Physico-Chemical and Numismatic Study of Moroccan Silver Coins from the Almohad Dynasty (XII to XIII Century)

This study obtains information on the constitution of the coinage alloy and the elements of contamination on the surface of archaeological objects. Thus, this work consists of physico-chemical characterization of old coins by MEB coupled with the EDS of 36 Almohade’s dynasty Islamic coins (XII-XIII century). In addition to the physico-chemical analysis of which the data are treated using tools statistical mathematics with the help of software SPSS, the parts being studied were the subject of a historical and numismatic analysis. The results of this work conclude that these silver coins contain: Ag, C, Cu, Mg, O, Si, Al, Au, Cl, Sr, S, Pb and Fe. The analysis also made it possible to dissociate the elements belonging to the original alloy from those, which are not. So we can say that the elements that come primarily from silver-bearing alloys of origin are Ag, C, Cu, Mg, Au, S, Pb and Fe. The other elements are due to different phenomena (corrosion, contamination etc). Let us recall, finally, that in most cases, we notice that a good amount of numismatic, historical, archaeological and mining data is confirmed by the results of the physico-chemical characterization. The novelty of this work lies in the fact that the results can, among other things, be used for improving the methods and techniques of conservation and restoration of these archaeological objects and their development.

Keywords: Islamic coin, silver, numismatics, archeology, physico-chemical characterization.

https://doi.org/10.55463/issn.1674-2974.49.12.2

LINDNER. Guide d’informations pour tous les numismates. Haguenau, Lindner Falzlos-Gesellschaft, 2018. https://www.lindner-original.fr/layout/lindner_original/pdfs/Anleitung_Muenzensammler_FR_web.pdf

DILLMANN P., & BELLOT L. Circulation des matériaux et des objets dans les sociétés anciennes. Éditions des Archives Contemporaines, Paris, 2014. https://www.academia.edu/9315955/Circulation_des_mat%C3%A9riaux_et_des_objets_dans_les_soci%C3%A9t%C3%A9s_anciennes

NORTHOVER J. P., CHEEL V., SALTER C. J., and TREADWELL L. Medieval Islamic Mint Technology – A Metallographic Study. Microscopy and Microanalysis, 2007, 13(2): 118-119. https://doi.org/10.1017/S1431927607073254

MAZARD J. Corpus nummorum Numidie Maurétanieque. Arts et Metiers Graphiques, Paris, 1955.

ADRAR (MAURITANIE). Wikipedia, 2020. http://fr.wikipedia.org/wiki/Adrar_(Mauritanie)

BEL A. Contribution à l’étude des dirhems de l’époque almohade. Larose, Paris, 1933. http://www.sudoc.abes.fr/cbs/xslt/DB=2.1//SRCH?IKT=12&TRM=189087080&COOKIE=U10178,Klecteurweb,D2.1,E6391a6a1-14,I250,B341720009+,SY,QDEF,A%5C9008+1,,J,H2-26,,29,,34,,39,,44,,49-50,,53-78,,80-87,NLECTEUR+PSI,R85.174.28.40,FN

COIN ARCHIVES. https://www.coinarchives.com/e95eb269db55dcf0370466face314cfe/img/aureo/388/image02511.jpg

BLET-LEMARQUAND M., GRATUZE B., and BARRANDON J.-N. L’analyse élémentaire des monnaies: adéquation entre les problématiques envisagées, les alliages étudiés et les méthodes utilisées. Éditions du Zèbre, Prahins, 2014.

INGELBRECHT C., ADRIAENS A., and MAIER E. A. The certification of arsenic, lead, tin and zinc (mass fractions) in five copper alloys, reference materials BCR-691, EUR 19778/1 EN. European Commission, Brussels, 2001. https://op.europa.eu/en/publication-detail/-/publication/179841ea-66e2-4e5d-9e97-8e3ebc7e9cc8

FLAMENT C., & MARCHETTI P. Analysis of ancient silver coins. Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms, 2004, 226(1): 179-184. http://dx.doi.org/10.1016/j.nimb.2004.03.078

DE LAGARDE J. Initiation à l’analyse des données (3° édition). Dunod, Paris, 1995.

SCHIESSER P. Résumé de la conférence d’Amel Teboulbi sur les imitations des dirhams carrés almohades. L’apport des analyses élémentaires. Bulletin Numismatique, 2009, 63: 2. https://www.bulletin-numismatique.fr/bn/pdf/bn063.pdf

CHARLET C. La foire internationale de Beaucaire au XVIIe siècle (1610-1715) et ses monnaies : les vraies, les fausses et celles de nécessité. Bulletin de la Société française de Numismatique, 2019, 74(6): 204 213.

PERSON K. On lines and planes of closest fit to systems of points in space. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 1901, 2(11) : 559-572. https://www.semanticscholar.org/paper/LIII.-On-lines-and-planes-of-closest-fit-to-systems-F.R.S./cac33f91e59f0a137b46176d74cee55c7010c3f8

BLANCHET G., GUILLAUME S., and CHAMEROY J. La composition élémentaire des monnaies d’argent des Ve et VIe siecles. L’exemple de découvertes de Normandie et de la ville de la vallée du Rhin. Hyper Articles en Ligne, 2020. https://hal.science/hal-02892867

CHRISTOPHER D. S., MERKE S. W., HSIEH Y. T., and KERSHAW J. Simultaneous lead isotope ratio and gold-lead-bismuth concentration analysis of silver by laser ablation MC-ICP-MS. Journal of Archaeological Science, 2021, 125: 105299. https://doi.org/10.1016/j.jas.2020.105299

MERKEL S. W. Evidence for the widespread use of dry silver ore in the Early Islamic period and its implications for the history of silver metallurgy. Journal of Archaeological Science, 2021, 135: 105478. https://doi.org/10.1016/j.jas.2021.105478

KERSHAW J., & S. W. MERKEL. Silver recycling in the Viking Age: Theoretical and analytical approaches. John Wiley & Sons, Hoboken, 2021.

HADDOU T. Etude de nouvelles possibilités d’analyse offertes par les protons de moyennes et basses énergies. Application à la caractérisation des archéomatériaux. Doctoral thesis, University of Blaise Pascal, 1994. http://www.sudoc.abes.fr/cbs/xslt/DB=2.1//SRCH?IKT=12&TRM=043921515

ARLES A. Entre monnayage officiel et faux-monnayage. La fabrication de la monnaie au marteau en France (XIIIe – XVIIe siècles). Approche physico-chimique, expérimentale et historique. Doctoral thesis, Université d’Orléans, 2009. https://theses.hal.science/tel-00418642

BLET-LEMARQUAND M. Premières frappes locales de l’inde du nord-ouest: l’apport des analyses élémentaires. Cahiers de Studia Iranica, 2009, 42: 27-38. https://www.academia.edu/6042015/Blet_Lemarquand_M_Premi%C3%A8res_frappes_locales_de_l_Inde_du_Nord_ouest_l_apport_des_analyses_%C3%A9l%C3%A9mentaires

BECK L., ALLOIN E., BERTHIER C., REVEILLON S., and COSTA V. Silver surface enrichment controlled by simultaneous RBS for reliable PIXE analysis of ancient coins. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2008, 266(10): 2320-2324. https://doi.org/10.1016/j.nimb.2008.03.084

AL-HAKIM A. A.-H. A. B. Y. Doha Confused with the Controls of Dar Al-Sikka. Journal of the Egyptian Institute of Islamic Studies in Madrid, 1958, VI(1-2).

MESSIER R. A. The Almoravids: west African gold and the gold currency of the mediterranean basin. Journal of Economic and Social History of the Orient, 1974, XVII: 31-47. https://doi.org/10.1163/156852074X00020

TEBOULBI A., BOMPAIRE M., and BLET-LEMARQUAND M. Imitations des dirhams carrés almohades. Apport des analyses élémentaires. Proceedings of the XIVth International Numismatic Congress, Glasgow, 2009, pp. 1884–1892. https://www.academia.edu/6041320/Teboulbi_A_Bompaire_M_Blet_Lemarquand_M_Imitations_des_dirhems_carr%C3%A9s_almohades_Apport_des_analyses_%C3%A9l%C3%A9mentaires

GONDONNEAU A., & GUERRA M. F. The circulation of precious metals in the Arab Empire: The case of the Near and the Middle East. Archaeometry, 2002, 44: 573-599.

MEYER M. A., & DEMORTIER, G. Nonvacuum analyses of silver coins (9th to15th century A.D.). Nuclear Instruments and Methods in Physics Research, 1990, 49(1-4): 300-304. https://doi.org/10.1016/0168-583X(90)90264-U

WIDEMANN F. Analyse par activation neutronique, séminaire en archéométrie et valorisation du patrimoine. Cnesten, Rabat, 2010.