S. Baron and A. Cochet, Étude d'un lot de lingots de plomb antiques des Saintes, 2003.
DOI : 10.3406/arsci.2003.1051
URL : http://www.persee.fr/docAsPDF/arsci_0399-1237_2003_num_27_1_1051.pdf

. Maries-de-la-mer, Ségrégations et analyses chimiques élémentaires. Revue d'Archéométrie, vol.27, pp.147-163

S. Baron, S. Laurent, J. Carignan, P. , and A. , Medieval lead making on Mont, 2006.

L. Massif, Cévennes, France): tracing ore sources using Pb isotopes, Applied Geochemistry, vol.21, pp.241-52

S. Baron, C. Le-carlier, J. Carignan, and A. Ploquin, Archaeological reconstruction of medieval lead production: Implications for ancient metal provenance studies and paleopollution tracing by Pb isotopes, Applied Geochemistry, vol.24, pp.2093-2101, 2009.
DOI : 10.1016/j.apgeochem.2009.08.003

S. Baron, M. Coustures, D. Béziat, M. Guérin, J. Huez et al., Lingots de plomb et barres de fer des épaves romaines des, 2011.
DOI : 10.3406/ran.2011.1820

F. Rhône, Questions de traçabilité comparée, Revue Archéologique de Narbonnaise, vol.44, pp.71-98

S. Baron, C. Mahé-le-carlier, and A. Ploquin, Géochimie isotopique du plomb en archéologie minière et métallurgique : exemple du Mont Lozère dans les Cévennes. Revue d'Archéométrie, vol.34, pp.149-157, 2011.
DOI : 10.4000/archeosciences.2723
URL : http://journals.openedition.org/archeosciences/pdf/2723

S. Baron, C. G. Tamas, L. Carlier, and C. , How Mineralogy and Geochemistry Can Improve the Significance of Pb Isotopes in Metal Provenance Studies?, vol.56, pp.665-680, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01147537

F. Begemann, K. Kallas, S. Schmitt-strecker, and E. Pernicka, Tracing ancient tin via isotope analyses, The Beginnings of Metallurgy', Der Anschnitt Beiheft 9, pp.277-284, 1999.

M. Benvenuti, A. Dini, M. Orazio, L. Chiarantini, A. Corretti et al., The tungsten and tin signature of iron ores from Elba Island (Italy): a tool for provenance studies of iron production in the Mediterranean region, Archaeometry, vol.55, pp.479-506, 2013.

M. Benvenuti, A. Orlando, D. Borrini, L. Chiarantini, P. Costagliola et al., Results and Chapitre I 60 implications for the reconstruction of ancient metallurgical processes and iron provenance, Journal of Archaeological Science, vol.70, pp.1-14, 2016.

M. Berranger, Le fer, entre matière première et moyen d'échange, en France du VIIe au I er s. av. J.-C. Approches interdisciplinaires, 2009.

. Panthéon-sorbonne, , p.315

, Trans.). M.I.T. Press, 1959.

E. Blakelock, M. Martinon-torres, H. A. Veldhuijzen, and T. Young, Slag inclusions in iron objects and the quest for provenance: an experiment and a case study, Journal of Archaeological Science, vol.36, pp.1745-1757, 2009.

M. Brauns, R. Schwab, G. Gassmann, G. Wieland, and E. Pernicka, Provenance of Iron Age iron in southern Germany: a new approach, Journal of Archaeological Science, vol.40, p.841, 2013.

R. H. Brill and J. M. Wampler, Isotope studies of ancient lead, American Journal of Archaeology, vol.69, pp.165-166, 1965.

V. F. Buchwald and H. Wivel, Slag analysis as a method for the characterization and provenancing of ancient iron objects, Materials Characterization, vol.40, pp.73-96, 1998.

V. F. Buchwald, Iron and Steel in Ancient Times, 2005.

, Kongelige Danske Videnskabernes Selskab

P. Budd, A. M. Pollard, B. Scaife, and R. G. Thomas, The possible fractionation of lead isotopes in ancient metallurgical processes, Archaeometry, vol.37, pp.143-150, 1995.

P. Budd, P. Lythgoe, R. A. Mc-gill, M. Pollard, and B. Scaife, Zinc isotope fractionation in liquid brass (Cu-Zn) alloy: potential environmental and archaeological applications, vol.165, pp.147-153, 1999.

B. Cauuet, L'or des Celtes du Limousin. Collection Archéologie, Culture et Patrimoine en Limousin, vol.124, p.61, 2004.

B. Cauuet, Mines d'or et d'argent antiques de Dacie. Le district d'Alburnus Maior (Rosia Montana, Roumanie). Nouvelles de l'Archéologie, vol.100, pp.38-43, 2005.

V. Chamberlain and N. H. Gale, The isotopic composition of lead in Greek coins and in galena from Greece and Turkey, Proceedings of the 16th International Symposium on Archaeometry and Archaeological Prosepection, 1980.

, The National Museum of Antiquities of Scotland, pp.139-155

M. F. Charlton, The last frontier in 'sourcing': the hopes, constraints and future for iron provenance research, Journal of Archaeological Science, vol.56, pp.210-220, 2015.

M. F. Charlton, E. Blakelock, M. Martinon-torres, and T. Young, Investigating the production provenance of iron artifacts with multivariate methods, Journal of Archaeological Science, vol.39, pp.2280-2293, 2012.

M. F. Charlton, P. Crew, T. Rehren, and S. J. Shennan, Explaining the evolution of ironmaking recipes-An example from Northwest Wales, Journal of Anthropological Archaeology, vol.29, pp.352-367, 2010.

Y. B. Cheng, J. W. Mao, X. K. Zhu, and Y. Wang, Iron isotope fractionation during supergene weathering process and its application to constrain ore genesis in Gaosong deposit, Gondwana Research, vol.27, pp.1283-1291, 2015.

R. E. Clayton, P. Andersson, N. H. Gale, C. Gillis, W. et al., Precise determination of the isotopic composition of tin using MC-ICP-MS, Journal of Analytical Atomic Spectrometry, vol.17, pp.1248-56, 2002.

C. Conophagos, Le Laurion antique et la technique grecque de production de l'argent Ekdotike Hellados, Athènes, vol.458, 1980.

M. Coustures, Le Fer dans le Tarn aux périodes anciennes, 2012.

M. Coustures, Le Fer dans le Tarn aux périodes anciennes, 2013.

M. Coustures, Le Fer dans le Tarn aux périodes anciennes, 2014.

M. P. Coustures, D. Béziat, F. Tollon, C. Domergue, L. Long et al., The use of trace element analysis of entrapped slag inclusions to establish ore-bar iron links: examples from two Gallo-Roman ironworking sites in France, Montagne Noire and Les Ferrys, vol.45, pp.599-613, 2003.

M. Coustures, R. , C. Béziat, D. Djaoui, D. Long et al., La provenance des barres de fer romaines des Saintes-Maries-de-la-Mer. Etude archéologique et archéométrique. Gallia, vol.63, pp.243-261, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01911027

M. Coustures and F. Et-dabosi, Le fer dans la Montagne Noire : Du minerai au commerce du métal. Questions de traçabilité. Synthèse de la deuxième partie, Le fer romain de la Montagne Noire, Martys 2 : les débuts, 25 années de recherches pluridisciplinaires, 1988.

P. Crew, The experimental production of prehistoric bar iron, Historical Metallurgy, vol.25, issue.1, pp.21-36, 1991.

P. Crew, The influence of clay and charcoal ash on bloomery slags, Iron in the Alps: Deposits, Mines and Metallurgy from Antiquity to the XVI Century, pp.38-48, 1998.

J. Cui and X. Wu, An experimental investigation on lead isotopic fractionation during metallurgical processes, Archaeometry, vol.53, issue.1, pp.205-214, 2011.

P. Degryse, J. Schneider, N. Kellens, M. Waelkens, and M. Ph, Tracing the resources of iron working at ancient sagalassos (south-west turkey): a combined lead and strontium isotope study on iron artefacts and ores, Archaeometry, vol.49, issue.1, pp.75-86, 2007.

P. Degryse, J. C. Schneider, and P. Muchez, Combined Pb-Sr isotopic analysis in provenancing late Roman iron raw materials in the territory of Sagalassos, 2009.

, Archaeological and Anthropological Sciences, vol.1, pp.155-159

C. Domergue, B. Cauuet, E. Lavielle, J. Pailler, R. Sablayrolles et al., Un centre sidérurgique romain de la Montagne Noire, Le domaine des Forges, vol.477, 1993.

S. Durali-müller, Roman lead and copper mining in Germany-Their origin and development through time, deduced from lead and copper isotope provenance studies, vol.147, 2005.

S. Durali-müller, G. P. Brey, D. Wigg-wolf, and Y. Lahaye, Roman lead mining in Germany: its origin and development through time deduced from lead isotope provenance studies, Journal of Archaeological Science, vol.34, pp.1555-67, 2007.

V. Ettler, R. Cervinka, and Z. Johan, Mineralogy of medieval slags from lead and silver smelting, towards estimation of historical smelting conditions. Archaeometry, vol.51, pp.987-1007, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00516919

J. Fabre, C. Domergue, and F. Dabosi, Le fer romain de la Montagne Noire, Martys 2 : les débuts, 25 années de recherches pluridisciplinaires, vol.560, 1988.

G. Faure, Principles of Isotopes Geology, 1986.

F. Fauvelle, Le Rhinocéros d'Or. Histoires du Moyen Age africain, éditions Alma, vol.320, 2013.

P. Fluzin, A. Ploquin, and F. Dabosi, Approches métallurgiques et archéométriques, édition Errance, vol.239, 2004.

M. Fourment and L. Guillet, Métallurgies du Plomb, Nickel et Cobalt et Alliages de ces Métaux, J.B. Baillière and Sons, 1926.

N. H. Gale, The isotopic composition of tin in some ancient metals and the recycling problem in metal provenancing, Archaeometry, vol.39, pp.71-82, 1997.

N. H. Gale and Z. A. Stos-gale, The characterization by lead isotopes of the ore deposits of Cyprus and Sardinia and its bearing on the possibility of the lead isotope provenancing of copper alloys, Antiquity. BAR International Series, vol.792, pp.120-133, 1999.

, Chapitre I 65

N. H. Gale, Some aspects of lead and silver mining in the Aegean, 1980.

, Thera and the Aegean World II. Thera and the Aegean World, pp.161-196

N. H. Gale, Z. A. Stos-gale, G. Maliotis, and N. Annetts, Lead isotope data from the Isotrace Laboratory, Archaeometry data base 4, ores from Cyprus, vol.39, p.237, 1997.

N. H. Gale, A. P. Woodhead, Z. A. Stos-gale, A. Walden, and I. Bowen, Natural variations detected in the isotopic composition of copper: possible applications to archaeology and geochemistry, International Journal of Mass Spectrometry and Ion Processes, vol.184, pp.1-9, 1999.

S. J. Galer, A. , and W. , Practical application of lead triple spiking for correction of instrumental mass discrimination, Mineralogical Magazine, vol.62, pp.491-493, 1998.

N. Grögler, J. Geiss, M. Grünenfelder, and F. G. Houtermans, Isotopenuntersuchungen zur Bestimmung der Herkunft römischer Bleirohre und Bleibarren. Zeitschrift für Naturforschung, vol.21, pp.1167-72, 1966.

A. Hauptmann, F. Begemann, E. Heitkemper, E. Pernicka, and S. Schmitt-strecker, Early copper produced at Feinan, Wadi Araba, Jordan. The composition of ores and copper, 1992.

. Archaeomaterials, , vol.6, pp.1-33

A. Hauptmann, The Archaeometallurgy of Copper : Evidence from Faynan, Jordan. Natural Science in Archaeology, vol.388, 2007.

M. Haustein, C. Gillis, and E. Pernicka, Tin isotopy-a new method for solving old questions, Archaeometry, vol.52, issue.5, pp.816-832, 2010.

R. E. Hedges and C. Salter, Source determination of iron currency bars through the analysis of slag inclusions, Archaeometry, vol.21, pp.161-175, 1979.

G. Huelga-suarez, M. Moldovan, M. Suarez-fernandez, . Angel-de-blas, G. Cortina et al., Isotopic composition of lead in copper ores and a copper artefact from the la profunda mine, vol.56, pp.651-664, 2014.

M. Jansen, S. Aulbach, A. Hauptmann, H. E. Höfer, S. Klein et al., Platinum group placer minerals in ancient gold artifacts-Geochemistry and osmium Chapitre I 66 isotopes of inclusions in Early Bronze Age gold from Ur/Mesopotamia, Journal of Archaeological Science, vol.68, pp.12-23, 2016.

C. Jarrier, Minéralogie, pétrologie et géochimie des résidus sidérurgiques galloromains (Ariège et Montagne Noire); comparaison avec les résultats des essais in situ de réduction directe du fer, vol.225, 1993.

C. Jarrier, P. Andrieux, C. Domergue, B. Pieraggi, A. Ploquin et al., Elaboration du fer par réduction directe : essai de reproduction des procédés antiques, pp.691-704, 1997.

S. A. Junk and E. Pernicka, An assessment of osmium isotope ratios as a new tool to determine the provenance of gold with platinum-group metal inclusions, Archaeometry, vol.45, issue.2, pp.313-331, 2003.

S. Klein, Y. Lahaye, G. P. Brey, and H. Von-kaenel, The early Roman Imperial aes coinage II: Tracing the copper sources by lead-and copper-isotope analysis-copper coins of Augustus and Tiberius, Archaeometry, vol.46, issue.3, pp.469-480, 2004.

S. Klein, C. Domergue, Y. Lahaye, G. P. Brey, and H. Kaenel, The lead and copper isotopic composition of copper ores from the Sierra Morena (Spain), Journal of Iberian Geology, vol.35, issue.1, pp.59-68, 2009.

S. Kramar, V. Tratnik, I. M. Hrovatin, A. Mladenovic, H. Pristacz et al., Mineralogical and chemical characterization of roman slag from the archaeological site of castra, vol.57, pp.704-719, 2015.

P. B. Larson, F. C. Ramos, K. Maher, M. Gaspar, Z. Chang et al., Cu Isotopes: Tracing metal sources in ore deposits, Goldschmidt Conference. Abstracts, p.432, 2002.

S. Leroy, S. X. Cohen, C. Verna, B. Gratuze, F. Téreygeol et al., The medieval iron market in Ariège (France). Multidisciplinary analytical approach and multivariate analyses, Journal of Archaeological Science, vol.39, pp.1080-1093, 2012.

S. Leroy, P. Dillmann, A. Disser, M. Héritier, S. Bauvais et al., Provenance et circulation des alliages ferreux, Circulation et provenance des matériaux dans les Chapitre I 67 sociétés anciennes, p.360, 2014.

M. Leroy and P. Merluzzo, La réduction : du minerai au métal, édition Errance, vol.239, 2004.

M. Leroy, P. Merluzzo, and C. Le-carlier, Archéologie du fer en Lorraine. Minette et production du fer en bas fourneaux dans l'Antiquité et au Moyen-Age. Fensch Vallée éditions, vol.372, 2015.

J. Ling, E. Hjärthner-holdar, L. Grandin, K. Billström, and P. Persson, Moving metals or indigenous mining? Provenancing Scandinavian Bronze Age artefacts by lead isotopes and trace elements, Journal of Archaeological Science, vol.40, issue.1, pp.291-304, 2013.

J. Ling, Z. Stos-gale, L. Grandin, K. Billström, E. Hjärthner-holdar et al., Moving metals II: provenancing Scandinavian Bronze Age artefacts by lead isotope and elemental analyses, Journal of Archaeological Science, vol.41, pp.106-132, 2014.

L. Long, C. Rico, and C. Domergue, Les épaves antiques de Camargue et le commerce maritime du fer en Méditerranée nord-occidentale (Ier siècle avant J.-C.-Ier après J, 2002.

L. Xiv, , pp.161-188, 2000.

C. Mahé-le-carlier, Caractérisation pétrographique et chimique d'analogues de déchets vitrifiés actuels : les scories de la métallurgie ancienne. Étude de l'altération naturelle et expérimentale, vol.395, 1997.

C. Mahé-le-carlier, N. Dieudonné-glad, and A. Ploquin, Des laitiers obtenus dans un bas-fourneau? Études chimique et minéralogique des scories du site d'Oulches (Indre), 1998.

, Revue d'Archéométrie, vol.22, pp.91-101

C. Mahé-le-carlier, A. Ploquin, and P. Fluck, Apport de la géochimie et de la pétrologie à la connaissance de la métallurgie primaire du plomb argentifère au Moyen Âge : les exemples du Mont Lozère (Cévennes) et de Pfaffenloch (Vosges), vol.34, pp.159-176, 2011.

, Chapitre I 68

P. Mameli, G. Mongelli, G. Oggiano, and D. Rovina, First finding of early medieval iron slags in Sardinia (Italy): a geochemical-mineralogical approach to insights into ore provenance and work activity, Archaeometry, vol.56, pp.406-430, 2014.

A. Manasse and M. Mellini, Chemical and textural characterization of medieval slags from the Massa Marittima smelting sites, Journal of Cultural Heritage, vol.3, p.187, 2002.

M. Mangin, Le Fer, édition Errance, Paris, collection « Archéologiques, vol.239, 2004.

G. Markl, F. Von-blanckenburg, and T. Wagner, Iron isotope fractionation during hydrothermal ore deposition and alteration, Geochimica et Cosmochimica Acta, vol.70, p.3011, 2006.

A. H. Mason, W. G. Powell, H. A. Bankoff, R. Mathur, A. Bulatovic et al., Tin isotope characterization of bronze artifacts of the central Balkans, Journal of Archaeological Science, vol.69, pp.110-117, 2016.

N. J. Mcnaughton and K. J. Rosman, Tin isotope fractionation in terrestrial cassiterites, Geochimica et Cosmochimica Acta, vol.55, pp.499-504, 1991.

D. Nickel, M. Haustein, T. Lampke, and E. Pernicka, Identification of forgeries by measuring tin isotopes in corroded bronze objects, Archaeometry, vol.54, pp.167-174, 2012.

E. Niederschlag, E. Pernicka, T. Seifert, and M. Bartelheim, The determination of lead isotope ratios by multiple collector icp-ms: a case study of early bronze age artefacts and their possible relation with ore deposits of the Erzgebirge, Archaeometry, vol.45, issue.1, pp.61-100, 2003.

S. Paynter, Regional variations in bloomery smelting slag of the Iron Age and RomanoBritish periods, Archaeometry, vol.48, issue.2, pp.271-292, 2006.

A. Pelton, M. G. Stamatakis, E. Kelepertzis, and T. Panagou, The origin and archaeometallurgy of a mixed sulphide ore for copper production on the island of Kea, vol.57, pp.318-343, 2015.

J. Piaskowski, Distinguishing between directly and indirectly smelted Iron ans Steel, Archaeomaterials, vol.6, pp.169-173, 1992.

, Chapitre I 69

R. Pleiner, Iron in Archaeology: the European Bloomery Smelters, Archaeologicky Ustav Aver, 2000.

A. Ploquin, . Allée, . Ph, M. C. Bailly-maître, S. Baron et al.,

M. Lavoie, . Mahé-le, C. Carlier, J. Peytavin, and M. Pulido, , 2004.

S. Mont-lozère and . France, , p.635, 2003.

A. M. Pollard and C. Heron, Archaeological chemistry, 2008.

A. Ramage and P. Craddock, King Croesus' gold: Excavations at Sardis and the History of Gold Refining, vol.272, 2000.

M. Rehkämper and A. N. Halliday, Accuracy and long-term reproducibility of lead isotopic measurements by multiple-collector inductively coupled plasma mass spectrometry using an external method for correction of mass discrimination, International Journal of Mass Spectrometry, vol.181, pp.123-133, 1998.

T. Rehren, T. Belgya, A. Jambon, G. Kali, Z. Kasztovszky et al., 5000 years old Egyptian beads made from hammered meteoric iron, Journal of Archaeological Science, vol.40, pp.4785-4792, 2013.
DOI : 10.1016/j.jas.2013.06.002
URL : https://doi.org/10.1016/j.jas.2013.06.002

M. Renzi, I. Montero-ruiz, and M. Bode, Non-ferrous metallurgy from the Phoenician site of La Fonteta, Journal of Archaeological Science, vol.36, pp.2584-2596, 2009.

C. Rico, J. Fabre, and J. Et-antilinos-marin, Recherches sur les mines et la métallurgie du plomb-argent de Carthagène à l'époque romaine, vol.39, pp.291-310, 2009.
DOI : 10.4000/mcv.343
URL : https://doi.org/10.4000/mcv.343

L. J. Robb, Introduction to ore-forming processes, p.386, 2005.

B. M. Rohl, Lead isotope data from the Isotrace Laboratory, Archaeometry data base 2, galena from Britain and Ireland, vol.38, pp.165-180, 1996.

W. Rostoker and B. Bronson, Pre-Industrial Iron: Its Technology and Ethnology, 1990.

, Archaeomaterials Monograph n°1 Philadelphia

W. Rostoker and J. R. Dvorak, Wrought irons: distinguishing between processes, Archaeomaterials, vol.4, pp.153-166, 1990.

V. Serneels, Le fer et ses minerais, édition Errance, vol.239, 2004.

V. Serneels, P. Merluzzo, and M. Leroy, Les activités de forge : le travail du métal, édition Errance, vol.239, 2004.

C. Schnabel, Traité technique et pratique de métallurgie, 1907.

R. Schwab, D. Heger, B. Höppner, and E. Pernicka, The provenance of iron artefacts from Manching: a multi-technique approach, Archaeometry, vol.48, pp.433-452, 2006.

W. Snoek, I. R. Plimer, and S. Reeves, Application of Pb isotope geochemistry to the study of the corrosion products of archaeological artefacts to constrain provenance, Journal of Geochemical Exploration, vol.66, pp.421-425, 1999.

D. Starley, Determining the technological origins of iron and steel, Journal of Archaeological Science, vol.26, pp.1127-1133, 1999.

Z. A. Stos-gale and N. H. Gale, Metal provenancing using isotopes and the Oxford archaeological lead isotope database (OXALID), Archaeological and Anthropological Science, vol.1, pp.195-213, 2009.

Z. A. Stos-gale, N. H. Gale, N. Annetts, T. Todorov, P. Lilov et al., Lead isotope data from the Isotrace Laboratory, Oxford: Archaeometry Database, vol.5, issue.1, pp.217-226, 1998.

Z. A. Stos-gale, G. Maliotis, N. H. Gale, and N. Annetts, , 1997.

. Archaeometry, , vol.39, pp.83-123

F. Ströbele, T. Wenzel, A. Kronz, L. H. Hildebrandt, and G. Markl, Mineralogical and geochemical characterization of high-medieval lead-silver smelting slags from Wiesloch near Chapitre I 71, 2010.

, Heidelberg (Germany)-an approach to process reconstruction, Archaeological and Anthropological Sciences, vol.2, pp.191-215

M. F. Thirlwall, Multicollector ICP-MS analysis of Pb isotopes using a 207Pb/204Pb double spike demonstrates up to 400 ppm/amu systematic errors in Tl-normalisation, Chemical Geology, vol.184, pp.255-79, 2002.

W. Todt, R. A. Cliff, A. Hanser, and A. W. Hofmann, Evaluation of a 202Pb-205Pb double spike for high-precision lead isotope analysis, Earth processes: reading the isotopic code, vol.95, pp.429-466, 1996.

R. F. Tylecote, H. A. Ghaz-navi, and P. J. Boydell, Partitioning of trace elements between the ores, fluxes, slags and metal during smelting of copper, Journal of Archeaological Science, vol.4, pp.305-333, 1977.

R. F. Tylecote, The Prehistory of Metallurgy in the British Isles, 1986.

K. Van-liefferinge, M. Van-den-berg, C. Stal, R. Docter, A. De-wulf et al., Reconsidering the role of Thorikos within the Laurion silver mining area, Journal of Archaeological Science, vol.41, pp.272-284, 2014.

A. Vasilescu, B. Constantinescu, D. Stan, M. Radtke, U. Reinholz et al., Studies on ancient silver metallurgy using SR XRF and micro-PIXE. Radiation Physics and Chemistry, vol.117, pp.26-34, 2015.

G. A. Wagner and G. Weisgerber, Silber, Blei und Gold auf Sifnos, prähistorische und antike Metallproduktion, Der Anschnitt, 1985.

G. A. Wagner and G. Weisgerber, Antike Edel-und Buntmetallgewinnung auf Thasos, Der Anschnitt, Beiheft 6. Deutsches Bergbau-Museum, 1988.

G. A. Wagner, W. Gentner, H. Gropengiesser, and N. H. Gale, Early bronze age lead-silver mining and metallurgy in the Aegean, Craddock PT (ed) Scientific studies in early mining and extractive metallurgy, vol.20, pp.63-86, 1980.

C. M. Wawryk and J. D. Foden, Fe-isotope fractionation in magmatic-hydrothermal mineral deposits: A case study from the Renison Sn-W deposit, Geochimica et Cosmochimica Acta, vol.150, pp.285-298, 2015.

W. M. White, F. Albarède, and P. Télouk, High-precision analysis of Pb isotope ratios by multiple-collector ICP-MS, Chemical Geology, vol.167, pp.257-70, 2000.

A. P. Woodhead, N. H. Gale, and Z. A. Stos-gale, An investigation into the fractionation of copper isotopes and its possible application to archaeometallurgy, Metals in Antiquity, vol.792, pp.134-139, 1999.

E. Yamazaki, S. Nakai, T. Yokoyama, S. Ishihara, and H. Tang, Tin isotope analysis of cassiterites from Southeastern and Eastern Asia, Geochemical Journal, vol.47, pp.21-35, 2013.

E. Yamazaki, S. Nakai, Y. Sahoo, T. Yokoyama, H. Mifune et al.,

N. Hokanishi and A. Yasuda, Feasibility studies of Sn isotope composition for provenancing ancient bronzes, Journal of Archaeological Science, vol.52, pp.458-467, 2014.

W. Yi, P. Budd, R. A. Mcgill, S. M. Young, A. N. Halliday et al.,

A. M. Pollard, Tin isotope studies of experimental and prehistoric bronzes, The beginnings of metallurgy, pp.285-90, 1999.

X. K. Zhu, R. K. O'nions, Y. Guo, N. S. Belshaw, and D. Rickard, , 2000.

, Cu-isotope variation by plasma-source mass spectrometry: implications for use as geochemical tracers, Chemical Geology, vol.163, pp.139-149

I. I. Chapitre, Variabilité isotopique naturelle des minerais de fer

C. Domergue and F. Dabosi, Supplément à la Revue Archéologique de Narbonnaise 43, vol.560, 2016.

M. Blanchard, F. Poitrasson, M. Méheut, M. Lazzeri, F. Mauri et al., Iron isotope fractionation between pyrite (FeS 2 ), hematite (Fe 2 O 3 ) and siderite (FeCO 3 ): a first-principles density functional theory study, Geochimica et Cosmochimica Acta, vol.73, pp.6565-6578, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00420994

S. L. Brantley, L. J. Liermann, R. L. Guynn, A. Anba, G. A. Icopini et al., Fe isotopic fractionation during mineral dissolution with and without bacteria, Geochimica et Cosmochimica Acta, vol.68, pp.3189-3204, 2004.

T. D. Bullen, A. F. White, C. W. Childs, D. V. Vivet, and M. S. Schultz, Demonstration of significant abiotic iron isotope fractionation in nature, Geology, vol.29, pp.699-702, 2001.

R. M. Burkhalter, Ooidal ironstones and ferruginous microbialites : origin and relation to sequence stratigraphy, Swiss Jura mountains). Sedimentology, vol.42, pp.57-74, 1995.

P. Buurman and A. Jongmans, Podzolisation and soil organic matter dynamics, Geoderma, vol.125, pp.71-83, 2005.
DOI : 10.1016/j.geoderma.2004.07.006

, The National Museum of Antiquities of Scotland, pp.139-155

S. Chung and B. Jahn, Plume-lithosphere interaction in generation of the Emeishan flood basalts at the Permian-Triassic boundary, Geology, vol.23, pp.889-892, 1995.

M. Coustures, N. Dieudonné-glad, P. Dillmann, and D. Béziat, Tentative chemical characterization of a Roman smelting workshop, Monographies Instrumentum 50, vol.560, 1988.

F. Roger, J. Respaut, M. Brunel, P. Matte, and J. Paquette, Première datation U-Pb des orthogneiss oeillés de la zone axiale de la Montagne noire, 2004.

M. Roskosz, B. Luais, H. C. Watson, M. J. Toplis, C. M. Alexander et al., Experimental quantification of the fractionation of Fe isotopes during metal segregation from a silicate melt, Earth and Planetary Science Letters, vol.248, pp.851-867, 2006.

W. Rostoker and B. Bronson, Pre-Industrial Iron: Its Technology and Ethnology, 1990.

, Archaeomaterials Monograph n°1 Philadelphia

O. Rouxel, N. Dobbek, J. N. Ludden, and Y. Fouquet, Iron isotope fractionation during oceanic crust alteration, Chemical Geology, vol.202, pp.155-182, 2003.

R. Schwab, D. Heger, B. Höppner, and E. Pernicka, The provenance of iron artefacts from Manching: a multi-technique approach, Archaeometry, vol.48, pp.433-452, 2006.

A. Shahar, V. J. Hillgren, M. F. Horan, J. Mesa-garcia, L. A. Kaufman et al., Sulfur controlled iron isotope fractionation experiments of core formation in planetary bodies, Geochimica et Cosmochimica Acta, vol.150, pp.253-264, 2015.

J. L. Skulan, B. L. Beard, and C. M. Johnson, Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(III) and hematite, Geochimica et Cosmochimica Acta, vol.66, pp.2995-3015, 2002.

G. Steinhoefel, I. Horn, and F. Von-blanckenburg, Micro-scale tracing of Fe and Si isotope signatures in banded iron formation using femtosecond laser ablation, Geochimica et Cosmochimica Acta, vol.73, pp.5343-5360, 2009.

G. J. Taylor, K. Keil, T. Mccoy, H. Haack, and E. R. Scott, Asteroid differentiation: pyroclastic volcanism to magma oceans, Meteoritics and Planetary Science, vol.28, pp.34-52, 1993.

F. Tollon, Toulouse. La Combe du Saut par Conquessur-Orbiel, Soc. Mines et prod. chim. Salsigne, pp.175-202, 1969.

R. F. Tylecote, The Prehistory of Metallurgy in the British Isles, 1986.

S. A. Welch, B. L. Beard, C. M. Johnson, and P. S. Braterman, Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(II) and Fe(III), Geochimica et Cosmochimica Acta, vol.67, pp.4231-4250, 2003.

X. K. Zhu, Y. Guo, R. J. Williams, R. K. O'nions, A. Matthews et al.,

E. C. Waal, U. Weser, B. K. Burgess, and B. Salvato, Mass fractionation processes of transition metal isotopes, Earth and Planetary Science Letters, vol.200, pp.47-62, 2002.

, Chapitre V : Application of iron isotopes for provenance studies

H. G. Bachmann, The identification of slags from archaeological sites. Occasional Publication 6. The Institute of Archaeology, 1982.

S. Baron, M. Coustures, D. Béziat, M. Guérin, J. Huez et al., Lingots de plomb et barres de fer des épaves romaines des, 2011.

F. Rhône, Questions de traçabilité comparée, Revue Archéologique de Narbonnaise, vol.44, pp.71-98

B. L. Beard, R. M. Handler, M. M. Scherer, L. Wu, A. D. Czaja et al., Iron isotope fractionation between aqueous ferrous iron and goethite, Earth and Planetary Science Letters, vol.295, pp.241-250, 2010.
DOI : 10.1016/j.epsl.2010.04.006

M. Benvenuti, A. Orlando, D. Borrini, L. Chiarantini, P. Costagliola et al., Results and implications for the reconstruction of ancient metallurgical processes and iron provenance, Journal of Archaeological Science, vol.70, pp.1-14, 2016.

M. Berranger, Le fer, entre matière première et moyen d'échange, en France du VIIe au Ier s. av. J.-C. Approches interdisciplinaires, 2009.

. Panthéon-sorbonne, , p.315

D. Béziat, M. Coustures, and F. Tollon, Les minerais de fer de la Montagne Noire : minéralogie et chimie, quelques éléments de réponse aux questions d'approvisionnement et de traitements minéralurgiques, Le fer romain de la Montagne Noire, Martys 2 : les débuts, 25 années de recherches pluridisciplinaires, 1988.

E. Blakelock, M. Martinón-torres, H. A. Veldhuijzen, and T. Young, Slag inclusions in iron objects and the quest for provenance: an experiment and a case study, Journal of Archaeological Science, vol.36, pp.1745-1757, 2009.

M. Brauns, R. Schwab, G. Gassmann, G. Wieland, and E. Pernicka, Provenance of Iron Age iron in Southern Germany: a new approach, Journal of Archaeological Science, vol.40, p.841, 2013.

V. F. Buchwald and H. Wivel, Slag analysis as a method for the characterization and provenancing of ancient iron objects, Materials Characterization, vol.40, pp.73-96, 1998.

T. D. Bullen, A. F. White, C. W. Childs, D. V. Vivit, and M. S. Schulz, Demonstration of significant abiotic iron isotope fractionation in nature, Geology, vol.29, pp.699-702, 2001.

M. F. Charlton, The last frontier in 'sourcing': the hopes, constraints and future for iron provenance research, Journal of Archaeological Science, vol.56, pp.210-220, 2015.

M. Christol, L'organisation des communautés en Gaule méridionale, 2010.

, Narbonnaise) sous la domination de Rome, Pallas, vol.84, pp.15-36

M. Coustures, D. Béziat, F. Tollon, C. Domergue, L. Long et al., The use of trace element analysis of entrapped slag inclusions to establish ore-bar links: examples from two Gallo-Roman iron-making sites in France, Loiret). Archaeometry, vol.45, pp.599-613, 2003.

M. Coustures, Le Fer dans le Tarn aux périodes anciennes, 2014.

N. Dauphas and O. Rouxel, Mass spectrometry and natural variations of iron isotopes, 2006.

, Mass Spectrometry Reviews, vol.25, pp.515-550

P. Degryse, J. C. Schneider, N. Kellens, M. Waelkens, and P. Muchez, Tracing the resources of iron working at ancient Sagalassos (south-west Turkey): combined lead and strontium isotope study on iron artifacts and ores, Archaeometry, vol.49, pp.75-86, 2007.

A. Desaulty, P. Dillmann, M. Héritier, C. Mariet, B. Gratuze et al., Does it come from the Pays de Bray? Examination of an origin hypothesis for the ferrous reinforcements used in French medieval churches using major and trace element analyses, Journal of Archaeological Science, vol.36, pp.2445-2462, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01108384

P. Dillmann and M. Héritier, Slag inclusion analyses for studying ferrous alloys employed in French medieval buildings: supply of materials and diffusion of smelting processes, Journal of Archaeological Science, vol.34, pp.1810-1823, 2007.
URL : https://hal.archives-ouvertes.fr/hal-01108333

P. Dillmann, S. Leroy, A. Disser, S. Bauvais, E. Vega et al., Dernières avancées des études sur la production, la circulation et la datation des métaux ferreux archéologiques, 2015.

A. Disser, P. Dillmann, C. Bourgain, M. Héritier, E. Vega et al., Iron reinforcements in Beauvais and Metz Cathedrals: from bloomery or finery? The use of logistic regression for differentiating smelting processes, Journal of Archaeological Science, vol.42, pp.315-333, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01157707

C. Domergue and F. Tollon, Minerais et scories de la fonderie gallo-romaine du domaine des Forges, Archéologie minière, Forez et Massif Central, Actes du 98e congrès national des sociétés savantes, pp.101-114, 1973.

C. Domergue, B. Cauuet, E. Lavielle, J. Pailler, R. Sablayrolles et al., Un centre sidérurgique romain de la Montagne Noire, pp.477-236, 1993.

C. Domergue, C. Jarrier, and F. Tollon, La métallurgie extractive du fer dans la Montagne noire (France) à l'époque romaine, nouveaux documents, vol.32, pp.147-156, 1999.

C. Domergue, A. Beyrie, C. Jacquet, C. Jarrier, F. Tollon et al., Un bas fourneau de petit module sur le site sidérurgique romain du domaine des Forges, pp.127-136, 2003.

J. Fabre, C. Domergue, and F. Dabosi, Le fer romain de la Montagne Noire, Martys 2 : les débuts, 25 années de recherches pluridisciplinaires, vol.560, 1988.

M. A. Fehr, P. S. Andersson, U. Halenius, and C. Morth, Iron isotope variations in Holocene sediments of the Gotland Deep, Geochimica et Cosmochimica Acta, vol.72, pp.807-826, 2008.

A. J. Frierdich, B. L. Beard, M. M. Scherer, and C. M. Johnson, , 2014.

F. , II)aq-magnetite equilibrium iron isotope fractionation factor using the three-isotope method and a multi-direction approach to equilibrium, Earth and Planetary Science Letters, vol.391, pp.77-86

G. P. Halverson, F. Poitrasson, P. F. Hoffman, A. Nédélec, J. Montel et al., Fe isotope and trace element geochemistry of the Neoproterozoic syn-glacial Rapitan iron formation, Earth and Planetary Science Letters, vol.309, pp.100-112, 2011.

R. E. Hedges and C. J. Salter, Source determination of iron currency bars through analysis of slag inclusions, Archaeometry, vol.22, pp.161-175, 1979.

I. Horn, F. Von-blanckenburg, R. Schoenberg, G. Steinhoefel, and G. Markl, In situ iron isotope ratio determination using UV-femtosecond laser ablation with application to hydrothermal ore formation processes, Geochimica et Cosmochimica Acta, vol.70, pp.3677-3688, 2006.

C. M. Johnson, B. L. Beard, E. E. Roden, D. K. Newman, and K. H. Nealson, Isotopic constraints on biogeochemical cycling of Fe, Reviews of Mineralogy and Geochemistry, vol.55, pp.359-408, 2004.

C. Johnson, B. Beard, C. Klein, N. Beukes, and E. Roden, Iron isotopes constrain biologic and abiologic processes in banded iron formation genesis, Geochimica et Cosmochimica Acta, vol.72, pp.151-169, 2008.

M. Leroy, P. Merluzzo, and C. Le-carlier, Archéologie du fer en Lorraine. Minette et production du fer en bas fourneaux dans l'Antiquité et au Moyen-Age. Fensch Vallée éditions, vol.372, 2015.

S. Leroy, S. X. Cohen, C. Verna, B. Gratuze, F. Tereygeol et al., The medieval iron market in Ariege (France). Multidisciplinary analytical approach and multivariate analyses, Journal of Archaeological Science, vol.39, pp.1080-1093, 2012.
URL : https://hal.archives-ouvertes.fr/halshs-00669129

L. Long, Inventaire des épaves de Camargue, de l'Espiguette au Grand Rhône. Des cargaisons de fer antiques aux gisements du XIXème siècle. Leur contribution à l'étude du paléorivage, BAUDAT (M.) dir.-Crau, pp.59-113, 1997.

L. Long, C. Rico, and C. Domergue, Les épaves antiques de Camargue et le commerce maritime du fer en Méditerranée nord-occidentale (Ier siècle avant J.-C.-Ier après J, 2002.

L. Xiv, , pp.161-188, 2000.

L. Long, D. Djaoui, and C. Rico, Lingots et barres de fer: vers une typologie plus complète, Bilan Scientifique du Département des Recherches Archéologiques Subaquatiques et Sous-Marines 2003. Direction du Patrimoine. Sous-direction de l'Archéologie. Ministère de la Culture et de la Communication, pp.66-68, 2005.

M. Carlier and C. , Caractérisation pétrographique et chimique d'analogues de déchets vitrifiés actuels : les scories de la métallurgie ancienne. Étude de l'altération naturelle et expérimentale, vol.395, 1997.

P. Mameli, G. Mongelli, G. Oggiano, and D. Rovina, First finding of early medieval iron slags in sardinia (italy): A geochemical-mineralogical approach to insights into ore provenance and work activity, Archaeometry, vol.56, issue.3, pp.406-430, 2014.

M. Mangin, Le Fer, édition Errance, Paris, collection « Archéologiques, vol.239, 2004.

G. Markl, F. Von-blanckenburg, and T. Wagner, Iron isotope fractionation during hydrothermal ore deposition and alteration, Geochimica et Cosmochimica Acta, vol.70, p.3011, 2006.
DOI : 10.1016/j.gca.2006.02.028

T. Martin and H. Ruffat, Un dépôt de lingots de fer du début de La Tène III à, 1998.

. Montans, M. Feugère, V. Serneels (dir.), Recherches sur l'économie du fer en Méditerranée nord-occidentale (Monogr. Instrumentum, 4), pp.110-115

J. Milot, F. Poitrasson, S. Baron, and M. Coustures, Iron isotopes as a potential tool for ancient metals tracing, Journal of Archaeological Science, vol.76, pp.9-20, 2016.
DOI : 10.1016/j.jas.2016.10.003
URL : https://hal.archives-ouvertes.fr/hal-01978550

K. Moeller, R. Schoenberg, T. Grenne, I. H. Thorseth, K. Drost et al., Comparison of iron isotope variations in modern and Ordovician siliceous Fe oxyhydroxide deposits, Geochimica et Cosmochimica Acta, vol.126, pp.422-440, 2014.

G. Pagès, L. Long, F. Fluzin, and P. Dillmann, Réseaux de production et standards de commercialisation du fer antique en méditerranée: les demi-produits des épaves romaines des Saintes-Maries-de-la-Mer, vol.41, pp.261-283, 2008.

G. Pagès, P. Dillmann, P. Fluzin, and L. Long, A proposal for a comprehensive metallographic approach, Journal of Archaeological Science, vol.38, pp.1234-1252, 2011.

J. Pailler, Les Rutènes par les mots et par les textes, Les Rutènes : du peuple à la cité, 2011.

F. Poitrasson and R. Freydier, Heavy iron isotope composition of granites determined by high resolution MC-ICP-MS, Chemical Geology, vol.222, pp.132-147, 2005.
DOI : 10.1016/j.chemgeo.2005.07.005
URL : https://hal.archives-ouvertes.fr/hal-00319301

F. Poitrasson, S. Levasseur, and N. Teutsch, Significance of iron isotope mineral fractionation in pallasites and iron meteorites for the core-mantle differentiation of terrestrial planets, Earth and Planetary Science Letters, vol.234, pp.151-164, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00319064

F. Poitrasson, G. Delpech, and M. Grégoire, On the iron isotope heterogeneity of lithospheric mantle xenoliths: implications for mantle metasomatism, the origin of basalts and the iron isotope composition of the Earth, Contribution to Mineralogy and Petrology, vol.165, pp.1243-1258, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00857612

C. Rico, Le domaine des Forges : au coeur d'une région sidérurgique, Le fer romain de la Montagne Noire, Martys 2 : les débuts, 25 années de recherches pluridisciplinaires, vol.560, 1988.

W. Rostoker and B. Bronson, Pre-Industrial Iron: Its Technology and Ethnology, 1990.

, Archaeomaterials Monograph n°1 Philadelphia

O. Rouxel, W. C. Shanks, W. Bach, and K. J. Edwards, Integrated Fe-and S-isotope study of seafloor hydrothermal vents at East Pacific Rise 9-10°N, Chemical Geology, vol.252, pp.214-227, 2008.

R. Schwab, D. Heger, B. Höppner, and E. Pernicka, The provenance of iron artefacts from Manching: a multi-technique approach, Archaeometry, vol.48, pp.433-452, 2006.

J. L. Skulan, B. L. Beard, and C. M. Johnson, Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(III) and hematite, Geochimica et Cosmochimica Acta, vol.66, pp.2995-3015, 2002.
DOI : 10.1016/s0016-7037(02)00902-x

Z. A. Stos-gale, G. Maliotis, N. H. Gale, and N. Annetts, , 1997.

. Archaeometry, , vol.39, pp.83-123

R. F. Tylecote, The Prehistory of Metallurgy in the British Isles, 1986.

X. K. Zhu, Y. Guo, R. J. Williams, R. K. O'nions, A. Matthews et al.,

E. C. Waal, U. Weser, B. K. Burgess, and B. Salvato, Mass fractionation processes of transition metal isotopes, Earth and Planetary Science Letters, vol.200, pp.47-62, 2002.

A. Mas'udi, Les Prairies d'or, traduction C. Barbier De Meynard et, J. Pawet, pp.1861-1877

H. Bocoum, Aux Origines de la Métallurgie du Fer en Afrique: Une Ancienneté Méconnue, Afrique de l'Ouest et Afrique Centrale. Editions UNESCO, vol.240, 2002.

A. Cheittetz, G. Levresse, D. Gasquet, M. R. Azizi-samir, R. Zyadi et al., The giant Imiter silver deposit: Neoproterozoic epithermal mineralization in the, vol.37, pp.772-781, 2002.

M. Coustures, Rapport sur l'étude minéralogique et chimique des minerais et scories de reduction du pays Bassar (Togo), 2014.

G. M. Cox, G. P. Halverson, W. G. Minarik, D. P. Le-heron, F. A. Macdonald et al., Neoproterozoic iron formation: An evaluation of its temporal, environmental and tectonic significance, Chemical Geology, vol.362, pp.232-249, 2013.

G. M. Cox, G. P. Halverson, A. Poirier, D. Le-heron, J. V. Strauss et al., A model for Cryogenian iron formation, Earth and Planetary Science Letters, vol.433, pp.280-292, 2016.
DOI : 10.1016/j.epsl.2015.11.003

P. De-barros, Bassar : A quantified, chronologically controlled, regionalapproach to a traditional iron production center in west Africa, Africa, vol.56, issue.2, pp.148-173, 1986.

J. Devisse, « Commerce et route du trafic en Afrique occidentale, Histoire générale de l'Afrique, vol.III, pp.397-463, 1990.

P. F. Hoffman, A. J. Kaufman, G. P. Halverson, and D. P. Schrag, A Neoproterozoic Snowball Earth, Science, vol.281, issue.5381, pp.1342-1346, 1998.
DOI : 10.1126/science.281.5381.1342

V. I. Chapitre,

J. Humphris, M. Martinon-torres, T. Rehren, and D. A. Reid, Variability in single smelting episodes e a pilot study using iron slag from Uganda, Journal of Archaeological Science, vol.36, issue.2, pp.359-369, 2009.

J. Humphris and C. Carey, New methods for investigating slag heaps: Integrating geoprospection, excavation and quantitative methods at Meroe, Sudan, Journal of Archaeological Science, vol.70, pp.132-144, 2016.

I. Khurdãdbah and S. Ix-Ème, Al-masalik wa-l mamalik, 1889.

A. Ilyin, Neoproterozoic banded iron formations. Lithology and Mineral Resources, vol.44, pp.78-86, 2009.

J. F. Jemkur, Les débuts de la métallurgie du fer en Afrique de l'Ouest, 2002.

A. Afrique-de-l'ouest and . Centrale, Editions UNESCO, vol.240, 2002.

D. Killick, What do we know about African iron working, Journal of African Archaeology, vol.2, issue.1, pp.97-112, 2004.

D. Killick and D. Miller, Smelting of magnetite and magnetite-ilmenite iron ores in the northern Lowveld, South Africa, ca. 1000 CE to ca. 1880 CE, Journal of archaeological Science, vol.43, pp.239-255, 2014.

M. Carlier, C. Ploquin, A. Fluck, and P. , Apport de la géochimie et de la pétrologie à la connaissance de la métallurgie primaire du plomb argentifère au Moyen Âge : les exemples du Mont Lozère (Cévennes) et de Pfaffenloch (Vosges). ArcheoSciences, revue d'archéométrie, vol.34, pp.159-176, 2011.

M. Mangin, Le Fer, édition Errance, Paris, collection « Archéologiques, vol.239, 2004.

R. A. Messier and J. A. Miller, The Last Civilized Place : Sijilmasa and Its Saharan Destiny, vol.296, 2015.

J. Milot, F. Poitrasson, S. Baron, and M. Coustures, Iron isotopes as a potential tool for ancient metals tracing, Journal of Archaeological Science, vol.76, pp.9-20, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01978550

J. Pasava, Geochemistry and the role of anoxic sediments in the origin of the Imiter silver deposit in Morocco, Vestnik Ceského geologického ustavu, vol.69, pp.1-11, 1994.

V. I. Chapitre,

F. Poitrasson, On the iron isotope homogeneity level of the continental crust, Chemical Geology, vol.235, pp.195-200, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00319305

C. Rico, J. Fabre, and J. Et-antilinos-marin, Recherches sur les mines et la métallurgie du plomb-argent de Carthagène à l'époque romaine. Mélanges de la Casa de Velázquez, pp.39-40, 2009.
DOI : 10.4000/mcv.343
URL : https://doi.org/10.4000/mcv.343

C. Robion-brunner, Peuplements des forgerons et traditions sidérurgiques : Vers une histoire de la production du fer sur le plateau de Bandiagara (pays dogon, Mali) durant les empires précoloniaux, Francfort : Monographie du programme Paléoenvironnement et peuplement humain en Afrique de l'Ouest, Journal of African Archaeology, vol.189, 2010.

C. ;. Robion-bruner, J. C. Anr, and . Siderent, Rapport de la mission de Janvier, 2014.

C. ;. Robion-bruner, J. C. Anr, and . Siderent, Rapport de la mission de Janvier, 2015.

C. Robion-bruner, Rapport de la mission de Mai-Juin 2015 du projet ANR JC SIDERENT, 2015.

R. Brunner, C. Fabre, J. M. Baron, and S. Souhassou, Mustapha. 2012. Mines et métallurgistes de l'Anti Atlas marocain durant les périodes protohistoriques et médiévales. Rapport pour la MSH ST, vol.18

J. Sylvain, A. Aregba, J. Collart, and K. S. Et-godonou, , 1986.

, Direction générale des Mines, de la Géologie et du Bureau National de Recherches Minières

R. Télécommunication and . Togolaise,

J. Tuduri, A. Chauvet, A. Ennaciri, and L. Et-barbanson, Modèle de formation du gisement d'argent d'Imiter (Anti-Atlas oriental, Maroc). Nouveaux apports de l'analyse structurale et minéralogique, Comptes Rendus Geosciences, vol.338, pp.253-261, 2005.
DOI : 10.1016/j.crte.2005.11.010

R. F. Tylecote, Metal working at Meroe, Sudan. Meroitica, 6, 29-42. References Bachmann, H.G., 1982. The Identification of Slags from Archaeological Sites, 1982.

J. Milot, Journal of Archaeological Science, vol.76, pp.9-20, 2016.

. London, S. Baron, M. Coustures, D. Gu-erin, M. Huez et al., Lingots de plomb et barres de fer des epaves romaines des Saintes-Maries-de-la-Mer (Bouches-du-Rh^ one, France) : Questions de traçabilit e compar ee. Rev. Archeologique Narbonnaise 44, 71e98, Geochemistry of Non-traditional Stable Isotopes, 2004.

B. L. Beard, C. M. Johnson, L. Cox, H. Sun, K. H. Nealson et al., Iron isotope biosignatures, Science, vol.285, pp.1889-1892, 1999.
DOI : 10.1126/science.285.5435.1889

B. L. Beard, C. M. Johnson, J. L. Skulan, K. H. Nealson, L. Cox et al., The tungsten and tin signature of iron ores from Elba Island (Italy): a tool for provenance studies of iron production in the Mediterranean region, Chem. Geol, vol.195, pp.479-506, 2003.

M. Benvenuti, A. Orlando, D. Borrini, L. Chiarantini, P. Costagliola et al., Les minerais de fer de la Montagne Noire : min eralogie et chimie, quelques el ements de r eponse aux questions d'approvisionnement et de traitements min eralurgiques, Le fer romain de la Montagne Noire, Martys 2 : les d ebuts, 25 ann ees de recherches pluridisciplinaires, vol.70, pp.1745-1757, 1988.

M. Brauns, R. Schwab, G. Gassmann, G. Wieland, E. Pernicka et al., Slag analysis as a method for the characterization and provenancing of ancient iron objects, J. Archaeol. Sci, vol.40, pp.73-96, 1998.

T. D. Bullen, A. F. White, C. W. Childs, D. V. Vivit, and M. S. Schulz, Demonstration of significant abiotic iron isotope fractionation in nature, Geology, vol.29, pp.699-702, 2001.
DOI : 10.1130/0091-7613(2001)029<0699:dosaii>2.0.co;2

M. F. Charlton, P. Crew, T. Rehren, and S. J. Shennan, Explaining the evolution of ironmaking recipes-an example from northwest Wales, J. Anthropol. Archaeol, vol.29, pp.352-367, 2010.

M. F. Charlton, E. Blakelock, M. Martinon-torres, and T. Young, Investigating the production provenance of iron artifacts with multivariate methods, J. Archaeol. Sci, vol.39, 2012.

M. F. Charlton, The last frontier in 'sourcing': the hopes, constraints and future for iron provenance research, J. Archaeol. Sci, vol.56, pp.210-220, 2015.

M. Coustures, D. Tollon, F. Domergue, C. Long, L. Rebiscoul et al., The use of trace element analysis of entrapped slag inclusions to establish ore-bar links: examples from two Gallo-Roman iron-making sites in France (Les Martys, vol.45, pp.599-613, 2003.

M. Coustures, C. Rico, D. Djaoui, D. Long, L. Domergue et al., La provenance des barres de fer romaines des, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01911027

, Etude arch eologique et arch eom etrique, Gallia, vol.63, pp.243-261

M. Coustures, N. Dieudonn-e-glad, . Dillmann, . Ph, and D. Eziat, Tentative chemical characterization of a Roman smelting workshop, Early Iron in Europe. Monographies Instrumentum, p.50, 2014.

M. Coustures and F. Dabosi, Les exp erimentations de r eduction du minerai de fer dans les bas fourneaux de la Montagne Noire : vingt ans apr es, Le fer romain de la Montagne Noire, Martys 2 : les d ebuts, 25 ann ees de recherches pluridisciplinaires, p.560, 1988.

P. R. Craddock, N. Dauphas, and P. Crew, Iron isotopic compositions of geological reference materials and chondrites, Iron in the Alps: Deposits, Mines and Metallurgy from Antiquity to the XVI Century, vol.35, pp.38-48, 1998.

A. Desaulty, P. Dillmann, M. L'h-eritier, C. Mariet, B. Gratuze et al., Does it come from the Pays de Bray? Examination of an origin hypothesis for the ferrous reinforcements used in French medieval churches using major and trace element analyses, J. Archaeol. Sci, vol.36, pp.2445-2462, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01108384

P. Dillmann and M. L'h-eritier, Slag inclusion analyses for studying ferrous alloys employed in French medieval buildings: supply of materials and diffusion of smelting processes, J. Archaeol. Sci, vol.34, pp.1810-1823, 2007.
URL : https://hal.archives-ouvertes.fr/hal-01108333

P. Dillmann, S. Leroy, A. Disser, S. Bauvais, E. Vega et al., Derni eres avanc ees des etudes sur la production, la circulation et la datation des m etaux ferreux arch eologiques. Les Nouv. l'arch eologie 138, 28e34, J. Archaeol. Sci, vol.42, pp.315-333, 2014.

C. Domergue, B. Cauuet, E. Lavielle, J. Pailler, R. Sablayrolles et al., Un centre sid erurgique romain de la Montagne Noire, Le domaine des Forges, 1993.

C. Domergue, C. Jarrier, and F. Tollon, La m etallurgie extractive du fer dans la Montagne noire (France) a l' epoque romaine, nouveaux documents, Rev. arch eologique Narbonnaise, vol.32, pp.147-156, 1999.

J. Fabre, C. Domergue, ). Dabosi-(dir, and F. , Le fer romain de la Montagne Noire, Martys 2 : les d ebuts, 25 ann ees de recherches pluridisciplinaires, p.560, 1988.

M. A. Fehr, P. S. Andersson, U. Halenius, and C. Morth, Iron isotope variations in Holocene sediments of the Gotland deep, Geochimica Cosmochimica Acta, vol.72, pp.807-826, 2008.

P. Fluzin, A. Ploquin, F. Dabosi, A. J. Frierdich, B. L. Beard et al., Determination of the Fe(II)aqemagnetite equilibrium iron isotope fractionation factor using the three-isotope method and a multi-direction approach to equilibrium, Le Fer. edition Errance, vol.391, pp.77-86, 2004.

G. P. Halverson, F. Poitrasson, P. F. Hoffman, A. Montel, J. Kirby et al., Fe isotope and trace element geochemistry of the Neoproterozoic syn-glacial Rapitan iron formation, Earth Planet. Sci. Lett, vol.309, pp.100-112, 2011.

R. E. Hedges and C. J. Salter, Source determination of iron currency bars through analysis of slag inclusions, Archaeometry, vol.22, pp.161-175, 1979.

R. C. Hin, M. X. Schmidt, B. ;. Bourdon, F. Von-blanckenburg, R. Schoenberg et al., Experimental evidence for the absence of iron isotope fractionation between metal and silicate liquids at 1 GPa and 1250e1300 C and its cosmochemical consequences. Geochimica Cosmochimica Acta 93, 164e181. Horn, I, Geochimica Cosmochimica Acta, vol.70, pp.3677-3688, 2006.

C. Jarrier, Min eralogie, p etrologie et g eochimie des r esidus sid erurgiques gallo-romains (Ari ege et Montagne Noire); comparaison avec les r esultats des essais in situ de r eduction directe du fer. Th ese de doctorat, vol.225, p.pp, 1993.

C. Jarrier, . Andrieux, . Ph, . Domergue, . Cl et al., Elaboration du fer par r eduction directe : essai de reproduction des proc ed es antiques, 1997.

C. M. Johnson, J. L. Skulan, B. L. Beard, H. Sun, K. H. Nealson et al., Isotopic fractionation between Fe(III) and Fe(II) in aqueous solutions, Earth Planet. Sci. Lett, vol.195, pp.141-153, 2002.

C. M. Johnson, B. L. Beard, N. J. Beukes, C. Klein, and J. M. O'leary, Ancient geochemical cycling in the Earth as inferred from Fe isotope studies of banded iron formations from the Transvaal Craton, Contributions Mineralogy Petrology, vol.144, pp.523-547, 2003.

C. M. Johnson, B. L. Beard, C. Klein, N. J. Beukes, and E. E. Roden, Iron isotopes constrain biologic and abiologic processes in banded iron formation genesis, Geochimica Cosmochimica Acta, vol.72, pp.151-169, 2008.

M. Leroy and P. Merluzzo, La r eduction : du minerai au m etal. « Arch eologiques, Le Fer. edition Errance, p.239, 2004.

M. Leroy, P. Merluzzo, and C. Le-carlier, Arch eologie du fer en Lorraine, Minette et production du fer en bas fourneaux dans l'Antiquit e et au Moyen-Age, 2015.

S. Leroy, S. X. Cohen, C. Verna, B. Gratuze, F. Tereygeol et al., Caract erisation p etrographique et chimique d'analogues de d echets vitrifi es actuels : les scories de la m etallurgie ancienne. Etude de l'alt eration naturelle et exp erimentale, L'Africa Romana XIV, vol.39, p.pp, 1997.

P. Mameli, G. Mongelli, G. Oggiano, and D. Rovina, First finding of early medieval iron slags in sardinia (italy): a geochemicalemineralogical approach to insights into ore provenance and work activity, Archaeometry, vol.56, issue.3, pp.406-430, 2014.

). Mangin-(dir and M. , Le Fer. « Arch eologiques, p.239, 2004.

G. Markl, F. Von-blanckenburg, and T. Wagner, Iron isotope fractionation during hydrothermal ore deposition and alteration, Geochimica Cosmochimica Acta, vol.70, pp.3011-3030, 2006.

J. Milot, Utilisation des isotopes du fer pour le traçage des m etaux anciens: d eveloppement m ethodologique et applications arch eologiques, p.304, 2016.

E. Ohtani, Formation of olivine textures in pallasites and thermal history of pallasites in their parent body, Phys. Earth Planet. Interiors, vol.32, pp.182-192, 1983.

H. ;. Okamoto, L. Long, F. Fluzin, and P. Dillmann, R eseaux de production et standards de commercialisation du fer antique en m editerran ee: les demi-produits des epaves romaines des, 1993.

G. Rev-;-pag-es, P. Dillmann, P. Fluzin, and L. Long, A study of the Roman iron bars of Saintes-Maries-de-la-Mer (Bouches-du-Rh^ one, France). A proposal for a comprehensive metallographic approach, J. Archaeol. Sci, vol.38, pp.1234-1252, 2011.

S. Paynter, Regional variations in bloomery smelting slag of the Iron Age and Romano-British periods, Archaeometry, vol.48, issue.2, pp.271-292, 2006.

I. T. Platzner, Modern Isotope Ratio Mass Spectrometry, vol.514, p.pp, 1997.

R. Pleiner, Iron in Archaeology: the European Bloomery Smelters. Archaeologicky Ustav Aver, 2000.

F. Poitrasson, On the iron isotope homogeneity level of the continental crust, Chem. Geol, vol.235, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00319305

F. Poitrasson and R. Freydier, Heavy iron isotope composition of granites determined by high resolution MC-ICP-MS, Chem. Geol, vol.222, pp.132-147, 2005.
DOI : 10.1016/j.chemgeo.2005.07.005
URL : https://hal.archives-ouvertes.fr/hal-00319301

F. Poitrasson, S. Levasseur, and N. Teutsch, Significance of iron isotope mineral fractionation in pallasites and iron meteorites for the core-mantle differentiation of terrestrial planets, Earth Planet. Sci. Lett, vol.234, pp.151-164, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00319064

F. Poitrasson, M. Roskosz, and A. Corgne, No iron isotope fractionation between molten alloys and silicate melt to 2000 C and 7.7 GPa: experimental evidence and implications for planetary differentiation and accretion, Earth Planet. Sci. Lett, vol.278, pp.376-385, 2009.
DOI : 10.1016/j.epsl.2008.12.025

F. Poitrasson, G. Delpech, and M. Gr-egoire, On the iron isotope heterogeneity of lithospheric mantle xenoliths: implications for mantle metasomatism, the origin of basalts and the iron isotope composition of the Earth, Contribution Mineralogy Petrology, vol.165, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00857612

C. Rico, Le domaine des Forges : au coeur d'une r egion sid erurgique, Le fer romain de la Montagne Noire, Martys 2 : les d ebuts, 25 ann ees de recherches pluridisciplinaires, p.560, 1988.

F. Roger, J. Respaut, M. Brunel, P. Matte, and J. Paquette, Premi ere datation UePb des orthogneiss oeill es de la zone axiale de la Montagne noire (Sud du Massif central) : nouveaux t emoins du magmatisme ordovicien dans la chaîne Varisque, Comptes Rendus Geosci, vol.336, 2004.
DOI : 10.1016/j.crte.2003.10.014

W. Rostoker and B. Bronson, Pre-Industrial Iron: Its Technology and Ethnology, Archaeomaterials Monograph, vol.1, 1990.

O. Rouxel, N. Dobbek, J. N. Ludden, and Y. Fouquet, Iron isotope fractionation during oceanic crust alteration, Chem. Geol, vol.202, pp.155-182, 2003.
DOI : 10.1016/j.chemgeo.2003.08.011

R. Schwab, D. Heger, B. H?-oppner, and E. Pernicka, The provenance of iron artefacts from Manching: a multi-technique approach, Archaeometry, vol.48, pp.433-452, 2006.

J. L. Skulan, B. L. Beard, and C. M. Johnson, Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(III) and hematite, Geochimica Cosmochimica Acta, vol.66, 2002.
DOI : 10.1016/s0016-7037(02)00902-x

G. Steinhoefel, I. Horn, and F. Von-blanckenburg, Micro-scale tracing of Fe and Si isotope signatures in banded iron formation using femtosecond laser ablation, Geochimica Cosmochimica Acta, vol.73, pp.5343-5360, 2009.

G. J. Taylor, K. Keil, T. Mccoy, H. Haack, and E. R. Scott, Asteroid differentiation: pyroclastic volcanism to magma oceans, Meteorit. Planet. Sci, vol.28, pp.34-52, 1993.
DOI : 10.1111/j.1945-5100.1993.tb00247.x

F. Tollon, Le district aurif ere de Salsigne (Aude), La Combe du Saut par Conquessur-Orbiel, Soc. Mines et prod. chim. Salsigne, vol.175, 1969.

R. F. Tylecote, The Prehistory of Metallurgy in the British Isles, 1986.

C. M. Wawryk and J. D. Foden, Fe-isotope fractionation in magmatichydrothermal mineral deposits: a case study from the Renison SneW deposit, Tasmania. Geochimica Cosmochimica Acta, vol.150, pp.285-298, 2015.
DOI : 10.1016/j.gca.2014.09.044
URL : https://digital.library.adelaide.edu.au/dspace/bitstream/2440/92778/2/hdl_92778.pdf

S. A. Welch, B. L. Beard, C. M. Johnson, and P. S. Braterman, Kinetic and equilibrium Fe isotope fractionation between aqueous Fe(II) and Fe(III). Geochimica Cosmochimica Acta 67, pp.4231-4250, 2003.
DOI : 10.1016/s0016-7037(03)00266-7

X. K. Zhu, Y. Guo, R. J. Williams, R. K. O'nions, A. Matthews et al., Mass fractionation processes of transition metal isotopes, Earth Planet. Sci. Lett, pp.47-62, 0200.
DOI : 10.1016/s0012-821x(02)00615-5
URL : http://earth.huji.ac.il/data/pics/ZhuEPSL2002.pdf

F. O-r-m-at-i-o-n-o-f-f-l-u-i-d-i-n-c-l-u-s-i-o-n-s-d-u-r-i-n-g-h-e-at-t-r-e-at-m-e-n-t-o-f-b-a-r-r-e-m-o-b-e-d-o-u-l-i-a-n-f-l-i-n-t:-a-r-c-h-a-e-o-m-e-t-r-i-c-i-m-p-l-i-c-at-i-o-n-s-*,

U. Université-de-toulouse, C. , I. , and G. Environnement,

, CNRS, Travaux et Recherches Archéologiques sur les Cultures les Espaces et les Sociétés, Maison de la Recherche, 5 allées Antonio Machado, F-31058 Toulouse CEDEX, vol.9

. Tübingen,

C. , C. Environnements, . Préhistoire, . Antiquité, and . Moyen-Âge, Nice CEDEX 4, France At the end of the fifth millennium BC, the development of a specialized lithic industry in the Chassey societies of south-eastern France and its dissemination as far as Catalonia and Tuscany attest to important socio-economic changes in the Mediterranean Neolithic societies. The lithic production was made on barremo-bedoulian flint that was heat-treated to improve the sharpness of the tools produced, 24 avenue des Diables Bleus, F-06357, 2012.

R. J. Bakker and J. B. Jansen, Preferential water leakage from fluid inclusions by means of mobile dislocations, Nature, vol.345, pp.58-60, 1990.

D. Binder, Systèmes de débitage laminaire par pression: exemples chasséens provençaux, Préhistoire de la pierre taillée, 2: économie du débitage laminaire: technologie et expérimentation: IIIe table ronde de technologie lithique, pp.71-84, 1982.

D. Binder, Facteurs de variabilité des outillages lithiques chasséens dans le sud-est de la France, Actes du Colloque International de Nemours, pp.261-72, 1989.

D. Binder, Silex blond et complexité des assemblages lithiques dans le Néolithique liguro-provençal, Association pour le développement des connaissances archéologiques, pp.111-139, 1998.

D. Binder and B. Gassin, Le débitage laminaire chasséen après chauffe : technologie et traces d'utilisation, Industries lithiques, tracéologie et technologie, vol.411, pp.93-125, 1988.

D. Binder, C. ;. Perlès, and M. Lechevallier, Stratégies de gestion des outillages lithiques au Néolithique, Paléo, vol.2, pp.257-83, 1990.

P. Bleed, M. , and M. , An objective test of the effects of heat treatment of flakeable stone, American Antiquity, vol.45, pp.502-509, 1980.

R. J. Bodnar, Revised equation and table for determining the freezing point depression of H 2 O-NaCl solutions, Geochimica et Cosmochimica Acta, vol.57, pp.683-687, 1993.

F. Bordes, J. M. Branlund, and A. M. Hofmeister, Factors affecting heat transfer in natural SiO 2 solids, American Mineralogist, vol.66, issue.7, pp.1620-1629, 1969.

K. S. Brown, C. W. Marean, A. I. Herries, Z. Jacobs, C. Tribolo et al., Fire as an engineering tool of early modern humans, vol.325, pp.859-62, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01743202

R. C. Burruss, Raman spectroscopy of fluid inclusions, Fluid inclusions: analysis and interpretation, vol.32, pp.279-89, 2003.

L. Cayeux, Les roches sédimentaires de France: roches siliceuses, vol.1, 1929.

D. E. Crabtree and B. R. Butler, Notes on experiment in flint knapping, 1: heat treatment of silica materials, Tebiwa, vol.7, pp.1-6, 1964.

L. W. Diamond, Systematics of H 2 O inclusions, Fluid inclusions, analysis and interpretation, vol.32, pp.55-79, 2003.

M. Domanski, W. , and J. A. , Effect of heat treatment on siliceous rocks used in prehistoric lithic technology, Journal of Archaeological Science, vol.19, pp.601-615, 1992.

M. Domanski, J. A. Webb, R. Glaisher, J. Gurba, J. Libera et al., Heat treatment of Polish flints, Journal of Archaeological Sciences, vol.36, issue.7, pp.1400-1408, 2009.

M. R. Drury and J. L. Urai, Deformation-related recrystallization processes, Tectonophysics, vol.172, pp.235-53, 1990.

J. J. Flenniken and E. G. Garrison, Thermally altered novaculite and stone tool manufacturing techniques, Journal of Field Archaeology, vol.2, pp.125-156, 1975.

O. W. Flörke, B. Köhler-herbertz, K. Langer, and I. Tönges, Water in microcrystalline quartz of volcanic origin: agates, Contributions to Mineralogy and Petrology, vol.80, issue.4, pp.324-357, 1982.

F. Fröhlich, Les silicates dans l'environnement pélagique de l'océan indien au Cénozoïque, Mémoires du muséum national d'histoire naturelle, vol.XLVI, 1981.

R. H. Goldstein, Petrographic analysis of fluid inclusions, Fluid inclusions: analysis and interpretation, vol.32, pp.9-53, 2003.

H. Graetsch, O. W. Flörke, M. , and G. , The nature of water in chalcedony and opal-C from Brazilian agate geodes, Physics and Chemistry of Minerals, vol.12, issue.5, pp.300-306, 1985.

D. R. Griffiths, C. A. Bergman, C. J. Clayton, K. Ohnuma, and G. V. Robins, Experimental investigation of the heat treatment of flint, in The human uses of flint and chert, proceedings of the Fourth International Flint Symposium Held at Brighton Polytechnic, pp.43-52, 1983.

A. F. Gualtieri and P. Venturelli, In situ study of the goethite-hematite phase transformation by real time synchrotron powder diffraction, American Mineralogist, vol.84, pp.895-904, 1999.

T. R. Hester, Ethnographic evidence for the thermal alteration of siliceous stone, Tebiwa, vol.15, issue.2, pp.145-62, 1972.

K. Horai, Thermal conductivity of rock-forming minerals, Journal of Geophysical Research, vol.76, issue.5, pp.1278-308, 1971.

V. Léa, Centres de production et diffusion des silex bédouliens au Chasséen, Gallia préhistoire, vol.46, pp.231-50, 2004.

V. Léa, Raw, Pre-heated or ready to use: discovering specialist supply systems for flint industries in mid-Neolithic (Chasséen) communities in southern France, Antiquity, vol.79, pp.51-65, 2005.

V. Léa, D. Binder, J. Vaquer, and F. Briois, Le Chasséen méridional à lamelles d'Arnal: évolution de notre perception des industries lithiques, Un siècle de construction du discours scientifique en Préhistoire, vol.3, pp.263-75, 2007.

V. Léa, J. Roque-rosell, L. Torchy, D. Binder, P. Sciau et al., Craft specialization and exchanges during the southern Chassey culture: an integrated archaeological and material sciences approach, Networks in the Neolithic: Exchange of raw materials, products and ideas in the Western Mediterranean, vol.5, pp.119-148, 2012.

M. D. Mandeville, A consideration of the pretreatment of chert, Plains Anthropologist, vol.18, pp.177-202, 1973.

H. Micheelsen, The structure of dark flint from Stevns, Denmark, Meddelesser fra Dansk Geologisk Forening, vol.16, pp.285-368, 1966.

A. Michel-levy and C. P. Munier-chalmas, Mémoire sur les diverses formes affectées par le réseau élémentaire du quartz, vol.1892, pp.159-95

V. Mourre, P. Villa, and C. C. Henshilwood, Early use of pressure flaking on lithic artifacts at Blombos Cave, Science, vol.330, pp.659-62, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02023234

P. Phillips, The middle Neolithic in southern France, 2 vols, British Archaeological Reports, vol.142, 1982.

B. A. Purdy and H. K. Brooks, Thermal alteration of silica minerals: an archeological approach, Science, vol.173, pp.322-327, 1971.

E. Roedder, Fluid inclusions, Reviews in Mineralogy, vol.12, 1984.

J. Roqué-rosell, L. Torchy, C. Roucau, V. Léa, P. Colomban et al., Influence of heat treatment on the physical transformations of flint used by Neolithic societies in the Western Mediterranean, Materials issues in art and archaeology IX, vol.1319, 2011.

D. L. Schindler, J. W. Hatch, C. A. Hay, and R. C. Bradt, Aboriginal thermal alteration of a central Pennsylvania jasper: analytical and behavioral implications, American Antiquity, vol.47, pp.526-570, 1982.

J. Schmatz and J. L. Urai, The interaction of migrating grain boundaries and fluid inclusions in naturally deformed quartz: a case study of a folded and partly recrystallized quartz vein from the Hunsrück Slate, Journal of Structural Geology, vol.33, pp.468-80, 2011.

P. Schmidt, What causes failure (overheating) during lithic heat treatment?, Archaeological and Anthropological Sciences, vol.6, issue.2, pp.107-119, 2014.

P. Schmidt, A. Badou, and F. Fröhlich, Detailed FT near-infrared study of the behaviour of water and hydroxyl in sedimentary length-fast chalcedony, SiO2, upon heat treatment, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, vol.81, issue.1, pp.552-561, 2011.

P. Schmidt, V. Léa, P. Sciau, and F. Fröhlich, Detecting and quantifying heat treatment of flint and other silica rocks: a new non-destructive method applied to heat-treated flint from the Neolithic Chassey culture, southern France, Archaeometry, vol.55, pp.794-805, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01898096

P. Schmidt, A. Slodczyk, V. Léa, A. Davidson, S. Puaud et al., A comparative study of the thermal behavior of length-fast chalcedony, length-slow chalcedony (quartzine) and moganite, Physics and Chemistry of Minerals, vol.40, pp.331-371, 2013.

P. Schmidt, S. Masse, G. Laurent, A. Slodczyk, E. Le-bourhis et al., Crystallographic and structural transformations of sedimentary chalcedony in flint upon heat treatment, Journal of Archaeological Science, vol.39, issue.1, pp.135-179, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01461428

L. Siebenaller, M. Boiron, O. Vanderhaeghe, C. Hibsch, M. Jessell et al., Fluid record of rock exhumation across the brittle-ductile transition during formation of a Metamorphic Core Complex, Journal of Metamorphic Geology, vol.31, pp.313-351, 2013.

S. M. Sterner and R. J. Bodnar, Synthetic fluid inclusions-VII. Re-equilibration of fluid inclusions in quartz during laboratory-simulated metamorphic burial and uplift, Journal of Metamorphic Geology, vol.7, pp.243-60, 1989.

L. Torchy, Heated bladelets management in the southern Chassey culture: use-wear analysis and efficiency test, Communication, International Conference on Use-Wear Analysis, 2012.

J. L. Urai, W. D. Means, and G. S. Lister, Dynamic recrystallization of minerals, in Mineral and rock deformation; laboratory studies-the Paterson volume, pp.161-99, 1986.

W. Wagner, P. , and A. , International equations for the saturation properties of ordinary water substance. Revised according to the international temperature scale of 1990, Addendum to, Journal of Physical and Chemical Reference Data, vol.16, issue.3, pp.783-790, 1987.