINT: SYMBOLIC CULTURAL PRACTICES OF FLINT EXTRACTION IN NORTHERN EUROPE 21 Anne TEATHER, Lasse SØRENSEN HUMAN SKELETONS IN THE FLINT MINE SHAFTS OF SPIENNES: CASUALTIES OR BURIALS? 21 Michel TOUSSAINT, Hélène COLLET, Ivan JADIN, Philippe LAVACHERY, Stéphane PIRSON, Michel WOODBURY, Joël ELOY, Sylviane LAMBERMONT KEY NOTE LECTURE THE SOCIAL CONTEXT OF PREHISTORIC FLINT AND STONE EXTRACTION IN THE UK 22 Peter TOPPING MAPPING THE RADIOLARITE OUTCROPS AS POTENTIAL SOURCE OF RAW MATERIAL IN THE STONE AGE:CHARACTERISATION OF POLISH PART OF THE PIENINY KLIPPEN BELT 22 Katarzyna KERNEDER-GUBAŁA, Paweł VALDE-NOWAK BALKAN FLINT SOURCING AND DISTRIBUTION IN THE EARLY NEOLITHIC BALKANS 23 Maria GUROVA, Clive BONSALL UNDERSTANDING FLINT CIRCULATION THROUGH ADRIATIC SEA: FIRST RESULTS 24 Italo Maria MUNTONI, Emanuela DELLUNIVERSITÀ, Giacomo ERAMO, Alessandro MONNO, Ignazio ALLEGRETTA, Zlatko PERHO , Stašo FORENBAHER, Massimo TARANTINI RAW MATERIALS AND DISTRIBUTION OF NEOLITHIC MINING PRODUCTION FROM THE MONS BASIN (BELGIUM). PRELIMINARY RESULTS 24 Jean-Philippe COLLIN, Jean-Marc BAELE, Françoise BOSTYN, Hélène COLLET GEO-RESOURCES AND TECHNO-CULTURAL EXPRESSIONS IN THE SOUTH OF THE FRENCH MASSIF CENTRAL DURING THE UPPER PALAEOLITHIC: DETERMINISM AND CHOICES. 25 Vincent DELVIGNE, Paul FERNANDES, Peter BINDON, Jean-Pierre BRACCO, Laurent KLARIC, Audrey LAFARGE, Mathieu LANGLAIS, Michel PIBOULE, Jean-Paul RAYNAL FLINT SOURCING REVISITED, THE BERGERAC CASE 25 Paul FERNANDES, Vincent DELVIGNE, Stéphan DUBERNET, François-Xavier LE BOURDONNEC, André MORALA, Luc MOREAU, Michel PIBOULE, Alain TURQ, Jean-Paul RAYNAL PREHISTORIC FLINT MINE DETECTION BY ALS. EXPERIENCES FROM POLAND 2 0 11 - 2 0 15 . 26 Janusz BUDZISZEWSKI, Witold GRUŻDŹ, Michał JAKUBCZAK, Katarzyna RADZISZEWSKA, Michał SZUBSKI NEWS FROM H-3 (KÁLVÁRIA-DOMB, CALVARY HILL, TATA) 26 Katalin T. BIRÓ, Erzsébet TÓTH, Krisztina DÚZS IN SEARCH OF THE CHOCOLATE FLINT MINE IN OROńSKO (PL1, SOUTHERN POLAND). NEW DATA FOR ANALYSIS OF EXPLOITATION AND USE OF FLINT IN NORTH-WESTERN PART OF ITS OUTCROPS 27 Katarzyna KERNEDER-GUBAŁA THE CONCEPT OF SPATIAL DATABASE FOR THE PREHISTORIC FLINT MINES: BANDED FLINT, CENTRAL POLAND 27 Katarzyna RADZISZEWSKA THE SPIENNES COLLECTION AT THE ROYAL MUSEUMS OF ART AND HISTORY (RMAH) 28 Britt CLAES, Valérie GHESQUIÈRE A JADE AXEHEAD IN THE MIDDLE OF THE FAMOUS NEOLITHIC FLINT MINES OF SPIENNES? 28 Michel ERRERA, Pierre PÉTREQUIN, Alison SHERIDAN, Ivan JADIN HISTORY OF RESEARCH AND FLINT EXPLOITATION IN ZELKÓW (SOUTH POLAND) – GUNFLINT WORKSHOP – THE USE AND MEANING OF FLINT IN MODERN TIMES 29 Dagmara H. WERRA, Marzena WOŹNY A GUNFLINT PLACE AT MASNUY-SAINT-JEAN (JURBISE) 30 Anne HAUZEUR, Hélène COLLET, Michael BRANDL, Gerhard TRNKA USE OF FLINT DURING THE 19 TH CENTURY IN THE SPIENNES AND CIPLY AREAS (MONS BASIN, BELGIUM): 30 GUNFLINTS AND EARTHENWARE PRODUCTIONS Hélène COLLET, Anne HAUZEUR, Gerhard TRNKA, Claude MEUNIER (†) 19 th CENTURY FLINT PRODUCTION IN BRANDON (UK) AND THE RBINS COLLECTION Anne HAUZEUR, Ivan JADIN 5 30 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 FLINT MINING AND BLADES MANAGEMENT IN THE BLICQUY/VILLENEUVE-SAINT-GERMAIN CULTURE THROUGH THE NORMANDY AND NORTH-WESTERN FRANCE SETTLEMENTS EARLIEST MINES OF 31 François CHARRAUD THE INTERPLAY OF GEOLOGICAL CONSTRAINTS TOWARDS DETERMINING THE LOCATIONS OF QUARRIES, SCALE OF ACTIVITY, AND STYLE OF EXTRACTION: EXAMPLES FROM THE CHERT-BEARING CAMBRIAN AND ORDOVICIAN CARBONATE ROCKS OF THE NEW YORK TRI-STATE REGION 31 Philip C. LAPORTA, Margaret C. BREWER-LAPORTA, Scott A. MINCHAK, Karl H. SZEKIELDA INVESTIGATION IN POZARRATE QUARRY AT THE PREHISTORIC FLINT MINING COMPLEX OF ARAICO-CUCHO (TREVIÑO), SOUTH BASQUE-CANTABRIAN BASIN. LATEST RESULTS 32 Antonio TARRIÑO, Irantzu ELORRIETA, Javier FERNÁNDEZ-ERASO, José Antonio MUJIKA, Fernando JIMÉNEZ-BARREDO, Ana Isabel ÁLVARO, Alfonso BENITO, Ana Isabel ORTEGA, Maite GARCÍA-ROJAS, Iosu JUNGUITU, Aitor SÁNCHEZ, Lucía BERMEJO, Mikel AGUIRRE, Íñigo ORUE AUTHORS’ INDEX 33 6 PRESENTATION OF THE INTERNATIONAL CONFERENCE PRESENTATION OF THE INTERNATIONAL CONFERENCE The establishing of a Commission on Flint Mining in Pre- and Protohistoric Times in the International Union of Pre- and Protohistoric Sciences (UISPP) referred to the tradition of organising international symposia on flint, established by the Limburg Branch of the Dutch Geological Society in 1969 at Maastricht. The next meetings were organised in 1975 and 1979 in Maastricht, 1983 in Brighton, 1987 in Bordeaux, 1991 in Madrid, 1995 in Warsaw and Ostrowiec and 1999 in Bochum. Six conferences have been organised since 2007: Paris, Madrid, Vienna, Florianopolis, Paris and Burgos. The Madrid conference was published in 2011 and the second Paris conference in 2014. The aim of the commission is to favour cooperation in the area of archaeological research upon siliceous rock mining (flint, chert, hornstone, radiolarite, jasper...), presenting and discussing methods and results. Some of the foremost fields of interest will embrace, among others: research upon different stages of “chaînes opératoires” of manufacture, specialisation of labour and circulation of raw materials, characterisation of raw material as well as investigation on flint mining sites belonging to Pre- and Protohistoric settlement networks. The objective of the commission will be to promote those lines of research upon flint mining and its methods which will allow a better understanding of various phenomena and processes taking place in Pre- and Protohistoric times. The international conference will also draw attention on this outstanding heritage and on its protection. 8 ORGANISING & SCIENTIFIC COMMITTEES ORGANISING & SCIENTIFIC COMMITTEES The conference is organised by the Public Service of Wallonia (SPW), the UISPP Commission on Flint Mining in Pre- and Protohistoric Times, the Society for Prehistoric Research in Hainaut (SRPH) and the Museums of the City of Mons. BERTRAND PASTURE, Curator The conference is organised in partnership with the Regional Museum of Natural Sciences of Mons, the Silex’S, Interpretation Centre of the Neolithic Flint Mines of Spiennes, Sci Tech² and UMons, the Royal Belgian Institute of Natural Sciences, La Malogne and the Geopark of the Mons basin. PHILIPPE LAVACHERY, Archaeologist Museum régional des Sciences naturelles, Service public de Wallonie, DGO3 [email protected] Société de Recherche préhistorique en Hainaut [email protected] JEAN-PHILIPPE COLLIN, Archaeologist Société de Recherche préhistorique en Hainaut [email protected]] Organising committee XAVIER ROLAND, City Museums Manager Pôle muséal de la Ville de Mons HÉLÈNE COLLET, Archaeologist [email protected] Service Public de Wallonie, DGO4, Service de l’Archéologie (Direction extérieure du Hainaut I) MANUELA VALENTINO, UNESCO Heritage Curator for the City of Mons [email protected] Pôle muséal de la Ville de Mons [email protected] MARC SCHEPERS Service public de Wallonie, DGO4, Service Événements IVAN JADIN, Archaeologist [email protected] Anthropologie & Préhistoire, Direction opérationnelle Terre et Histoire de la Vie, Institut royal des Sciences naturelles de Belgique MADELINE VOTION [email protected] Service public de Wallonie, DGO4, Service Événements [email protected] 9 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 FRANCESCO LO BUE, Sci Tech² Manager JACEK LECH, Professor of Archaeology & President of the Commission Sci Tech², UMONS THIERRY MORTIER, Manager Cardinal Stefan Wyszyński University in Warsaw UISPP Commission on Flint mining in Preand Protohistoric times, Archaeological Museum and Reserve at Krzemionki asbl La Malogne & Géoparc du basin de Mons [email protected] [email protected] [email protected] STÉPHANE PIRSON, Geologist Service public de Wallonie, DGO4, Direction de l’Archéologie Scientific committee [email protected] JEAN-MARC BAELE, Professor of Geology UMONS, Géologie fondamentale et appliquée PETER TOPPING, Archaeologist [email protected] Newcastle University [email protected] FRANÇOISE BOSTYN, Archaeologist & Vice-President of the Commission Institut national de Recherche archéologique préventive, UMR 8215 du CNRS, UISPP Commission on Flint mining in Pre- and Protohistoric times [email protected] HÉLÈNE COLLET, Archaeologist Service Public de Wallonie, DGO4, Service de l’Archéologie (Direction extérieure du Hainaut I) [email protected] FRANÇOIS GILIGNY, Professor of Archaeology & Presidium member of the Commission Université de Paris I, UISPP Commission on Flint mining in Pre- and Protohistoric times [email protected] ANNE HAUZEUR, Archaeologist & Secretary of the Commission Paléotime, UISPP Commission on Flint mining in Preand Protohistoric times [email protected] PHILIPPE LAVACHERY, Archaeologist Société de Recherche préhistorique en Hainaut [email protected] 10 PROGRAM PROGRAM Wednesday, 28th of September 10:30 Welcome and oficial speeches 11:00-11:25 Specialization of the Lithic Production in the Community and among Several Communities during the End of the Early Neolithic in Belgium, the Case of the Blicquian Sites SOLÈNE DENIS 11:25-11:50 Placing the Transmission of Technical Knowledge in the System of blade Production. A Case Study from the Early Neolithic Flint Mine of Casa Montero (Madrid, Spain) NURIA CASTAÑEDA, SUSANA CONSUEGRA, PEDRO DÍAZ-DEL-RÍO 11:50-12:15 Inluence and Role of Flint Plate of Salinelles in Southern France - the Example of Cambous Settlement (Viols-en-Laval, Hérault Dept, France) GUILHEM LANDIER 12:15-12:40 Crushing, Hammering and Splitting: Tracing Local Patterns of Lithic Production and Consumption at a Neolithic Chert Quarry Landscape on the Swabian Alb, Germany LYNN FISHER, SUSAN HARRIS, JEHANNE AFFOLTER, CORINA KNIPPER, RAINER SCHREG 12:40-13:00 Discussion 13:00-14:00 Lunch time 14:00-14:25 Lojanik, West-Central Serbia. Catena of Prehistoric Mining through Time and Space VERA BOGOSAVLJEVIć PETROVIć, DRAGAN JOVANOVIć, JUGOSLAV PENDIć, DIVNA JOVANOVIć 14:25-14:50 Bronze Age Workshop Materials from the Wierzbica "Zele" Flint Mine Site (Poland) in the Light of Recent Research JACEK LECH, DAGMARA H. WERRA 11 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 14:50-15:15 Rijckholt, beyond the Flint Mines. An Investigation of the Surrounding of the Neolithic Flint Mines of Rijckholt-St.Geertruid JAN-WILLEM DE KORT, JOSÉ SCHREURS 15:15-15:40 Methodologies of Extraction: the Mining Techniques in the Flint Mines of Southern England JON BACZKOWSKI 15:40-16:00 Break 16:00-16:25 The Neolithic Flint Mines of Le Petit-Morin Valley (Marne, France) RÉMI MARTINEAU, JEHANNE AFFOLTER, JEAN-JACQUES CHARPY, ANTHONY DUMONTET, LAURE SALIGNY 16:25-16:50 Neolithic Mines and Quarrries in Vaucluse (France) PIERRE-ARNAUD DE LABRIFFE, ANDRÉ REGGIO, PIERRE ANDRÉ 16:50-17:15 A New Research Project Focused on the Study of Flint Quarries in NE Iberia XAVIER TERRADAS, DAVID ORTEGA, DIOSCÓRIDES MARÍN, ALBA MASCLANS, CARLES ROQUÉ 17:15 Discussion 20:00 Guest Lecture Les grandes lames en silex de l'Europe du .Néolithique et alentour JACQUES PELEGRIN Van Gogh Lecture Hall, University of Mons Thursday, 29th of September 8:30 Welcome 09:00-09:25 Flint Mines without the Flint: Symbolic Cultural Practices of Flint Extraction in Northern Europe Anne TeATher, LAsse sørensen 09:25-09:50 Human Skeletons in the Flint Mine Shafts of Spiennes: Casualties or Burials? MicheL ToussAinT, héLène coLLeT, ivAn JAdin, PhiLiPPe LAvAchery, sTéPhAne Pirson, MicheL Woodbury 09:50-10:40 Key Note Lecture The Social Context of Prehistoric Flint and Stone Extraction in the UK PeTer ToPPing 10:40-11:00 Break 12 PROGRAM 11:00-11:25 Mapping the Radiolarite Outcrops as Potential Source of Raw Material in the Stone Age: Characterisation of Polish Part of the Pieniny Klippen Belt KATArzynA Kerneder-gubAłA, PAWeł vALde-noWAK 11:25-11:50 Balkan Flint Sourcing and Distribution in the Early Neolithic Balkans MAriA gurovA, cLive bonsALL 11:50-12:15 Understanding Flint Circulation through Adriatic Sea: First Results iTALo MAriA MunToni, eMAnueLA deLLuniversiTà, giAcoMo erAMo, ALessAndro Monno, ignAzio ALLegreTTA, zLATKo Perhoč, sTAšo ForenbAher, MAssiMo TArAnTini 12:15-12:40 Raw Materials and Distribution of Neolithic Mining Production from the Mons Basin (Belgium). Preliminary Results JeAn-PhiLiPPe coLLin, JeAn-MArc bAeLe, FrAnçoise bosTyn, héLène coLLeT 12:40-13:00 Discussion 13:00-14:00 Lunch time 14:00-14:25 Geo-resources and Techno-cultural Expressions in the South of the French Massif Central during the Upper Palaeolithic: Determinism and Choices vincenT deLvigne, PAuL FernAndes, PeTer bindon, JeAn-Pierre brAcco, LAurenT KLAric, Audrey LAFArge, MAThieu LAngLAis, MicheL PibouLe, JeAn-PAuL rAynAL 14:25-14:50 Flint Sourcing Revisited, the Bergerac Case PAuL FernAndes, vincenT deLvigne, sTéPhAn duberneT, FrAnçois-XAvier Le bourdonnec, André MorALA, Luc MoreAu, MicheL PibouLe, ALAin Turq, JeAn-PAuL rAynAL 14:50-15:15 Prehistoric Flint Mine Detection by ALS. Experiences from Poland 2011 – 2015 JAnusz budziszeWsKi, WiToLd grużdź, MichAł JAKubczAK,KATArzynA rAdziszeWsKA, MichAł szubsKi 15:15-15:40 Break 15:40-17:30 Posters session 15:40 News from H-3, Kálvária-domb (Calvary Hill), Tata, Hungary KATALin T. biró, erzsébeT TóTh, KriszTinA dúzs 15:50 In Search of the Chocolate Flint Mine in Orońsko (PL1, Southern Poland). New Data for Analysis of Exploitation and Use of Flint in North-western Part of Its Outcrops KATArzynA Kerneder-gubAłA 16:00 The Concept of Spatial Database for the Prehistoric Flint Mines: Banded Flint, Central Poland KATArzynA rAdziszeWsKA 13 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 16:10 The Spiennes Collection at the Royal Museums of Art and History (RMAH) briTT cLAes, vALérie ghesquière 16:20 A Jade Axe in the Middle of the Famous Neolithic Flint Mines of Spiennes? MicheL errerA, Pierre PéTrequin, ALison sheridAn, ivAn JAdin 16:30 History of Research and Flint Exploitation in Zelków (South Poland) – Gunlint Workshop – the Use and Meaning of Flint in Modern Times dAgMArA h. WerrA, MArzenA Woźny 16:40 A Gunlint Place at Masnuy-Saint-Jean (Jurbise), Hainaut Province, Belgium Anne hAuzeur, héLène coLLeT, MichAeL brAndL, gerhArd TrnKA 16:50 Use of Flint during the 19th Century in the Spiennes and Ciply Areas (Mons Basin, Belgium): Gunlints and Earthenware Productions héLène coLLeT, Anne hAuzeur, gerhArd TrnKA, cLAude Meunier (†) 17:00 19th Century Gunlint Production in Brandon (UK) and the RBINS Collection Anne hAuzeur, ivAn JAdin 17:10 Flint mining and blades management in the Blicquy/Villeneuve-Saint-Germain culture through the earliest mines of Normandy and North-Western France settlements FrAnçois chArrAud 17:20 The Interplay of Geological Constraints towards Determining the Locations of Quarries, Scale of Activity, and Style of Extraction: Examples from the Chert-bearing Cambrian and Ordovician Carbonate Rocks of the New York Tri-State Region PhiLiP c. LAPorTA, MArgAreT c. breWer-LAPorTA, scoTT A. MinchAK, KArL h. szeKieLdA 17:30 Investigation in Pozarrate quarry at the Prehistoric lint mining complex of Araico-Cucho (Treviño), South Basque-Cantabrian Basin. Latest results. AnTonio TArriño, irAnTzu eLorrieTA, JAvier Fernández-erAso, José AnTonio MuJiKA, FernAndo JiMénez-bArredo, AnA isAbeL áLvAro, ALFonso beniTo, AnA isAbeL orTegA, MAiTe gArcíA-roJAs, iosu JunguiTu, AiTor sánchez, LucíA berMeJo, MiKeL Aguirre, íñigo orue 17: 40 UISPP Flint Mining Commission Meeting: News and Future Activities Friday, 30th of September 9:30 Excursion to Spiennes: visit of the Neolithic lint mines: a walk around the site, a visit of the mines (Camp-a-Cayaux and Petit-Spiennes) and of the Interpretive Centre (Petit-Spiennes) Saturday, 1st October 9:30 Excursion to Spiennes: visit of the Neolithic lint mines: a walk around the site, a visit of the mines (Camp-a-Cayaux and Petit-Spiennes) and of the Interpretive Centre (Petit-Spiennes) 14 ORAL AND POSTER SESSIONS - ABSTRACTS WEDNESDAY, 28th OF SEPTEMBER 11:00 – 11:25 circulation of tertiary Bartonian lint (originating from the Paris Basin) was following more diverse modalities. Some knappers may have moved from the Paris Basin to Hainaut, but it is certainly not the only way that Bartonian lint was introduced on the Blicquian sites. This study shows the intensity of the relations between villages, demonstrating the importance of exchanges for the socio-economical organization of those agro-pastoral communities. SPECIALIZATION OF THE LITHIC PRODUCTION IN THE COMMUNITY AND AMONG SEVERAL COMMUNITIES DURING THE END OF THE EARLY NEOLITHIC IN BELGIUM, THE CASE OF THE BLICQUIAN SITES Solène DENIS WEDNESDAY, 28th OF SEPTEMBER 11:25 - 11:50 Keywords Early Neolithic, Blicquy group, Belgium, lithic technology, labour specialization, difusion networks PLACING THE TRANSMISSION OF TECHNICAL KNOWLEDGE IN THE SYSTEM OF BLADE PRODUCTION. A CASE STUDY FROM THE EARLY NEOLITHIC FLINT MINE OF CASA MONTERO (MADRID, SPAIN) In the North of France and Belgium, the Blicquy/ Villeneuve-Saint-Germain culture marks the end of the Danubian traditions (Early Neolithic Period). he eleven sites found in Belgium belong to the Blicquian facies of this cultural entity. Two settlement areas, separated by 100 km, are highlighted (in Hainaut and in Hesbaye). An analysis of the technical and economical characteristics of the Blicquian lithic industry was performed in order to describe the socio-economic organization relating to the lithic production as well as the relationships between the diferent settlements areas of this culture. he study concluded that there were two distinct types of production. A group of knappers produced flakes and faceted tools (outils facetés) in a domestic context. Another group of knappers, who had speciic skills, produced blades which were found in each house. However, arguments converge to suggest that the latter moved from one house to the next and even from a site to another, suggesting some kind of specialization of the laminar production in the community or even among several communities. The circulation of Ghlin lint (probably originating from Hainaut) shows that some knappers moved between Hainaut and Hesbaye. he Nuria CASTAÑEDA, Susana CONSUEGRA, Pedro DÍAZ-DEL-RÍO Keywords Early Neolithic, Casa Montero, flint mining, knowledge transmission, blade production Recent research at Casa Montero (c. 5300-5200 cal BC) has provided key information to understand the earliest Neolithic technical system of lint production at the lint mine. his is a result of a complex web of diferent operational sequences. Both the ageing process and the continental nature of Casa Montero’s lint limited the eiciency of blade production, one of the main goals of the mine. As a result, most of the extracted raw material was discarded throughout the process. However, a resourcefully planned management 15 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 allowed its reuse for other socially critical purposes. he optimization of raw material stands out as a key feature of the technical system speciically developed at the site. A complex network of six reduction sequences with diferent goals was accomplished there. hey were all successfully harmonized in order to allow the performance of others sequences. This organizational knowledge was a substantive part of the social capital of Early Neolithic communities and, as such, required of its inter-generational transmission. Furthermore several studies concerning the dissemination of this material show a regional distribution (about 50 km from the extraction sites) of these pieces shaped by bifacial retouching. his is primarily found in the context of sepulchres but also, more discreetly, among household implements. The study of the household objects found at Cambous (Viols-en-Laval, Hérault), located close to another outcrop of the Eocene Age, that of Saint-Martin-de-Londres (Hérault), allows us, on one hand to better understand what are the routes used by the lint pieces from Salinelles up to Cambous and on the other hand, to assess the importance of this material used for household objects, the tools fashioned with this type of material in the context of settlements. Younger community members were progressively introduced in this complex technical system; taking part in a multifaceted set of tasks and parts of the whole production process, from extraction to recycling and waste management. One of the key social activities that took place at the mine was knapping apprenticeship. As part of a ‘situated learning’ they were involved in the mining tasks in order to become gradually full members of their community. Indeed, with the scarcity of these shaped pieces, (although some elements seem to have been shaped on the Cambous site), and the simplicity of these pieces, it may suggest this type of raw material took a specific distribution route, developed during the period Fontbouisse between 2800 and 2200 cal BC. We will present a new distribution map of the material, based on the inventory we have made of the Languedoc collections. WEDNESDAY, 28th OF SEPTEMBER 11:50 - 12:15 INFLUENCE AND ROLE OF THE FLINT PLAQUETTES OF SALINELLES IN SOUTHERN FRANCE - THE EXAMPLE OF CAMBOUS SETTLEMENT (VIOLS-EN-LAVAL, HÉRAULT, FRANCE) WEDNESDAY, 28th OF SEPTEMBER 12:15 – 12:40 Guilhem LANDIER CRUSHING, HAMMERING, AND SPLITTING: TRACING LOCAL PATTERNS OF LITHIC Keywords Flint plate, sourcing distribution, habitat, bifacial knapping, inal Neolithic PRODUCTION AND CONSUMPTION AT A NEOLITHIC CHERT QUARRY LANDSCAPE ON THE SWABIAN ALB, GERMANY In the South of France, several sources of lint production emerged during the diferent phases of the inal Neolithic period. he Oligocene outcrops of Salinelles (Gard, France) deliver a particular type of material, lint plaquettes (5 to 20 mm thickness), used during the third millennium BC to make tools shaped by bifacial retouching. hese include large items, such as daggers, natural backed scrapers, convex bi-scrapers, or armatures. Lynn FISHER, Susan HARRIS, Jehanne AFFOLTER, Corina KNIPPER, Rainer SCHREG Keywords Upland Neolithic, regional survey, Jurassic chert, lithic production, microfacies analysis The Swabian Alb in southern Germany has long been known as a major regional source of chert for Neolithic stone tool production, but Neolithic activities on this upland limestone plateau had not been directly investigated. Instead, the focus has been on well-documented settlement landscapes in neighboring lowland areas of the Neckar and Danube valleys and the Alpine Foreland. In addition, studies of Neolithic chert acquisition and transport in the region have focused largely on long-distance distribution of blades or sickle blades made on distinctive stone types Identiied since the early twentieth century, this site was the subject of ity years of excavations that exposed two mine shafts. Subsequently, ground surveys allow identifying several lint knapping workshops near the outcrop. he excavation of the site Pouget 1 (Souvignargues, Gard), less than two kilometers away from the outcrop, revealed a waste pile of lint plaquettes. 16 ORAL AND POSTER SESSIONS - ABSTRACTS such as the tabular Jurassic cherts of Bavaria. Drawing on a regional project aimed at addressing questions about the chronology and function of upland Neolithic settlement on the southeastern Swabian Alb, we examine aspects of local lithic production and consumption at the irst documented chert quarry landscape on the plateau. Results begin to shed light on chert acquisition in an upland Neolithic landscape. Siliciication was caused by Tertiary volcanic activity, i.e. action of hot hydrothermal solutions on organic matter of wood. On Lojanik, the characteristics of raw material mining and the zones of intensive workshop activities, but also modern exploitation from the seventies of the 20th century, were separated. he aims and models of mining changed during time regarding the selection of raw materials, but the source of ores remained the same. In order to assess the terrain configuration and map the surface distribution of lithic raw/processed material clusters, close range photogrammetry procedures were implemented on site, using a pole mounted DSLR camera to acquire imagery data. Investigations at the large chert quarry landscape of Asch-Borgerhau, near Blaubeuren, Germany, documented visible surface features and chert acquisition pits dating to Early/Middle, Younger, and Final Neolithic periods. Sedimentary microfacies analysis allows us to trace the transport of chert from the quarry to surrounding settlements and surface archaeological sites. We present results of technological analysis of cores, hammerstones, splintered pieces, and debitage samples to identify lithic production practices on the quarry site. Distinctive marks of crushing, hammering, and splitting are interpreted, in the light of literature on experimental archaeology and our own limited experiments, as representing a combination of techniques for splitting large nodules, producing useable blocks and large lakes. Comparisons to materials found in surface survey, including cores on large lakes, ofer insights about patterns of local chert consumption. Results of this project contribute to an understanding of diversity in local patterns of resource use, consumption and transport in the Central European Neolithic. The economy of the settlements in the close vicinity of Lojanik, such as the Early Neolithic settlement of Crkvine or the Palaeolithic open-air site of the Joldovića houses were crucially dependent on opal and other siliceous rocks from Lojanik. Based on macroscopic petrological analyses, a part of artefacts from Early Neolithic settlements of Central Šumadija (over 50 km far away) may originate from Lojanik. Archaeological research of Lojanik is important for several reasons, and two of them are emphasized here. It is the irst raw material mine in Serbia which is the topic of a separate scientiic-research project. he second reason lies in the fact that investigations into the relationship between the mine and neighbouring settlements both in a narrower and a wider territory can be conducted and that a hypothesis on the distribution network can be set up. It is oten impossible to connect mining activity with concrete communities in the surroundings. In the case of Lojanik, two settlements from two diferent time periods have been conirmed as the consumers of its mining activity. WEDNESDAY, 28th OF SEPTEMBER 14:00 – 14:25 LOJANIK, WEST-CENTRAL SERBIA. CATENA OF PREHISTORIC MINING THROUGH TIME AND SPACE Vera BOGOSAVLJEVIĆ PETROVIĆ, Dragan JOVANOVIĆ, Jugoslav PENDIĆ, Divna JOVANOVIĆ WEDNESDAY, 28th OF SEPTEMBER 14:25 – 14:50 BRONZE AGE WORKSHOP MATERIALS FROM THE WIERZBICA "ZELE" FLINT MINE SITE (POLAND) Keywords Mining, circulation of raw materials, workshop, characterisation of raw material, Palaeolithic, Neolithic IN THE LIGHT OF RECENT RESEARCH Jacek LECH, Dagmara H. WERRA The Lojanik Hill rises immediately above the modern settlement of Mataruška Spa (West Central Serbia), 200 km south of Belgrade. It represents a unique site of paleobotanical and archaeological character. This is the area where fossil remains of a siliciied forest and remains of a long-lasting mining activity have been found, dating from the Middle Palaeolithic to the Early Neolithic and the Late Neolithic, with indications of exploitation during the Bronze Age. Keywords Wierzbica “Zele”, flint, flint mining, Bronze Age, Central Poland he lint mine Wierzbica “Zele” in central Poland is one of the most important archaeological sites in Europe relating to chipped stone production in the Bronze Age and at 17 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 the beginning of the Iron Age. he site was excavated in 1980–1988 by Hanna and Jacek Lech. last century. Subsequently, the mines have been listed as an archaeological monument. In 1984, “World Archaeology” published the irst results concerning workshop places of the “Zele” mining field and its trends in flint working. The radiocarbon dates indicated the existence of the mine in the Bronze Age and beginning of the Iron Age. Preliminary results showed that during the Early Bronze Age, the most popular material for making tools were small lat-shaped nodules. he “Zele” inds dateable to this period include numerous early and advanced roughouts for bifacial headaxes produced from such nodules, as well as fragments of tabular lint plates. In the Late Bronze Age, at the end of the 2nd and beginning of the 1st millennium BC, the “Zele” mine was exploited by communities of the Lusatian culture, belonging to the cinerary urnield complex. A characteristic feature of the lint industry of these communities was large tools known as “Zele” type backed blade knives. hey were made from massive blade blanks, blade-lake blanks and lake blanks obtained from large, irregular cores. Little attention has been paid to the surrounding area. he lint mines are located predominantly in a woodland area. In contrast, the surroundings are in agricultural use: mostly arable land, pastures and orchards. his area is until now excluded from legal protection. From 2008 until 2013 the Cultural Heritage Agency of the Netherlands has investigated a 250 hectares large area surrounding the mines. he main reason was to assess the nature, scale, age and physical quality of the archaeological features and their context. he results are used as a basis for recommendations as to whether the areas surrounding lint mines qualify for protection (statutory or otherwise) and sustainable preservation. he second aim was to develop methods and techniques that allow conclusions to be drawn about past activities in this area, especially specialised flint working and the domestic and ritual activities. The prospective methods used to interpret past activities were analyses of surface inds, ield surveys, geophysical research, archaeological data from drilling surveys and mapping of the subsoil structure. Since 2011 we started a new analysis of the lint materials. his paper will present the aim, method and new results of the study. We focused on comparison of inventories from the Early Bronze Age (shat 17), and from the Late Bonze Age (shat 28). One of the questions was if proxies could be deined such as distinctive features and artefacts types, assemblage composition, heating lint, to discriminate diferent past activities at mine surroundings. he results of the prospective methods have been tested by excavations, such as trial trenches. We think that our research strategy could be useful for assessment of past activities on other archaeological sites. Acknowledgements Presentation of the investigations was possible thanks to the inancial support of the Institute of Archaeology and Ethnology Polish Academy of Science in the competition Adulescentia est tempus discendi (11/ATD6/MN/2016). WEDNESDAY, 28th OF SEPTEMBER 14:50 – 15:15 WEDNESDAY, 28th OF SEPTEMBER 15:15 – 15:40 RIJCKHOLT, BEYOND THE FLINT MINES AN INVESTIGATION OF THE SURROUNDING OF THE NEOLITHIC FLINT MINES OF RIJCKHOLT-ST. GEERTRUID. ENGLAND Jan-Willem DE KORT, José SCHREURS Jon BACZKOWSKI METHODOLOGIES OF EXTRACTION: THE MINING TECHNIQUES IN THE FLINT MINES OF SOUTHERN Keywords Surrounding of Flintmines, Neolithic, methods of prospection and value assessment Recent research on the chronology of the Early Neolithic (4000-3500 BC) in southern England has highlighted that a small group of lint mines in West Sussex are amongst the earliest monuments to appear in the landscape (Whittle et al., 2011). hese sites are now considered central to the spread of Early Neolithic ideologies across the region, he lint mines have been extensively investigated by the Prehistoric Flint Mines Working Group of the Dutch Geological Society in the sixties and early seventies of the 18 ORAL AND POSTER SESSIONS - ABSTRACTS rather than being viewed as peripheral to monuments, such as causewayed enclosures and long barrows, which were long thought to be their contemporaries, but are now proved to be later in the southern chronology. he Neolithic sites in the valley of Le Petit-Morin, in the marshes of Saint-Gond (Marne, France) have been known since the discoveries of Joseph de Baye, between 1870 and 1886. As his discoveries were made during the pioneering times of French Neolithic archaeology, these sites are still very poorly known today. Of the 150 hypogea discovered in the Marne department, around 120 are located in the Saint-Gond marshes. hese collective burials, dated between 3500 and 3000 cal BC, are grouped in 15 necropolises. he graves were dug in the chalk of the right bank of Le Petit-Morin, on the Île-de-France cuesta, in the east of the Paris Basin. he presentation will outline indings from research into the mining methodologies that underlie extraction techniques at the flint mines in Sussex. It will be proposed that a common set of procedures and techniques were followed that not only connect the Sussex mines to each other, but also the southern English mines to Continental sites. his comparison has signiicant implications for how the Sussex mines are understood to have developed within a framework for the spread of Early Neolithic culture in southern England. Although several lint mines were discovered between 1872 and 1942, these sites have not yet been fully explored in the Saint-Gond region. he process and system of exploitation, the precise dates, the characterisation of the lint, the identification of the knapping techniques used and the reconstruction of the method of production should now be investigated. Underlying this research is the notion that the mining methodology was developed through many years of trial and error, meaning that the techniques could only be learnt by direct contact between individuals and groups. These procedures were likely to have been passed on to generations of miners through direct experience, rather than being learnt casually between disparate communities. As there is an absent of evidence for the development of mining at the Sussex sites, it is proposed that the technology arrived fully formed from the Continent. Further to this, it will be reasoned that they relate to the movement of mining communities, rather than informal cross-channel contact. A new research program concerning the Neolithic of the Saint-Gond marshes (directed by R. Martineau, supported by the French Ministry of Culture, the University of Bourgogne and Franche-Comté, and by the CNRS), which began in 2012, has improved our knowledge of these questions. Further investigation of the sites involved 20 weeks of archaeological excavations and 6 weeks of archaeological surveys. he surveys characterised and mapped the sites, and identiied new site evidence, notably dwelling-sites. he lint sedimentary lithofacies were also described during the surveys. All the topographic data were integrated into a GIS. Finally, the presentation will outline recent data from geophysical surveys of mine sites in Sussex, conducted by the presenter as part of his PhD project. A major objective of the research is to gather data on the nature of production activity in the wider mining environs, as these areas were oten ignored in historical research. he presentation will investigate how data gathered from zones of production, located away from the deep shats, can be placed within the mining methodology and chronology. It is also important to understand how their research may afect wider studies of Early Neolithic communities in southern England, especially the problem of deining settlement patterns in this key period of prehistory. Results to date consist of a distribution map of the lint outcrops, and of all the Neolithic sites, including the lint mines, as well as a better knowledge of the ancient discoveries of flint mines by studying their archives. Radiocarbon analyses from excavations at two sites, in Vert-la-Gravelle (Vert-Toulon) « La Crayère », and Loisyen-Brie « 56 Grande Rue », have provided a more precise chronology of lint exploitation. he system of lint extraction was reconstructed based on the topography and the distribution of lint layers in the Campanian chalk. WEDNESDAY, 28th OF SEPTEMBER 16:00 – 16:25 Possible relations between the hypogea necropolises and the mining centres in this region will be examined by spatial analysis and by radiocarbon dating. One of the main goals is to try to understand the territorial organisation of the Late Neolithic societies in this region. THE NEOLITHIC FLINT MINES OF LE PETITMORIN VALLEY (MARNE, FRANCE) Rémi MARTINEAU, Jehanne AFFOLTER, Jean-Jacques CHARPY, Anthony DUMONTET, Laure SALIGNY 19 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 WEDNESDAY, 28th OF SEPTEMBER 16:25 – 16:50 the only extraction sites of Bedoulian lint in Vaucluse. WEDNESDAY, 28th OF SEPTEMBER 16:50 – 17:15 NEOLITHIC MINES AND QUARRIES IN VAUCLUSE (FRANCE) A NEW RESEARCH PROJECT FOCUSED ON THE STUDY OF FLINT QUARRIES IN NE IBERIA Pierre-Arnaud DE LABRIFFE, Adrien REGGIO, Pierre ANDRE Keywords Flint mines, grooved hammers, south of France Xavier TERRADAS, David ORTEGA, Dioscórides MARÍN, Alba MASCLANS, Carles ROQUÉ The Vaucluse department, located on the left bank of the lower Rhone valley, possesses a great amount of lint of high quality that lays in the Cretaceous Bedoulian stage. Neolithic people of Southern France used this raw material on a massive scale. Tools made from that flint are known for the beginning of the Neolithic and can be found miles away. During the middle Neolithic the use of this flint becomes even more important. This period sees the implementation of a production of bladelets, made according to a very specific chaîne opératoire, which is spread over several hundred kilometres (Toulousian region, Catalonia). Finally in the Recent / Final Neolithic the exploitation of the Bedoulian lint continues with the production of blades. Keywords Flint, Quarries, Raw Material, Neolithic, NE Iberia. Over the last years, many thematic surveys have been carried out with the goal of creating a lithotheca focused on the availability of siliceous rocks into North-Eastern Iberia (LITOcat project). In the frame of these ieldwork seasons abundant evidence of prehistoric flint exploitation have been attested, such as negative structures on the surface outcrops, accumulations of mining waste or some mining tools. As a consequence, we have launched a research project devoted to study these quarries and speciic sites where the first transformation of siliceous raw materials took place. Its aim is to characterize the nature of lint procurement, trying to determine its chronology, the strategies of lint extraction put into practice as well as the irst stages of raw material processing. As frequently in the Neolithic, the flint which was used comes from mines or quarries. hose of Vaucluse are known since more than a century. It is irst of all the presence of a signiicant number of grooved hammers which attracted the attention of the irst researchers, especially in the municipalities of Murs and Malaucène. hey quickly made the link between these very particular tools and the existence of important workshops in the middle of which they had been abandoned. he relation between hammers and lint extraction was thus established from the irst publications. The project considers the intervention on four of these speciic sites. So far, excavation works focused on a quarry where nodular brown lint was extracted from lacustrine Oligocene limestones in the Serra Llarga Hills (Castelló de Farfanya, NE Spain). Up to now, this site constitutes the only example of a specialized flint extraction site in the North-East of the Iberian Peninsula. Flint extraction was easy thanks to the fact that the targeted strata outcrop vertically and are quite accessible, lint being extracted by means of several stepped exploitation fronts opened into the slopes of the hills. his situation allowed the opening of successive extraction fronts without the need to remove huge quantities of mining waste. Beyond the surveys, limited ieldwork was achieved only on the site of Malaucène. We will focus on both small digs made by E. Schmid in 1959 and 1962. It is her publications (Schmid on 1960, 1963 and 1980) that allowed the community of the mining archaeologists to become aware of the importance of the site. he hypothetical reconstruction of the system of extraction which she proposed in the article of 1980 drew a lot of attention. At the same time we are developing a strategy focused on diffusing our scientific activity in the specific places where we are carrying out excavations. his way we expect to reach more visibility on ongoing research, raising the awareness among local population about the patrimonial signiicance of that type of archaeological sites. Since the research of E. Schmid the extraction sites of Vaucluse were forgotten again. We decided to resume work on the sites of Murs and Malaucène, where most hammers were found. In this communication, ater a quick history of research, we shall present the irst results of our project. We will insist on both the mining features and the operating systems. We will also see that Murs and Malaucène are not 20 ORAL AND POSTER SESSIONS - ABSTRACTS WEDNESDAY, 28th OF SEPTEMBER 20:00 – 22:00 Van Gogh Lecture Hall, University of Mons flint exploitation but instead should be seen as dynamic and monumental architectural spaces where creative and meaningful social actions took place. Work by one of the co-authors (AT) identified examples of chalk art from Cissbury (UK) within a museum archive in Oxford, UK (Teather 2015) with similar examples from Spiennes being located at the Cinquantenaire Museum, Brussels, Belgium, in 2015. Collaborative research between the co-authors has not only linked the UK sites with Spiennes but also identiied cultural similarities with Hov in northern Jutland, Denmark. GUEST LECTURE LES GRANDES LAMES EN SILEX DE L’EUROPE DU NÉOLITHIQUE ET ALENTOUR Jacques PELEGRIN Directeur de Recherche, CNRS he integration of this data and these monuments within broader discussions of the Mesolithic-Neolithic transition (e.g. Sørensen and Karg, 2014) suggests that the role lint mining played in the adoption of Neolithic ways of life was not just economic but part of a broader spectrum of widespread and meaningful cultural behaviours. Sur la base d’une série de tests expérimentaux, sont d’abord présentés les caractères morphologiques et les stigmates techniques du débitage de grandes lames en silex par percussion indirecte et par pression au levier, cette dernière au bois de cervidé ou avec pointe de cuivre. Barber, M., Field, D. and Topping, P. 1999. he Neolithic lint mines of England. Swindon: English Heritage. Sørensen, L. and Karg, S. 2014. he expansion of agrarian societies towards the north – new evidence for agriculture during the Mesolithic/Neolithic transition in Southern Scandinavia. Journal of Archaeological Science 51: 98–114. Teather, A. M. 2015. he irst British Neolithic representational art? he chalk engravings at Cissbury lint mine. Antiquity Project Gallery Teather, A. M. 2016. Mining and materiality: Neolithic chalk artefacts and their depositional contexts in southern Britain. Oxford: Archaeopress. Topping, P. 2005. ‘Shat 27 revisited: an ethnography’, in P. Topping & M. Lynott (ed.) The cultural landscape of prehistoric mines: 63–93. Oxford: Oxbow. Ces critères d’identification sont ensuite appliqués aux produits de différents centres ou régions de l’Europe et alentour, du 7e au 3e millénaire av. J.-C., du Proche-Orient à la péninsule ibérique, et du Danemark à l’Algérie. Au moins six « traditions techniques » originales sont ainsi identiiables, ainsi que de probables déplacements de tailleurs spécialisés à très longue distance. THURSDAY, 29th OF SEPTEMBER 09:00 – 09:25 FLINT MINES WITHOUT THE FLINT: SYMBOLIC CULTURAL PRACTICES OF FLINT EXTRACTION IN NORTHERN EUROPE THURSDAY, 29th OF SEPTEMBER 09:25 – 09:50 Anne TEATHER, Lasse SØRENSEN HUMAN SKELETONS IN THE FLINT MINE SHAFTS OF SPIENNES: CASUALTIES OR BURIALS? Keywords Chalk, art, Mesolithic-Neolithic transition, symbolism, galleries Michel TOUSSAINT, Hélène COLLET, Ivan JADIN, Philippe LAVACHERY, Stéphane PIRSON, Michel WOODBURY, Joël ELOY, Sylviane LAMBERMONT The northern European early Neolithic flint mines have chronological and technological similarities, but little attention has been focused on their cultural similarities. Since the survey of the British mines (Barber et al., 1999) and Topping's (2005) work on the complexities of structural deposition in shat ills, it has been possible to arrive at the conclusion that the mines had much more of a monumental and symbolic role in Neolithic life than previously thought (Teather 2016). here is compelling evidence that the voids – shats and galleries created through the process of lint extraction - were not merely the abandoned features of Keywords Neolithic, human skeletons, lint mining, casualty, interment he region of Mons has a long-standing reputation for producing evidence of Neolithic mining casualties. At the end of the nineteenth century and the beginning of twentieth century, skeletons of miners were discovered in Obourg and Strépy. At about the same time another two skeletons were found in the slope of the « Camp-à-Cayaux » and 21 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 attributed to prehistoric miners. Several isolated human bones were also found during excavations of the upper part of mining shats from the 1920s to the 1950s. However, the careful re-examination in the beginning of the 1990s of the context of discovery and the dating of the Obourg and Strépy inds demonstrated that those skeletons were neither Neolithic nor mining accident victims. his study cast severe doubts on the whole collection of so-called Neolithic skeletons found in Spiennes. at prehistoric extraction sites. his framework was tested against 223 global archaeological sites, revised further, and then it was used to interpret the structures, features and assemblages from published excavations at 79 lint mines and 51 stone axe quarries in the UK and Ireland. his ethnoarchaeological interpretive framework suggests that we can now probably identify with reasonable conidence those extraction sites which were associated with myths and storied locations, sites which might be under some level of ownership, sites that were only used seasonally, the sites which practiced ritualised extraction, and something of the functionality and social signiicance of extraction site products. Since 1997 new archaeological research on the mining site of Spiennes driven by the Service public de Wallonie and the Société de Recherche préhistorique en Hainaut led to the discovery of other human skeletons, these ones clearly deposited in mining shat backills. Radiocarbon dating conirmed their Neolithic age. his new data led to a full-scale dating program of the old discoveries which revealed that most of them were actually Neolithic. We now have very accurate archaeological and stratigraphical data to address the question: are those skeletons remains of mining casualties or proper burials ? his analysis suggests that many of the UK extraction sites were special places in the cultural landscape and distant from settlements. he sites were oten used in proscribed ways following general patterns of working, and particular types of artefact assemblages were carefully deposited in the workings. he framework suggests that this relects not only technical skill combined with ritualised practice, but also a level of social exclusivity – the sites were probably controlled by clans or technical elites who passed on their skills through systems such as apprenticeships. Previous data from the petrographic analysis of stone axes, and to a lesser extent for lint, demonstrates that many extraction site products travelled long distances from their source, and were oten unused and deposited in non-settlement contexts. his contrasts dramatically with the studies of artefacts knapped from expedient sources, which generally occur in more mundane domestic contexts, and conirms the special nature of many extraction sites. he presentation will review the state of knowledge about human remains on the flint mining site of Spiennes and compare those finds with other similar finds from European Neolithic mines. THURSDAY, 29th OF SEPTEMBER 09:50 – 10:40 KEY NOTE LECTURE THE SOCIAL CONTEXT OF PREHISTORIC FLINT AND STONE EXTRACTION IN THE UK Taken together, the statistically robust ethnoarchaeological probability analysis now provides a more conident foundation upon which to model the social context of extraction sites through the detailed contextual analysis of their assemblages. Peter TOPPING Keywords Ethnoarchaeology, probability analysis, social context THURSDAY, 29th OF SEPTEMBER 11:00 – 11:25 he social context of mines and quarries is a fundamental issue concerning the interpretation of Neolithic stone extraction, particularly in pre-literate societies. Why did communities choose to exploit certain raw materials in preference to others which were oten more accessible? To attempt to answer this question a review of 168 ethnographic studies, drawn from around the world, has analysed the ways in which traditional communities use extraction sites, to identify the common trends and behaviours in extraction practices and produce a suite of robust statistics. he collated ethnographic statistical data has been used to construct an interpretive framework to provide a probability analysis to aid interpretation of the material record MAPPING THE RADIOLARITE OUTCROPS AS POTENTIAL SOURCE OF RAW MATERIAL IN THE STONE AGE: CHARACTERISATION OF POLISH PART OF THE PIENINY KLIPPEN BELT Katarzyna KERNEDER-GUBAŁA, Paweł VALDE-NOWAK Keywords Radiolarite, Pieniny Klippen Belt, exploitation, Palaeolithic 22 ORAL AND POSTER SESSIONS - ABSTRACTS THURSDAY, 29th OF SEPTEMBER 11:25 – 11:50 Radiolarite is a siliceous raw material originated of radiolarian skeletons in a deep-sea context. In primary deposits it occurs mostly in stratiied beds or nodules. Its macroscopic features, as well as its colour, texture and lustre are diversiied. BALKAN FLINT SOURCING AND DISTRIBUTION IN THE EARLY NEOLITHIC BALKANS Radiolarite is present in many geological units and was commonly used during the Stone and Early Bronze Age in Europe. In some regions it was the main raw material. One of the most important sources of good quality radiolarites in Central Europe is the Pieniny Klippen Belt in Carpathians (Romania, Ukraine, Slovakia, Poland). It occurs in the Southern part of Poland, in Pieniny Mountains and Podhale region (Nowy Targ district, Małopolskie voivodeship). Before research conducted in this area by P. Valde-Nowak and J. Rydlewski (since 70s of the 20th century) that brought discoveries of sites based on the local radiolarite, it was thought that all the artefacts made of this raw material found among inventories from the Stone Age sites in Poland came from Slovakian or other foreign quarries. Maria GUROVA, Clive BONSALL Keywords Balkan flint, Upper Cretaceous, Early Neolithic, formal toolkit, network distribution A distinctive feature of the Early Neolithic Karanovo I culture of Bulgaria is a flint industry characterized by ‘macroblade’ technology and widespread use of ‘Balkan Flint’ in conjunction with formal toolkits. he origins of this technology and the associated raw material procurement system are still unresolved. Balkan lint also occurs in Early Neolithic contexts outside the Karanovo I culture area, notably in the southern Balkans (Turkish hrace) and in the lower Danube catchment (Carpathian Basin, Iron Gates, southern Romania and northern Bulgaria). he distribution corresponds closely with what has been termed the ‘First Temperate Neolithic’ comprising the Karanovo I-II, Starčevo, Criș and Körös cultures. Did the Balkan lint used by Early Neolithic communities across the Balkans come from one or more sources on the Moesian platform in northern Bulgaria and, if so, where were those sources located? his question has prompted several attempts to provenance lint raw materials using petrological and/or trace element analyses. he only securely identiied outcrops of Balkan flint are in the Upper Cretaceous Mezdra Formation in the Pleven-Nikopol region of northern Bulgaria. As indicated by the latest discoveries from Obłazova Cave, radiolarite was exploited and used in this area since the Middle Palaeolithic and in the Upper Palaeolithic. Large scale processing of radiolarite was still conducted during the Late Palaeolithic. The actual mining of radiolarite is confirmed through examples in Slovakia or Austria. In Poland direct evidence of mining are not yet known, but the presence of workshops in the vicinity of outcrops, as well as mining tools made of antler from layer VIII in Obłazowa Cave suggest, that it could have taken place also in this area. The distribution of radiolarite is well documented in Poland. his raw material is even present among the inventories of Stone Age sites located a few hundred kilometres from the outcrops. The identification of the exact beds from which the artefacts come is still under discussion, but recently new attempts of solving this problem in Europe brought some positive results. he paper focuses on several challenging aspects of the Neolithization of the Balkans, introducing into the debate the evidence provided by lithic studies, especially that relating to the sourcing and exploitation of Balkan lint. Among outstanding questions are: (i) was Balkan flint used by the irst (‘pre-Karanovo’) Neolithic communities in Bulgaria; (ii) what role did Balkan flint play in the Neolithization of Southeast Europe ; (iii) did access to Balkan flint result in the emergence of a new laminar technology ; (iv) how did the Early Neolithic Balkan lint exchange network compare to that based on obsidian, which developed in and around the Aegean Basin ; and (iv) what and where were the origins of the Balkan lint network and the formal tools associated with it? his presentation focuses on the geological characterisation as well as raw material diferentiation among the diferent radiolarite outcrops in the Pieniny Klippen Belt in Poland, in view of its possible exploitation and exportation. 23 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 THURSDAY, 29th OF SEPTEMBER 11:50 – 12:15 L*a*b* data, most of the samples from Vela Cave dated from the Neolithic to the Bronze Age match those from the Late-Upper Palaeolithic, but a new yellowish f lint with mottled structure is present only among Neolithic to Bronze samples. UNDERSTANDING FLINT CIRCULATION THROUGH ADRIATIC SEA: FIRST RESULTS pXRF data for the Tavoliere area show that Scaloria samples have a strict correspondence with the Gargano mines of Arciprete and Mastrotonno while the Neolithic village of Masseria Candelaro and Monte Aquilone show higher chemical variability to be related with acquisition of raw materials from diferent (alluvial?) sources. Italo Maria MUNTONI, Emanuela DELLUNIVERSITÀ, Giacomo ERAMO, Alessandro MONNO, Ignazio ALLEGRETTA, Zlatko PERHOĈ, Stašo FORENBAHER, Massimo TARANTINI Keywords Late Palaeolithic and Neolithic, Gargano mines, Tavoliere Area, Southern Dalmatia, CIE L*a*b*, pXRF THURSDAY, 29th OF SEPTEMBER 12:15 – 12:40 Current archaeological knowledge about the circulation of flint in the central Mediterranean Sea identifies the Gargano Promontory as one of the main sources. In addition, the Gargano is located along one of the supposed Neolithic expansion routes in Southern Italy, which is the “bridge” of Adriatic islands connecting the Southern Dalmatia to the north of Apulia. RAW MATERIALS AND DISTRIBUTION OF NEOLITHIC MINING PRODUCTION FROM THE MONS BASIN (BELGIUM). PRELIMINARY RESULTS Jean-Philippe COLLIN, Jean-Marc BAELE, Françoise BOSTYN, Hélène COLLET Our previous study, based on macroscopic and chemical analysis of a selection of 151 samples of lint from mining districts and geological outcrops throughout Gargano Promontory (Northern Apulia), provided a reference dataset to compare with new data obtained on 45 flint tools and debitage from archaeological excavated contexts at Scaloria, Masseria Candelaro and Monte Aquilone (Neolithic, Tavoliere area). Keywords Raw materials, sourcing, Mons Basin, distribution network he Mons Basin (Province of Hainaut, western Belgium) is a geologically rich region, particularly from the point of view of Upper Cretaceous sedimentary deposits, conducive to an important lint extraction activity during Neolithic. In this contribution we present new data on 292 Late Palaeolithic and Neolithic lint tools from nine archaeological sites located in Southern Dalmatia. A selection of representative geological f lint from Gargano mines (33 samples), from Neolithic villages of Tavoliere (33 samples) and from Late Palaeolithic and Neolithic sites of Southern Dalmatia (70 samples) was analysed by pXRF in order to verify the hypothesis of Gargano lint circulation across the Adriatic. Despite the relative proximity between lint extraction areas, new data about sourcing and raw material characterization based on macroscopic observation completed by selective analysis (e.g. petrography and electron probe microanalysis) allow to distinguish distinct facies from the main mining sites (Spiennes, Douvrain, Flénu). New colorimetric (CIE L*a*b*) and chemical (portable XRF) data on 292 samples (only 70 were analysed with pXRF) showed relevant matches between Gargano and Southern Dalmatian samples. pXRF data let exclude Defensola A and San Marco as source areas while some f lint samples from archaeological site of Vela Cave and Sušac can be strictly related to the f lint mines of Arciprete, Mastrotonno (both in the Vieste district) and probably Carmine near Manfredonia. Flint samples from Palagruža show a diferent chemical composition and they could be interpreted as source area for some groups of samples from Vela. As regards colorimetric CIE his leads us to make a irst evaluation of the distribution of the mining production outside the Mons Basin. Some considerations regarding the chronology of the mining activity in the Mons Basin will be discussed. This work is a step towards an important objective of a PhD research project, namely the identification of economic networks resulting from the distribution of lithic productions, from extraction sites to Neolithic settlements in- and outside the Mons Basin. 24 ORAL AND POSTER SESSIONS - ABSTRACTS THURSDAY, 29th OF SEPTEMBER 14:00 – 14:25 THURSDAY, 29th OF SEPTEMBER 14:25 – 14:50 GEO-RESOURCES AND TECHNO-CULTURAL EXPRESSIONS IN THE SOUTH OF THE FRENCH MASSIF CENTRAL DURING THE UPPER PALAEOLITHIC: DETERMINISM AND CHOICES. FLINT SOURCING REVISITED, THE BERGERAC CASE Paul FERNANDES, Vincent DELVIGNE, Stéphan DUBERNET, François-Xavier LE BOURDONNEC, André MORALA, Luc MOREAU, Michel PIBOULE, Alain TURQ, Jean-Paul RAYNAL Vincent DELVIGNE, Paul FERNANDES, Peter BINDON, Jean-Pierre BRACCO, Laurent KLARIC, Audrey LAFARGE, Mathieu LANGLAIS, Michel PIBOULE, Jean-Paul RAYNAL Keywords lint, petro-archaeology, characterization, evolutionary chain of siliciication, raw material provenance, Bergerac. Keywords Prehistory, geology, f lint, petro-archaeology, lithic industry, French Massif Central, Gravettian, Badegoulian, Magdalenian, evolutionary chain of siliciication, paleogeography, territory, settlement Studies on the origin of lithic raw materials have become increasingly important since the 1980's. Sourcing studies play a key role in appreciating territory management and group mobility, two major issues of the Archaeology of prehistoric hunter-gatherer societies. he petro-archaeology of lint deines the origin of the siliceous raw material found in archaeological sites. Recent methodological advances, like more precise facies deinition, determining the lint supply routes in studied sites, the “evolutionary chain concept” and precise mapping of siliceous mineral domains, enable us to identify not only the location where any particular lint formed (primary outcrop), but also from where it was collected (primary or secondary outcrop). Most approaches use only part of the potential information contained within archaeological lithic material. he improvement in our understanding of the nature of lint and its formation processes has allowed our interdisciplinary research-group to reine the methods used for its characterization. A major aspect of this new approach is the "chaîne évolutive" concept. Our work opens up new research directions like the surface analysis of lint artefacts which complements taphonomic studies of archaeological sites in terms of assemblage integrity and site formation processes. Exhaustive studies of Upper Palaeolithic lint collections from sites in the South of the French Massif Central (Recent and Final Gravettian: Le Blot and Le Rond-deSaint-Arcons; Badegoulian: Le Rond du-Barry and La Roche-à-Tavernat; and Upper Magdalenian: Sainte-Anne II) reveal an unexpected diversity of raw materials indicative of huge mineral territories being exploited. Accordingly, we have developed a new igurative model for the origins of lithic raw material discovered in these archaeological sites, not as a site-centred radiant form, but more akin to an interrelated network of places, which is congruent with the ethnographic and geographic data. he diferent types of lint in the lithic industries correlated with their position within the “evolutionary chain” allow speculation on the choices made by prehistoric hunter-gatherers within the natural constraints they faced. his in turn enables the addition of the mineral space into reconstructions of the palaeo-social-space. We present preliminary results of ongoing petrographic and geochemical analyses of geological samples of Bergerac lint. Our approach aims to establish the geological history of lint prior to its collection by humans and to characterize the successive events which afected lithic artefacts ater they were discarded. he multi-technical and multi-scale approach presented in this paper appears to be particularly applicable in reconstructing the lithoespace of each archaeological site to inally approach the prehistoric territories. 25 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 THURSDAY, 29th OF SEPTEMBER 14:50 – 15:15 THURSDAY, 29th OF SEPTEMBER 15:40 – 15:50 PREHISTORIC FLINT MINE DETECTION BY ALS. EXPERIENCES FROM POLAND 2011 - 2015. NEWS FROM H-3 (KÁLVÁRIA-DOMB, CALVARY HILL, TATA) Janusz BUDZISZEWSKI, Witold GRUŻDŹ, Michał JAKUBCZAK, Katarzyna RADZISZEWSKA, Michał SZUBSKI Katalin T. BIRÓ, Erzsébet TÓTH, Krisztina DÚZS Keywords Tata-Kálváriadomb, radiolarite, antler tool, Baden Culture, Lengyel Culture Keywords Flint mining, remote sensing, ALS, LiDAR Tata-Kálváriadomb is one of the oldest known “flint mines” in Hungary. It was excavated in the 1960-ies by J. Fülöp and E. Bácskay. It had already been included in the first European flint mine Bochum catalogue. The archaeological age of the exploitation was attributed to the Late Copper Age Baden Culture, based on the evidence of pottery fragments found in the extraction pits. he site is equally famous for its geological features (Upper TriassicLower Cretaceous sedimentary sequence) and is open to public as a geological park, including the lint extraction pits (developed on Jurassic radiolarite). Research on flint mining in Poland has a long history. It started at the beginning of the twentieth century through the pioneering research by S. Krukowski and J. Samsonowicz. Over the years, successive generations of Polish researchers continued investigations of prehistoric extraction and distribution of rich siliceous deposits in the whole country. Unfortunately, in the end of 1990s research in this area stood somewhat to a dead-end. Only recently, the advance of new methods of remote sensing opened the way to new research in this topic. he Institute of Archaeology of the University of Cardinal Stefan Wyszynski in Warsaw since 2011 has been researching prehistoric lint mining using airborne laser scanning (ALS, LiDAR). Within two projects, conducted in the years 2011 - 2014, we tested nondestructively a number of different mines from a chronological and geological point of view. At this time we have developed a research methodology, allowing remote sensing and veriication of new sites and also increase our knowledge about mines already known. Recent conservation work in the geological park has led to the discovery of new mining features in 2015. A test trench on the bedrock surface, 42 meters from the old pits yielded at least three antler tools with cutmarks and a new mining pit for the radiolarite. he antler tools were suitable for radiocarbon dating performed in the ATOMKI, Debrecen by M. Molnár and his team and extended the known period of use of the mine to the Late Neolithic period/Early Copper Age Lengyel Culture. We are aiming at further excavations on the Tata site. We want to present briely all the mines we investigated. These include f lint mines situated on the northern margin of the Świętokrzyskie Mountains - with the famous "Krzemionki" mine, but also one of the newly discovered banded flint mine. We study also sites with destructed anthropogenic relief - associated with the extraction of chocolate lint. In north-eastern Poland we localized a number of previously unknown lint mines of erratic raw materials, with preserved anthropogenic relief. Completely different kinds of mines are these located in the Zelków forest, near Krakow. hese are primarily associated with modern lint mining for the production of gunlints. References FÜLÖP 1980 : Flint mines in Hungary. In: G. WEISGERBER (ed)., 5000 Jahre Feuersteinbergbau. Deutschen BergbauMuseum, Bochum, p. 544-553. MOLNÁR & al. 2013a: ENVIRONMICADAS: a mini 14C AMS with enhanced gas ion source interface in the Hertelendi Laboratory of Environmental Studies (H EK A L), Hu nga r y. R A DIOCA R BON, 55 (2–3), p 338–344. MOLNÁR & al. 2013b: Status report of the new AMS 14C sample preparation lab of the Hertelendi Laboratory of env ironmenta l stud ies (Debrecen, Hu nga r y). RADIOCARBON, 55 (2–3), p 665–676. 26 ORAL AND POSTER SESSIONS - ABSTRACTS THURSDAY, 29th OF SEPTEMBER 15:50 – 16:00 THURSDAY, 29th OF SEPTEMBER 16:00 – 16:10 IN SEARCH OF THE CHOCOLATE FLINT MINE IN OROńSKO (PL1, SOUTHERN POLAND). THE CONCEPT OF SPATIAL DATABASE FOR THE PREHISTORIC FLINT MINES: BANDED FLINT, CENTRAL POLAND NEW DATA FOR ANALYSIS OF EXPLOITATION AND USE OF FLINT IN NORTH-WESTERN PART OF ITS Katarzyna RADZISZEWSKA OUTCROPS Keywords Banded lint, lint mining, spatial databases Katarzyna KERNEDER-GUBAŁA Banded f lint occurs in Middle Oxfordian to Lower Kimmeridgian carbonate sediments, in the north-eastern and south-western outskirts of the Holy Cross Mountains. Prehistoric exploitation sites, such as the famous “Krzemionki” mining field, are known solely from the irst of the regions mentioned above. hanks to a unique pattern as well as its hardness, banded lint was frequently used among the prehistoric communities. Nowadays, its aesthetic value became increasingly appreciated on the jewellery market. Unfortunately, the growing popularity of banded lint has destructively inluenced some of the prehistoric mining fields, which began to be used for illegal extraction. Keywords Orońsko, mine, lint, Late Palaeolithic he presentation focuses on new data obtained during the last ield research conducted in the Orońsko region, where in the 1920s Stefan Krukowski discovered extraction sites and knapping workshops where the local chocolate lint was processed. In 1935 he conducted small excavations, which lead to the discovery of a few prehistoric shafts. On the base of technological and typological analysis of artefacts, they were dated to the Late Palaeolithic (Arched Backed Piece Techno-complex), making it one of the oldest shat mine in Poland. Since then, no other excavations were conducted in this area. Further surface survey, carried out recently by other leading polish researchers on several occasions conirmed the existence of an extensive Stone Age settlement dedicated to the exploitation of the local chocolate flint. The contemporaneous extraction sites in the north-western part of the chocolate f lint outcrops area are visible thanks to the presence on the surface of a large number of lint artefacts, mixed from diferent chronological periods and stages of exploitation, as well as limestone nodules. No visible mining relief has been preserved. his area was very modiied by modern agricultural economy. he most likely area to ind traces of older excavations and mining shats in further exploration was identiied on the basis of preserved archival ield documentation*. Geology of banded f lint, as well as the systems of its prehistoric exploitation, have been studied for over a century now. Over the years, the amount of material and data collected has been constantly increasing. Recently, the development of new technologies has provided archaeologists with a variety of means. As a result, new opportunities for archiving data began to appear. Database Systems allow us to gather and join all the data, and if they are web-based, it can be available to many researches from all over the world simultaneously. In this paper I would like to present a spatial database, designed to compile and summarize our current knowledge of banded f lint. I hope that the results, combined with planned, analogous databases for other raw materials, will contribute to the creation of one, complete and eicient, spatial information system for all raw materials found in Poland. *he project “Exploitation and processing of chocolate lint during Palaeolithic and Mesolithic in the North-Western part of its deposits based on non-invasive archaeological and geophysical research and test-trenches” is inanced by National Centre of Science, Poland: 2015/17/N/HS3/01279, 2016-2019 27 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 THURSDAY, 29th OF SEPTEMBER 16:10 – 16:20 he objective of our presentation is triple. Firstly, we aim to present our rich Neolithic collection from Spiennes with a focus on the recently established inventory that permitted to retrieve information on, in some cases, long lost discoveries. Secondly, we will propose a brief collection historiography combining several key-moments in the early on-site archaeological activity, together with the conducted scientiic research on the museums’ artefacts. Finally, we will present a general appraisal of preservation and scientific value, emphasizing renewed electronic accessibility and management of the collection. THE SPIENNES COLLECTION AT THE ROYAL MUSEUMS OF ART AND HISTORY (RMAH) Britt CLAES, Valérie GHESQUIÈRE Keywords Spiennes, Neolithic, digitisation, collection management, inventory veriication THURSDAY, 29th OF SEPTEMBER 16:20 – 16:30 he RMAH’s National Archaeology collection preserves a very important and large collection of artefacts collected from the Neolithic f lint-mining complex at Spiennes (Mons, Belgium), that was constituted from 1867, shortly ater the irst archaeological discovery of the site, until 1958. Several fortuitous findings, surface explorations and archaeological campaigns initiated by the Belgian government led up to the amassing of more than twenty thousand artefacts and ensembles in the museum’s storage rooms. In total more than 350 cases and wooden trays were filled with discoveries in f lint, chalk, bone, ceramic and antler. Consultation and management of the collection became nearly impossible because of the absence of a consistent inventory. he irst inventory of the collection, which started in the beginning of the 19th century, was only made up of a brief description of the items and the circumstances in which they were found. No information was noted about the artefacts’ whereabouts or the state in which they were found. Furthermore missing labels or erased inventory numbers caused by the involuntary accumulation of objects highly endangered scientiic exploitation of the collection. A JADE AXEHEAD IN THE MIDDLE OF THE FAMOUS NEOLITHIC FLINT MINES OF SPIENNES? Michel ERRERA, Pierre PÉTREQUIN, Alison SHERIDAN, Ivan JADIN Keywords Spiennes, jadeite, late Neolithic, thin blade, spectroradiometric analysis, source determination Over a century ago, businessman Alfred Lemonnier donated several small but prestigious collections to the Natural History Museum of Brussels (now the Royal Belgian Institute of Natural Sciences, RBINS) while he served as Director of a limestone quarry in the Mons area for the Solvay company. An axehead made of green stone, the subject of this poster, is part of a collection of “sharpened lint” that the museum acquired on March 28th, 1904. his object would originally have been more than 12–15 cm long, allowing for its missing cutting-edge. In the course of the NACIP-project (National Archaeology Collections Inventory Project), initiated in 2012 and funded by the Belgian Science Policy Office, the entire National Archaeology collection, including the Spiennes findings, underwent a complete facelift. This resulted in the re-shelving of the items in adequate storage conditions and in a digitalized inventory. As a result of NACIP, renewed scientific research is triggered, since the complete collection is now easily accessible and a digital inventory catalogue of the collection has been created (Access). It brings together information such as inventory number, morphological identiication, period, origin and location in the storage rooms. Inventoryverifications and the retrieval of scientific data have been linked to the objects and made it possible to draw up a correct and up-to-date historiography of the items. Walter Campbell Smith, a member of the Department of Mineralogy in the formerly-named British Museum (Natural History) (BM(NH)) – now he Natural History Museum – had taken a slice from the fracture surface of this axehead in order to make a petrological thin section slide (or slides), and he concluded that the type of stone was very close to other specimens that had come from archeological sites in Brittany, France and England. he remaining part of the slice that Campbell Smith had cut from the axehead, and kept in the BM(NH), was analysed for Projet JADE, using relectance-scatter spectroradiometry. he resultant spectra were unfortunately of poor quality because of the small surface area available for measurement. Subsequently, additional spectral analyses were performed on the axehead itself, irst in 2010, then in 2013 with a more powerful instrument. hese analyses 28 ORAL AND POSTER SESSIONS - ABSTRACTS confirmed and clarified the original identification of the raw material. It was indeed a characteristic/typical jadeitite, micaceous and retromorphosed, from the blueschists facies. he most convincing comparisons with the Projet JADE reference database of Alpine rocks indicate that its origin is likely to lie in the Group of Voltri, and more speciically at the west of the Beigua massif, near Genoa. for domestic use. Ethnographic research proves that it was still in use in the irst decades of the 20th century. One of more interesting issues is the mass use of lint in modern times (17th-19th centuries) for military needs as an element of irearms. In Europe, small irearms came into use in the 2nd half of the 14th century and evolved through time. Around the 16th century, wheel locks, and subsequently lint locks, began to be used. In early modern times, all European armies were commonly equipped with this type of weapon. Initially, France was the leading European manufacturer of gunflints. Significant quantities were also produced in England, which shipped them practically worldwide, especially in the 19th century. Between 1963 and when the last spectroradiometric analyses were undertaken half a century later, there have been signiicant shits in attitudes towards archaeological artefacts – with a decisive move away from destructive techniques towards the use of non-destructive techniques – and also in the goals of stone axehead research. When Campbell Smith was writing, the goal was to characterise axeheads in the hope that this would help to locate the as-then unknown primary source areas in the Alps. Now, thanks to Projet JADE, the high-altitude quarries have been located and extensively studied; and with spectroradiometric analysis, it no longer makes sense to damage a museum piece in order to determine its origin; this can be achieved (at least in most cases) by simple relection of the light on a specimen. Gunlints were a commodity indispensable for the modern military, having a key role in the weaponry of all armies. The wars of the time increased demand for weapons, and, consequently, for signiicant supplies of gunlints. To have their own source of raw material was a strategic objective of all governments. he Hapsburgs, who ruled the Austrian and then Austro-Hungarian Empire, brought gunlints for their troops from regions such as Galicia, part of the Polish and Ukrainian lands annexed to the Hapsburg monarchy in the late 18th century as a result of the partitioning of Poland. Gunlints for the needs of the imperial army were made from f lint mined in the Jurassic deposits in the Krakow area (southern part of the Kraków-Częstochowa Upland) and around Stanislavov (now western Ukraine). Now that the stone’s origin is no longer of concern, a new and fascinating question has emerged: how can the presence of a jadeitite axehead found in the middle of a production site of grey flint axeheads in Spiennes be explained? THURSDAY, 29th OF SEPTEMBER 16:30 – 16:40 Several lint manufactories were located in the neighbourhoods of Krakow where lint was abundant. One of the largest and best preserved was a manufactory in Zelkow, a town which in the 19th century lied just on the border of Russia and Austro-Hungary. This paper discusses some issues regarding the mass production of gunlints in the modern era based on the case study of the f lint manufactory in Zelkow, and presents the history of the Zelkow manufactory in comparison with similar establishments in other parts of Europe. HISTORY OF RESEARCH AND FLINT EXPLOITATION IN ZELKÓW (SOUTH POLAND) – GUNFLINT WORKSHOP – THE USE AND MEANING OF FLINT IN MODERN TIMES Dagmara H. WERRA, Marzena WOŹNY Keywords Gunlint, lint mining, history of archaeology, Zelków, South Poland Acknowledgements Presentation of the investigations was possible thanks to the inancial support of the Institute of Archaeology and Ethnology Polish Academy of Science in the competition Adulescentia est tempus discendi (11/ATD6/MN/2016). As the Bronze Age came to its end and the Iron Age began, lint ceased to be the key material for making tools, supplanted by iron for centuries to come. Flintstone lost its previous signiicance yet remained in use, contrary to the prevailing views. However, the extent of its use was fairly limited indeed. It was mostly exploited locally and 29 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 THURSDAY, 29th OF SEPTEMBER 16:40 – 16:50 survey evidence of gunflint debitage was found on the western slope of the Petit-Spiennes plateau near the 'Michelsberg enclosure' on the right bank of the river La Wampe at the bottom of the old railway. Flint debitage products proved what was known throughout literature. A GUNFLINT PLACE AT MASNUY-SAINT-JEAN (JURBISE) In the 1950s, at Ciply, 'Trou des Sarrasins', rare evidences of gunlint production was discovered by Louis Letocart. In the same place, years ater, one of us (Claude Meunier) collected very characteristic short blades and cores testifying of gunlint production. Anne HAUZEUR, Hélène COLLET, Michael BRANDL, Gerhard TRNKA Keywords Gunlint, Masnuy-Saint-Jean, Belgium, nineteenth century In the nineteenth century, quarries were also in activity in Spiennes and Ciply to provide lint to be used in the earthenware manufacturing process. Archives reveal that tons of lints were sold to the Boch Keramis earthenware factory. On the site of Spiennes remains of those quarries are still visible at Petit-Spiennes. One of the huge gunlint workshops at Masnuy-Saint-Jean was settled by the French 'caillouteur' A. Bigaud, during the years 1820. he lint quality there made this place one of the biggest quarry known in the surrounding of Mons. In 2013, there was an opportunity to rediscover those workshops on a private property. Evidences of quarrying and knapping could be observed. As J. Breuer wrote (1955), extraction features are now looded by a pond, but heaps of lakes and debitage products remain. hey are several meters large and high, containing hundreds of thousands of typical gunlint blade and cores. Blanks were obviously prepared on the spot but the gunlints themselves were inished elsewhere, at home according to custom. THURSDAY, 29th OF SEPTEMBER 17:00 – 17:10 19th CENTURY FLINT PRODUCTION IN BRANDON (UK) AND THE RBINS COLLECTION Anne HAUZEUR, Ivan JADIN THURSDAY, 29th OF SEPTEMBER 16:50 – 17:00 Keywords Gunlint, Brandon, knapping tools, RBINS collection USE OF FLINT DURING THE 19TH CENTURY IN THE SPIENNES AND CIPLY AREAS (MONS BASIN, BELGIUM): GUNFLINTS AND EARTHENWARE Since the mid 17th century, gunlints were produced on an industrial scale throughout Europe. In the Brandon area (Sufolk, UK) -not far from the Grime’s Graves mining complex- such a production was still alive till the irst half of the 20th century. At that time gunlints were made for colonies or for the USA. A set of diferent pieces have been bought at the end of the 19th century by Édouard Dupont, director of the RBINS, from Edward Lovett, a collector and folk amateur from the London suburb. he collection presented here with the complete chaîne opératoire from the core to the inished pieces, is a testimony of a dead practice. The technique fits with the known knapping and retouching techniques, and the gunf lint shapes correspond to the English standard in use at the time of production. his is obviously not the production of a professional gunflint knapper: albeit the knapper used the proper lithic reduction processes, the end product -the gunflints- were different from what was produced in Brandon. his collection, however, is interesting from a historical point of view. At the end of the 19th century prehistorians were focusing on the understanding of lint debitage, and were looking for technical comparisons. PRODUCTIONS Hélène COLLET, Anne HAUZEUR, Gerhard TRNKA, Claude MEUNIER (†) Keywords Gunlint, earthenware, Boch Keramis, Nouvelles, Spiennes, Ciply Around 1819, at the time when Belgium was under the governance of the Netherlands, A. Bigaud, a French craftsman, set up workshops close to the city of Mons to produce gunflints for firearms lock mechanism as it existed for example at the famous French site of Meusnes/ Saint-Aignan. According to Jacques Breuer (1955) and Jean Emy (1978), this company collapsed after a few years. One of these workshops was located at Nouvelles 'near by the “Pont du Prince” [Bridge of the Prince] on the river bank of Nouvelles stream' (Letocart, 1957). During a 2006 field 30 ORAL AND POSTER SESSIONS - ABSTRACTS THURSDAY, 29th OF SEPTEMBER 17:10 – 17:20 are short (between 7 and 12 cm long) and have not been processed or used locally. No evidence of domestic occupation was observed (ceramics, stone bracelets, household equipment) on the mines or around. FLINT MINING AND BLADES MANAGEMENT IN THE BLICQUY/VILLENEUVE-SAINT-GERMAIN CULTURE THROUGH THE EARLIEST MINES OF NORMANDY AND NORTH-WESTERN FRANCE SETTLEMENTS The blade production is similar to that of the Blicquy/ Villeneuve-Saint-Germain contexts in the Paris Basin and Belgium. The chrono-cultural attribution of the site of Espins is based on this similarity and on two radiocarbon dates that target a range between 5000 and 4750 BC. As such this site is integrated into the technical system of the Danubian Neolithic tradition, documented in NorthWestern Europe. Espins "Foupendant" is one of the few flint mining sites known in this chronocultural phase, since discoveries made in Central Europe. François CHARRAUD Keywords Neolithic, North-Western France, Normandy, technical system, chaîne opératoire, flint mines, Jurassic flint, technology, lint tools, blades THURSDAY, 29th OF SEPTEMBER 17:20 – 17:30 he discovery of the lint mine of Espins "Foupendant" allows to question the socio-economic behaviour that afected the Neolithic in the west of France, through the exploitation of Cinglais lint. his material is present in the form of blades on the majority of LBK, VilleneuveSaint-Germain and older Cerny sites, in Normandy and Brittany. Its use is documented by 45 excavated sites and 63 surface sites. Espins allows characterizing for the irst time the precise geographical and geological origin of Cinglais lint, and the early stages of its processing. THE INTERPLAY OF GEOLOGICAL CONSTRAINTS TOWARDS DETERMINING THE LOCATIONS OF QUARRIES, SCALE OF ACTIVITY, AND STYLE OF EXTRACTION: EXAMPLES FROM THE CHERTBEARING CAMBRIAN AND ORDOVICIAN CARBONATE ROCKS OF THE NEW YORK TRISTATE REGION Espins is located in the south of the plain of Caen, in the territory of Cinglais, between the Jurassic Normandy plains and the Armorican Massif. It is one of the last sources of good lint at the western margin of the Paris Basin, before the extensive Armorican territories where there is no good lint. his material was used exclusively for the production of blades obtained by indirect percussion, distributing supports for most Western settlements. Philip C. LAPORTA, Margaret C. BREWER-LAPORTA, Scott A. MINCHAK, Karl H. SZEKIELDA Keywords Bedrock chert quarries, salient, recess, boudinage, petrofabric Mapping of chert bearing carbonate terrains, complimented with analysis of excavated quarry tailings, has elucidated an organization to quarry development controlled by tectonics, structural geology, stratigraphy, and diagenesis of raw materials at several scales. A predictive model for prehistoric bedrock-quarry development has quantified the existence of an elaborate chain of operation organized on the intersection of fracture cleavage with foliation and bedding surfaces; all bounded by well-deined master joints. Not far from Espins, the flint mine of Soumont-SaintQuentin (Calvados) "Les Longrais" was discovered at the same time. It provides comparison and reinforces the idea of the systematic nature of this exploitation. The territory of Cinglais is characterized by flint clays under a silt layer, which contain f lint nodules. That is evidenced by 33 pits discovered during surveys. A lot of technical f lakes associated with the chaîne opératoire blade production were discovered across the plateau, and around or inside the shats. Inter-regionally, chert occurs within the arm-bends of the Pennsylvania salient and is diminished on the Virginia and New York recesses. he recesses are characterized by high-angle reverse faults, while the salient is dominated by decollement-style thrust systems, with associated duplexes. Several thousand prehistoric chert quarries are housed within this carbonate terrain. hey are characteristic of a production site. his abundance of technical flakes can be opposed to the deficit of end products (blades), which were systematically collected. heir surface distribution draws the outline of a large mining complex (about 30 ha). Produced blades 31 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 THURSDAY, 29th OF SEPTEMBER 17:30 – 17:40 Regionally, tectonism forged a structural scenario involving normal-fault, thrust-ramp, and fold-thrust sections within the Wallkill River Valley of New York and New Jersey. he normal-fault section exhibits fault-block rotation of chert units ranging from 4⁰-50⁰. Prehistoric quarries are restricted in their development by shallow dips and a veneer of glacial overburden. he thrust-ramp section rotates the stratigraphy into steeply dipping (50⁰-90⁰) panels. Bedding attitudes permit access from below and above the ore target through accentuation of master joints. Type and style of prehistoric quarries is controlled by stratigraphic and structural considerations related to the lateral persistence of chert bearing sedimentary facies. Rheological contrasts between ductile dolomite and rigid interbedded cherts result in boudinage structures which generate ideal conditions for raw-material extraction. he fold-thrust section involves folds truncated by southeast and northwest dipping thrust faults. Rocks located in fold hinges abruptly change orientation, leading to complications impacting quarry prospection and extraction techniques. Dip angles range from 20⁰-50⁰. Quarries fail due to pinch-out of beds, fading of sedimentary facies along strike, and/or radical changes in dip angle. INVESTIGATION IN POZARRATE QUARRY AT THE PREHISTORIC FLINT MINING COMPLEX OF ARAICO-CUCHO (TREVIÑO), SOUTH BASQUECANTABRIAN BASIN. LATEST RESULTS Antonio TARRIÑO, Irantzu ELORRIETA, Javier FERNÁNDEZ-ERASO, José Antonio MUJIKA, Fernando JIMÉNEZ-BARREDO, Ana Isabel ÁLVARO, Alfonso BENITO, Ana Isabel ORTEGA, Maite GARCÍA-ROJAS, Iosu JUNGUITU, Aitor SÁNCHEZ, Lucía BERMEJO, Mikel AGUIRRE, Íñigo ORUE Keywords Prehistoric mining, lint, raw materials, Neolithic, Western Pyrenees Recent works in the quarry of Pozarrate are providing new data for the understanding a part of the prehistoric mining complex of Araico-Cucho (Treviño). he quarry is one of many structures that are found throughout the area and that were made for the exploitation of the nodular lints outcropping along the landscape unit (lacustrinepalustrine Miocene). Pozarrate is composed of 8 structures that we identiied and classiied as crescent-shaped dumps. The archaeological excavation focused on the inferior dump which was dated 6000-5600 BP (uncal.) and thousands of lithic remains and artifacts have been collected, including mining tools. The investigation continues till today in order to find the limits of the quarry. Geophysical surveys (Electrical tomography and Geo-radar) have been carried out providing information that was likened to what at irst intuited, conirming the existence of a quarry face between 4 and 5 meters high. he relevance of the lint mining complex is corroborated by the identiication of the use of this raw material in many archaeological sites of the Cantabrian (from Asturias to the Basque Country), the Western Pyrenees and the south of Aquitanian Basin (France), with dates from the Upper Pleistocene to the Holocen At outcrops, chertiication occurs as silica replacement of algal stromatolites; oolitic, pisoidal and oncoidal facies; tempestites; unconformity linings; paleokarst sequences; and pressure-solution halos. Spatial limits of quarries are related to geometry of sedimentary facies. Tectonic and structural elements determine the orientation of stratigraphic packages, which in turn controls access to chert beds. Intersection of joint surfaces focuses the locations of zones of extraction. Foliation affects the pathway of f laking technology. The microlithon, the largest quantifiable homogenous volume of chert which can be successfully reined into a stone tool, inluences the chain of operation and the inal quarry product. 32 AUTHORS’ INDEX AUTHORS’ INDEX JEHANNE AFFOLTER PIERRE ANDRÉ Affiliation: Affiliation: Ar-Geo-Lab, Université de Bern Institut des Sciences Archéologiques Pré-protohistoire, associée UMR 6298 (Université de Bourgogne, CNRS, Culture, INRAP) EHESS, UMR 5608 TRACES Toulouse Address: [email protected] Address: Chemin des Costes 1421 - 84810 Aubigan, France Dîme 86 – 2000 Neuchâtel, Switzerland [email protected] JON BACZKOWSKI Affiliation: MIKEL AGUIRRE University of Southampton, Faculty of Humanities Affiliation: Address: UNED de Bergara, Humanidades Address: Avenue Campus – Highfield, SO17 1BF Southampton, United Kingdom San Martín Aguirre Plaza 4 - 20570 Bergara, Spain [email protected] [email protected] JEAN-MARC BAELE IGNAZIO ALLEGRETTA Affiliation: University of Mons, Department of Geology and Applied Geology Affiliation: Dipartimento di Scienze del Suolo, della Pianta e degli Alimenti, Università degli Studi di Bari “A. Moro” Address: Address: Rue de Houdain 9 – 7000 Mons, Belgium Via Orabona, 4 - 70125 Bari, Italy [email protected] [email protected] ALFONSO BENITO ANA ISABEL ÁLVARO Affiliation: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology Affiliation: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology Address: Address: Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain [email protected] [email protected] 33 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 LUCÍA BERMEJO JEAN-PIERRE BRACCO Affiliation: Affiliation: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology UMR 7055 – Préhistoire et Technologie, Maison Archéologie Ethnologie Address: Address: Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain Allée de l’Université 21 - 92023 Nanterre Cedex, France [email protected] [email protected] PETER BINDON MICHAEL BRANDL Affiliation: Affiliation: Australian Ethnographic Institute P/L, Yass NSW Australia OREA—Institute for Oriental and European Archaeology, Quaternary Archaeology, Austrian Academy of Sciences [email protected] Address: Address: Fleischmarkt 20–22 - 1010 Vienna, Austria [email protected] KATALIN T. BIRÓ Affiliation: Hungarian National Museum, Department of Archaeology MARGARET C. BREWER-LAPORTA Address: Múzeum krt. 14-16 - 1088 Budapest, Hungary The Center for the Investigation of Native and Ancient Quarries [email protected] Address: Affiliation 1: Fletcher Street 84 - Goshen, New York 10924, USA Affiliation 2: VERA BOGOSAVLJEVIĆ PETROVIĆ Pace University, Department of Chemistry and Physical Sciences Affiliation: National Museum in Belgrade, Department of Archaeology Address: Address: Bedford Road 861, Costello House - Pleasantville NY 10570, USA Trg Republike 1a - 11 000 Belgrade, Serbia [email protected] [email protected] JANUSZ BUDZISZEWSKI CLIVE BONSALL Affiliation: Institiut of Archaeology, University of Cardinal Stefan Wyszyński in Warsaw Affiliation: Edinburgh University, School of History, Classics and Archaeology Address: Address: ul. Wóycickiego 1/3 bud. 23 - 01-938 Warsawa, Poland Teviot Place - EH8 9AG Edinburgh, United Kingdom [email protected] [email protected] NURIA CASTAÑEDA FRANÇOISE BOSTYN Affiliation: Institut national de Recherche archéologique préventive Université Paris 1 Panthéon-Sorbonne, Umr 8215-Trajectoires Maison Archéologie & Ethnologie, René-Ginouvès Address: Address: Rue des Champs 11 -59650 Villeneuve d’Ascq, France Allée de l’Université 21 - 92023 Nanterre, France [email protected] [email protected] Affiliation: 34 AUTHORS’ INDEX JEAN-JACQUES CHARPY JAN-WILLEM DE KORT Affiliation: Affiliation: Conservateur honoraire Cultural Heritage Agency of the Netherlands Address: Address: Rue de l'Arquebuse 15 - 51200 Épernay, France Smallepad 5 - Postbus 1800 3800 BP Amersfoort, The Netherlands [email protected] [email protected] FRANÇOIS CHARRAUD Affiliation: PIERRE-ARNAUD DE LABRIFFE UMR 8215 Trajectoires – CNRS, Maison RenéGinouvès, MAE Affiliation: Address: Address: Allée de l’Université 21 - 92023 Nanterre Cedex, France Rue Pagès 6 -34070 Montpellier, France [email protected] [email protected] BRITT CLAES EMANUELA DELLUNIVERSITÀ Affiliation: Affiliation: Royal Museums of Art and History, Section National Archaeology Dipartimento di Scienze della Terra e Geoambientali, Università degli Studi di Bari “A. Moro” Address: Address: Parc du Cinquantenaire 10 - 1000 Bruxelles, Belgium Via Orabona 4 - 70125 Bari, Italy [email protected] emanuela.delluniversità@gmail.com HÉLÈNE COLLET VINCENT DELVIGNE Affiliation: Affiliation: Service public de Wallonie, DGO4, Service de l’Archéologie (Direction extérieure du Hainaut I) Université de Bordeaux - UMR 5199 – PACEA Address: Bâtiment B18, allée Geoffroy Saint-Hilaire - 33615 Pessac Cedex, France [email protected] MCC - SRA PACA / UMR 8215 Address: Rue d’Harmignies 52 - 7032 Spiennes, Belgium [email protected] SOLÈNE DENIS JEAN-PHILIPPE COLLIN Affiliation: CNRS-UMR 7055, Maison de l’Archéologie et de l’ethnologie Affiliation: University of Namur / University of Paris 1 PanthéonSorbonne, Department of Archaeology and History of Art Address: Rue de Bruxelles 61 - 5000 Namur, Belgium Allée de l’Université 21 - 92023 Nanterre Cedex, France [email protected] [email protected] SUSANA CONSUEGRA PEDRO DÍAZ-DEL-RÍO Affiliation: Affiliation: Spanish National Research Council-CSIC, Instituto de Historia Spanish National Research Council-CSIC, Instituto de Historia Address: Address: C/Albasanz 26-28 - 28037, Madrid, Spain C/Albasanz 26-28 - 28037 Madrid, Spain [email protected] [email protected] Address: 35 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 STÉPHAN DUBERNET MICHEL ERRERA Affiliation: Affiliation 1: Université de Bordeaux Montaigne, IRAMAT-CRPAA, UMR 5060 Royal Museum for Central Africa (Belgium, Tervuren) Address: Address: Maison de l’Archéologie, Esplanade des Antilles 33607 Pessac, France Leuvensesteenweg 13 - 3080 Tervuren, Belgium [email protected] Cité de la Préhistoire Affiliation: Address: Place Robert de Joly - 07150 Orgnac l'Aven, France ANTHONY DUMONTET [email protected] Affiliation: CNRS, UMR 6298, ArTeHiS (Université de Bourgogne, CNRS, Culture, INRAP) PAUL FERNANDES Address: Affiliation 1: Boulevard Gabriel 6 - 21000 Dijon, France Université de Bordeaux - UMR 5199 – PACEA [email protected] Address: Allée Geoffroy Saint-Hilaire Bâtiment B18 - 33615 Pessac Cedex, France KRISZTINA DÚZS Affiliation 2: Affiliation: SARL Paléotime Hungarian National Museum, Department of Conservation Address: Address: Rue Jean Séraphin Achard Picard 6173 - 38350 Villard-de-Lans, France Múzeum krt. 14-16 - 1088 Budapest, Hungary [email protected] [email protected] JAVIER FERNÁNDEZ-ERASO IRANTZU ELORRIETA Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Address: Address: Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain [email protected] [email protected] LYNN FISHER JOËL ELOY Affiliation: Association wallonne d’Etude mégalithique University of Illinois at Springfield, Sociology/ Anthropology Department Address: Address: Rue de l’Aumônier 1 – 4000 Liège, Belgium University Plaza 1 - MS UHB 3038, 62704 Springfield, IL, USA Affiliation: [email protected] [email protected] GIACOMO ERAMO Affiliation: STAŠO FORENBAHER Dipartimento di Scienze della Terra e Geoambientali, Università degli Studi di Bari “A. Moro” Affiliation: Address: Address: Via Orabona 4 - 70125 Bari, Italy Ljudevita Gaja 32 - 10000 Zagreb, Croatia [email protected] [email protected] Institute for Anthropological Research 36 AUTHORS’ INDEX MAITE GARCÍA-ROJAS IVAN JADIN Affiliation: Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Belgian Institute of Natural Sciences, OD Earth and History of Life, Anthropology & Prehistory Address: Address: Calle Tomás y Valiente s/n - 01006 Vitoria-Gasteiz, Spain rue Vautier 29 – 1000 Bruxelles, Belgium [email protected] [email protected] VALÉRIE GHESQUIÈRE MICHAŁ JAKUBCZAK Affiliation: Affiliation: Royal Museums of Art and History, Section National Archaeology Instituet of Archaeology and Ethnology of Polish Academy of Sciences Address: Address: Parc du Cinquantenaire 10 - 1000 Bruxelles, Belgium Al. Solidarności 105 - 00-140 Warsaw, Poland [email protected] [email protected]„ FERNANDO JIMÉNEZ-BARREDO WITOLD GRUŻDŹ Affiliation: Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology Affiliation: Institiut of Archaeology, University of Cardinal Stefan Wyszyński in Warsaw Address: Address: Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain ul. Wóycickiego 1/3, bud. 23 - 01-938 Warsawa, Poland [email protected] [email protected] DIVNA JOVANOVIĆ MARIA GUROVA Affiliation: Geological survey of Serbia, Department of Mineralogy and Petrology Affiliation: National Institute of Archaeology with Museum, Bulgarian Academy of Sciences, Department of Prehistory Address: Rovinjska 12 - 11 000 Belgrade, Serbia [email protected] Address: Saborna Street 2 – 1000 Sofia, Bulgaria [email protected] DRAGAN JOVANOVIĆ Affiliation: SUSAN HARRIS City Museum Vrsac, Department of Archaeology Affiliation: Address: Independent Researcher Bulevar Žarka Zrenjanina 20, 26 - 300 Vršac, Serbia Address: [email protected] Napa Lane 86 -93117 Goleta, CA, U.S.A. [email protected] IOSU JUNGUITU Affiliation: ANNE HAUZEUR Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Affiliation: SARL Paléotime and cooperation partner of the Royal Belgian Institute of Natural Sciences Address: Address: [email protected] Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain rue Jean Séraphin Achard Picard 6173 -38350 Villard-de-Lans, France [email protected] 37 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 KATARZYNA KERNEDER-GUBAŁA MATHIEU LANGLAIS Affiliation: Affiliation: Institute of Archeology and Ethnology, Polish Academy of Science Université de Bordeaux - UMR 5199 – PACEA Address: SolidarnŚci Alle 105 - 00-140 Warsawa, Poland Allée Geoffroy Saint-Hilaire, Bâtiment B18 - 33615 Pessac Cedex, France [email protected] [email protected] LAURENT KLARIC PHILIP C. LAPORTA Affiliation: Affiliation 1: UMR 7269 – LAMPEA, Université Aix Marseille, Maison Méditerranéenne des Sciences de l’Homme The Center for the Investigation of Native and Ancient Quarries Address: Address: Rue du château de l’Horloge 5 - 13094 Aix-enProvence cedex 2, France Fletcher Street 84 - Goshen, New York 10924, USA [email protected] Pace University, Department of Chemistry and Physical Sciences Address: Affiliation 2: Address: CORINA KNIPPER Affiliation: Bedford Road 861, Costello House - Pleasantville NY 10570, USA Curt-Engelhorn-Center for Archaeometry GmbH [email protected] Address: D6, 3 - 68159 Mannheim, Germany PHILIPPE LAVACHERY [email protected] Affiliation: Société de Recherche préhistorique en Hainaut AUDREY LAFARGE Address: Affiliation: Rue Gontrand Bachy 9 – 7032 Spiennes, Belgium UMR 5140 – Archéologie des sociétés méditerranéennes, Université de Montpellier [email protected] Address: Route de Mende 3 - 34199 Montpellier, France FRANÇOIS-XAVIER LE BOURDONNEC [email protected] Affiliation: Université de Bordeaux Montaigne, IRAMAT-CRPAA, UMR 5060 SYLVIANE LAMBERMONT Address: Affilation: Maison de l’Archéologie, Esplanade des Antilles 33607 Pessac, France Association wallonne d’Etude mégalithique [email protected] Address: Rue de l’Aumônier 1 – 4000 Liège, Belgique [email protected] JACEK LECH GUILHEM LANDIER Affiliation: Rue Balard 12 - 34000 Montpellier, France Chair of Prehistory and the European Middle Ages. Institute of Archaeology of the Cardinal Stefan Wyszyński University in Warsaw and The Archaeological Museum and Reserve at Krzemionki [email protected] Address: Affiliation: Independant researcher Address: Wójcickiego Street 1/3, bud. 23 - Warszaw, Poland [email protected] 38 AUTHORS’ INDEX DIOSCÓRIDES MARÍN ANDRÉ MORALA Affiliation: Affiliation 1: University of Lleida, Department of History Université de Bordeaux - UMR 5199 – PACEA Address: Address: Pl. Victor Siurana 1 - 25003 Lleida, Spain Allée Geoffroy Saint-Hilaire, Bâtiment B18 - 33615 Pessac Cedex, France [email protected] Affiliation2: Musée National de Préhistoire RÉMI MARTINEAU Address: Affiliation: Rue du Musée 1 - 24620 Les Eyzies de Tayac, France CNRS, UMR 6298, ArTeHiS Archéologie, Terre, Histoire, Sociétés (Université de Bourgogne, CNRS, Culture, INRAP) [email protected] Address: LUC MOREAU Boulevard Gabriel 6 - 21000 Dijon, France Affiliation: [email protected] Mc Donald Institute for Archaeological Research, University of Cambridge Address: ALBA MASCLANS Downing Street - CB2 3ER Cambridge, United Kingdom Affiliation: University of Girona, Department of History and History of Art [email protected] Address: Pl. Ferrater Mora 1 - 17071 Girona, Spain JOSÉ ANTONIO MUJIKA [email protected] Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología CLAUDE MEUNIER (†) Address: Affiliation: Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain Société de Recherche préhistorique en Hainaut [email protected] Address: Rue Gontrand Bachy 9 - 7032 Spiennes, Belgium ITALO MARIA MUNTONI Affiliation: SCOTT A. MINCHAK Soprintendenza Archeologica della Puglia, Centro Operativo per l’Archeologia della Daunia Affiliation: The Center for the Investigation of Native and Ancient Quarries Address: Address: [email protected] Via de Nittis 7 - 71121 Foggia, Italy Fletcher Street 84 - Goshen, New York 10924, USA [email protected] ANA ISABEL ORTEGA Affiliation: ALESSANDRO MONNO Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology Affiliation: Dipartimento di Scienze della Terra e Geoambientali, Università degli Studi di Bari “A. Moro” Address: Address: [email protected] Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain Via Orabona 4 - 70125 Bari, Italy [email protected] 39 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 DAVID ORTEGA PIERRE PÉTREQUIN Affiliation: Affiliation: Spanish National Research Council (CSIC). IMF Department of Archaeology and Anthropology MSHE C. N. Ledoux, CNRS and Université de Franche-Comté, Address: Address: Egipcíaques 15 - 08001 Barcelona, Spain Rue Mégevand 32 - 25030 Besançon Cedex, France [email protected] [email protected] ÍÑIGO ORUE MICHEL PIBOULE Affiliation: Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Independant researcher Address: Rue du Général Ferrié 21 - 38100 Grenoble, France Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain [email protected] Address: [email protected] STÉPHANE PIRSON Affiliation: JACQUES PELEGRIN Service public de Wallonie, DGO4, Direction de l’Archéologie Affiliation: Maison Archéologie Ethnologie , UMR 7055 Préhistoire et Technologie Address: Rue des Brigades d'Irlande 1 -5100 Namur (Jambes), Belgium Address: Allée de l’Université 21 - 92023 Nanterre cedex, France [email protected] [email protected] KATARZYNA RADZISZEWSKA Affiliation: JUGOSLAV PENDIĆ Independent researcher Affiliation: Address: University of Belgrade, Faculty of Philosophy, University of Belgrade, Department of Archaeology, Faculty of Philosophy Sochaczewska 10 - 05-084 Leszno, Poland [email protected] Address: Čika Ljubina 18-20 - 11 000 Belgrade, Serbia JEAN-PAUL RAYNAL [email protected] Affiliation 1: Université de Bordeaux - UMR 5199 – PACEA Address: ZLATKO PERHOČ Allée Geoffroy Saint-Hilaire, Bâtiment B18 - 33615 Pessac Cedex, France Affiliation: Institut für Geowissensschaften, Rupprecht-Karls-Universität Affiliation 2: Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology Address: Im Neuenheimer Feld 235 - 69120 Heidelberg, Germany Address: [email protected] [email protected] Deutscher Platz 6 - 04103 Leipzig, Germany 40 AUTHORS’ INDEX ADRIEN REGGIO [email protected] Affiliation: Université d’Aix-Marseille - UMR 7269 «Laboratoire méditerranéen de Préhistoire Europe Afrique» ALISON SHERIDAN Address: Affiliation: Boulevard Pierre Dramard 1, Coté La Martine, Bât. G2 - 13015 Marseille, France National Museums of Scotland [email protected] Chambers St - EH1 1JF Edinburgh, United Kingdom Address: [email protected] CARLES ROQUÉ Affiliation: LASSE SØRENSEN University of Girona, Department of Environmental Sciences Affiliation: Address: Address: Campus de Montilivi s/n - 17071 Girona, Spain Frederiksholms Kanal 12 - 1220 København K, Denmark The National Museum of Denmark [email protected] [email protected] LAURE SALIGNY Affiliation: KARL H. SZEKIELDA CNRS, USR 3513, Maison des Sciences de l’Homme, pôle géomatique, Université de Bourgogne Affiliation: Hunter College of the City University of New York, Department of Geography Address: Esplanade Erasme 6, BP 26611 - 21066 Dijon Cedex, France Address: [email protected] [email protected] AITOR SÁNCHEZ MICHAŁ SZUBSKI Affiliation: Affiliation: Facultad de Letras de Vitoria (UPV/EHU), Geografía, Prehistoria y Arqueología Institiut of Archaeology, University of Cardinal Stefan Wyszyński in Warsaw Address: Address: Calle Tomás y Valiente, s/n - 01006 Vitoria-Gasteiz, Spain ul. Wóycickiego 1/3, bud. 23 - 01-938 Warsawa, Poland [email protected] [email protected] RAINER SCHREG MASSIMO TARANTINI Affiliation: Affiliation: Römisch-Germanisches Zentralmuseum, LeibnizForschungsinstitut für Archäologie Soprintendenza Archeologica della Toscana Address: Via Della Pergola 65 - 50121 Firenze, Italy Ernst-Ludwig-Platz 2 - 55116 Mainz, Germany [email protected] Park Avenue 695 - New York, NY 10065, USA Address: [email protected] ANTONIO TARRIÑO JOSÉ SCHREURS Affiliation: Cultural Heritage Agency of the Netherlands Centro Nacional de Investigación sobre la Evolución Humana (CENIEH), Geoarqueology Address: Address: Smallepad 5, Postbus 1800 - 3800 Amersfoort, The Netherlands Paseo Sierra de Atapuerca 3 - 09002 Burgos, Spain Affiliation: [email protected] 41 ABSTRACT BOOK - 7th INTERNATIONAL CONFERENCE OF THE UISPP FLINT MINING COMMISSION, MONS & SPIENNES 2016 ANNE TEATHER ALAIN TURQ Affiliation: Affiliation 1: Faculty of Life Sciences, University of Manchester Université de Bordeaux - UMR 5199 – PACEA Address: Address: 3.505 Stopford Building - Manchester, M13 9PT, United Kingdom Bâtiment B18, allée Geoffroy Saint-Hilaire - 33615 Pessac Cedex, France [email protected] Affiliation2: Musée National de Préhistoire Les Eyzies-de-Tayac Address: XAVIER TERRADAS Rue du Musée 1 - 24620 Les Eyzies de Tayac, France Affiliation: [email protected] Spanish National Research Council (CSIC). IMF Department of Archaeology and Anthropology Address: PAWEŁ VALDE-NOWAK Egipcíaques 15 - 08001 Barcelona, Spain Affiliation: [email protected] Institute of Archeology, Jagiellonian University Address: Gołębia 11 - 31-007 Krakow, Poland PETER TOPPING [email protected] Affiliation: Newcastle University Address: DAGMARA H. WERRA Newcastle upon Tyne NE1 7RU, United Kingdom Affiliation: [email protected] ERZSÉBET TÓTH Department: Autonomous Research Laboratory for Prehistoric Flint Mining ; The Institute of Archaeology and Ethnology Polish Academy of Sciences Affiliation: Address: Eötvös Loránd University, Department Tata Geological Garden Solidarności Avenue 105 - 00-140 Warszawa, Poland [email protected] Address: Fekete út 2 - 2890 Tata, Hungary MICHEL WOODBURY [email protected] Affiliation: MICHEL TOUSSAINT Public Service of Wallonia, Department of Archaeology Affilation : Address: Association wallonne d’Etude mégalithique Rue d’Harmignies 52 - 7032 Spiennes, Belgium Address: [email protected] Rue de l’Aumônier 1 – 4000 Liège, Belgium [email protected] MARZENA WOŹNY Affiliation: GERHARD TRNKA Archaeological Muzeum of Kraków Affiliation: Address: Institute of Prehistoric and Historical Archaeology, University of Vienna Senacka Street 3 - 31-002 Kraków, Poland [email protected] Address: Franz-Klein-Gasse 1 - A-1190 Vienna, Austria [email protected] 42 ISBN : 978-2-930711-30-0 The aim of the Commission on Flint Mining in Pre- and Protohistoric Times in the International Union of Pre- and Protohistoric Sciences (UISPP) is to favour cooperation in the area of archaeological research upon siliceous rock mining, presenting and discussing methods and results. Fields of interest will embrace research upon different stages of “chaînes opératoires” of manufacture, specialisation of labour and circulation of raw materials, characterisation of raw material as well as investigation on flint mining sites belonging to Preand Protohistoric settlement networks. The 7th conference held in Mons and Spiennes (Wallonia, Belgium) after Paris, Madrid, Vienna, Florianopolis, Paris and Burgos offers the opportunity to return to one of the place of birth of this mining research tradition. DIRECTION GÉNÉRALE OPÉRATIONNELLE DE L’AMÉNAGEMENT DU TERRITOIRE, DU LOGEMENT, DU PATRIMOINE ET DE L’ÉNERGIE