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The authors present the history of chrysoprase discovery and the progress of knowledge about this material over the millennia, based on the extended review of world literature. Tracing the oldest archaeological artifacts from before 9,000 years, the lens of history turns on a stone that has not been properly identified mineralogically for centuries. In the 1830s, chrysoprase was finally included into the chalcedony group and its green color was associated, very correctly, with nickel compounds dispersed in its structure. After all, the most current mineralogy of chrysoprase is presented on the basis of the results of modern analytical studies. These data clearly indicate that chrysoprase is a mixture of several SiO2 polymorphs with varying degrees of structural order (opal, chalcedony, moganite, quartz). This radically changes the previous taxonomy of chrysoprase and its position in current mineralogical and petrographic systematics.
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1--10
Opis fizyczny
Bibliogr. 72 poz., rys., foto
Twórcy
autor
- Higher School of Handicraft and Management, 21 Saint Matthias Square, 50-244 Wrocław, Poland
autor
- Higher School of Handicraft and Management, 21 Saint Matthias Square, 50-244 Wrocław, Poland
autor
- AGH University of Science and Technology, Department of Mineralogy, Petrography and Geochemistry, Al. Mickiewicza 30, 30-059 Krakow, Poland
Bibliografia
- Aston, B. G., Harrell, J. A., & Shaw, I. (2000). Stone. In P.T. Nicholson & I. Shaw (Eds.), Ancient Egyptian Materials and Technology, 5-77. Cambridge University Press.
- Barsanov, G. P, & Yakovleva, M. E. (1984). Mineralogy of ornamental and semi-precious varieties of fine-grained silica [Минералогия поделочных и полудрагоценных разновидностей тонкозернистого кремнезема].Moscow: Science [in Russian].
- Biscione, R., Bulgarelli, G. M., Costantini, L., Piperno, M., & Tosi, M. (1974). Archaeological Discoveries and Methodological Problems in the Excavations of Shahr-i Sokhta, Sistan. In J.E. van Lohuizen-de Leeuw & J.M.M. Ubaghs (Eds.), South Asian Archaeology, 12-52. Leiden.
- Bouquillon, A., & Poirot, J.-P. (1995). Les minéraux et leur origine. In F. Tallon (Ed.), Les Pierres précieuses de l’Orient ancient des Sumériens aux Sassanides. Paris: RMN.
- Broda, K., Natkaniec-Nowak, L., Rak, Z., Stasica, J., Heflik, W., Mościcki, J., Peña, M., Muñoz, R., & George, C. (2022). Dominican larimar mining – current state and future prospects. Minerals, 12(2), 181. https://doi.org/10.3390/min12020181.
- Čermakova, Z., Hradil, D., Bezdička, P., & Hradilova, J. (2017). New data on “kerolite-pimelite” series and the colouring agent of Szklary chrysoprase, Poland. Physics and Chemistry of Minerals, 44, 193-202.
- Chakrabarti, D.K. (2009). India – An Archaeological History: Palaeolithic Beginnings to Early Historic Foundations. Oxford University Press. https://doi.org/10.1093/acprof:oso/9780198064121.001.0001.
- Charpentier, V., Brunet, O., Méry, S., & Velde, C. (2017). Carnelian, agate, and other types of chalcedony: the prehistory of Jebel al-Ma’taradh and its semiprecious stones. Emirate of Ra’s al-Khaimah. Arabian Archaeology and Epigraphy, 28(2), 175-189.
- Chudzik, P. (2016). Secrets of Egyptian tombs. Wroclaw: University of Wroclaw [in Polish].
- Dumańska-Słowik, M., Natkaniec-Nowak, L., Kotarba, M., Sikorska, M., Rzymełka, J.A., Łoboda, A., & Gaweł, A. (2008). Mineralogical and geochemical characterization of the “bitumineous” agates from Nowy Kościół (Lower Silesia, Poland). Neues Jahrbuch für Mineralogie – Abhandlungen, 184(3), 255-268.
- Dumańska-Słowik, M., Natkaniec-Nowak, L., WesełuchaBirczyńska, A., Gaweł, A., Lankosz, M., & Wróbel, P. (2013). Agates from Sidi Rahal, in the Atlas Mountains of Morocco: Gemological Characteristics and Proposed Origin. Gems & Gemology, 49(3), 148-159.
- Eichholz, D. E. (1962). Pliny: Natural History 36,37. London, Cambridge: Oxford University Press.
- Evangelista, P., Graziani, G., Martini, M., & Rettighieri, M. (1992). Antique Roman Gemstones. Zeitschrift Deutsche Gemmologische Gesellschaft, 41(4), 147-148.
- Finkbeiner, U. (1991). Uruk. Kampagne 35-37, 1982-1984. Mainz a.R.: Philipp von Zabern.
- Flörke, O. W., Flörke, U., & Giese, U. (1984). Moganite, a new microcrystalline silica mineral. Neues Jahrbuch für Mineralogie – Abhandlungen, 149, 325-336.
- Gaweł, A., Olkiewicz, S., & Żabiński, W. (1997). XRD and IR spectroscopic investigation of some chrysoprases. Mineralogia Polonica, 28(1), 43-51.
- Girulski, R., & Sachanbiński, M. (2018). Gemmological examination of gemstones from crown and clasp. Research report and development of results. In J. Witecki (Ed.), The Średzki treasure. Thirty years of discovery, 251-303. Wroclaw: National Museum [in Polish].
- Gliozzo, E. (2019). Variations on the silica theme: Classification and provenance from Pliny to current supplies. Contribution of Mineralogy to Cultural Heritage, 20, 13-86. https://doi.org/10.1180/EMU-notes.20.2.
- Götze, J., Nasdala, L., Kleeberg, R., & Wenzel, M. (1998). Occurrence and distribution of „moganite” in agate/chalcedony: a combined micro-Raman, Rietveld, and cathodoluminescence study. Contributions to Mineralogy and Petrology, 133, 96-105.
- Graetsch, H., Topalovic, I., & Gies, H. (1994). NMR spectra of moganite and chalcedony. European Journal of Mineralogy, 6, 459-464.
- Graetsch, H. (2011). Microstructure and origin of colour of chrysoprase from Haneti (Tanzania). Neues Jahrbuch für Mineralogie – Abhandlungen, 188(2), 111-117.
- Hänni, H. A., Brunk, R., & Franz, L. (2021). An investigation of grinding hardness of some ornamental stones. Journal of Gemmology, 37(6), 632–643. https://doi.org/10.15506/JoG.2021.37.6.632.
- Harrell, J. A. (2011). Old Testament Gemstones [...]. Bulletin for Biblical Research, 21(2), 156.
- Harrell, J. A. (2012). Gemstones. In UCLA Encyclopedia of Egyptology, 1-4. Los Angeles.
- Hatipoğlu, M., Ören, U., & Kibici, Y. (2011). Micro-Raman spectroscopy of gem-quality chrysoprase from the Biga-Çanakkale Region of Turkey. Journal of African Earth Sciences, 61(4), 273-285.
- Hatipoğlu, M., & İlbeyli, N. (2015). Oxygen isotopic comparisons of the microcrystalline silica; In the case of different chrysoprases in Turkey. Proceedings: The International Conference on Energy, Environment and Materials Science (EEMS 2015). Agios Nikolaos, Greece, 110-123.
- Heflik, W., Kwiecińska, B., & Natkaniec-Nowak, L. (1989). Colour of chrysoprase in the light of mineralogical studies. Australian Gemologist, 17(2), 43-46, 58-59.
- Heflik, W., Mrozek, A., Natkaniec-Nowak, L., & Szczepanowicz, B. (2005). Atlas of biblical precious and ornamental stones. Origin, place in the Bible and symbolism. Krakow: WAM [in Polish].
- Henn, U., & Milisenda, C. C. (1997). „Zitronen-Chrysopras“ aus Australien. Zeitschrift der Deutschen Gemmologischen Gesellschaft, 46(1), 45-47.
- Hieronymus Stridonensis, S. (1884). Commentaria in Ezechielem. PL 25:255A.
- Jiang, Y., & Guo, Y. (2021). Genesis and influencing factors of the colour of chrysoprase. Scientific Reports, 11(1), 9939. https://doi.org/10.1038/s41598-021-89406-x.
- Jiang, Y., Guo, Y., Zhou, Y., Li, X., & Liu, S. (2021). The Effects of Munsell Neutral Grey Backgrounds on the Colour of Chrysoprase and the Application of AP Clustering to Chrysoprase Colour Grading. Minerals, 11(10), 1092. https://doi.org/10.3390/min11101092.
- Kenoyer, J. M. (2017). Stone Beads of the Indus Tradition: New Perspectives on Harappan Bead Typology, Technology and Documentation. In A.K. Kanungo (Ed.), Stone Beads of South and Southeast Asia. Archaeology, Ethnography and Global Connections, 151-166. Gandhinagar, New Delhi: Indian Institute of Technology, Aryan BI.
- Kinnunen, K. A., & Malisa, E. J. (1990). Gem-quality chrysoprase from Haneti-Itiso area, central Tanzania. Bulletin of the Geological Society of Finland, 62(2), 157-166.
- Kobielus, S. (2012). Lapidarium christianum. Tyniec: Ed. Benedictine Pub. House.
- Kozłowski, A., & Sachanbiński, M. (1984). Remarks of genesis of Polish chrysoprase as indicated by fluid inclusion studies. In Fluid Inclusion Research – Proceedings of COFFI, 402-404. Ann. Arbor: Michigan University Press.
- Külb, P. H. (1856). Plinius Secundus: Naturgeschichte. Stuttgart: Ossiander u. Schwab.
- Lehmann, J. G. (1761). Versuch einer kurzen Geschichte des Chrysoprases von Kosemütz in Schlesien. In Physikalisch-chymische Schriften als eine Fortsetzung der Probier-Kunst, 106-126. Berlin: Arnold Wever.
- Manutchehr-Danai, M. (2009). Breastplate of the Jewish High Priest. In Dictionary of Gems and Gemology, 147. Berlin, Heidelberg: Springer. https://doi.org/10.1007/978-3-540-72816-0_2897.
- Meinecke, J. L. G. (1805). Ueber den Chrysopras und die denselben begleitenden Fossilien in Schlesien. Ein mineralogischen Versuch. Erlangen: Johann Jacob Palm.
- Miehe, G., & Graetsch, H. (1992). Crystal structure of moganite: a new structure type of silica. European Journal of Mineralogy, 4, 693-706.
- Miljević, N. (1994). Hydrogen and oxygen isotope ratios in crysoprase and prasopal. Bull. T. CVIII de l’Académie Serbe des Sciences et des Arts. Classe des Sciences Mathématiques et Naturelles Sciences, 35.
- Moorey, P. R. S. (1999). Ancient Mesopotamian Materials and Industries. Winona Lake: Eisenbrauns.
- Mottana, A., & Napolitano, M. (1997). Il libro „Sulle pietre” di Teofrasto. Prima traduzione italiana con un vocabolario dei termini mineralogici. Rendiconti Fisiche Acc. Lincei, 9(8), 151-234.
- Moxon, T., & Rīos, S. (2004). Moganite and water content as a function of age in agate: an XRD and thermogravimetric study. European Journal of Mineralogy, 16, 269-278.
- Murata, K. J., & Norman, M. B. (1976). An index of crystallinity for quartz. American Journal of Science, 276, 1120-1130.
- Nagase, T., Akizuki, M., Onoda, M., & Sato, M. (1997). Chrysoprase from Warrawanda, West. Australia. Neues Jahrbuch für Mineralogie – Abhandlungen, 7, 289-300.
- Natkaniec-Nowak, L., Heflik, W., Sobczak, N., & Sobczak, T. (1989). Ein Beitrag zur Farbe niederschlesischen Chrysoprase. Zeitschrift der Deutschen Gemmologischen Gesellschaft, 38(1), 31-36.
- Natkaniec-Nowak, L., Dumańska-Słowik, M., Pršek, J., Lankosz, M., Wróbel, P., Gaweł, A., Kowalczyk, J., & Kocemba, J. (2016). Agates from Kerrouchen (the Atlas Mountains, Morocco): Textural Types and Their Gemmological Characteristics. Minerals, 6(3), 77. https://doi.org/10.3390/min6030077.
- Natkaniec-Nowak, L., Dumańska-Słowik, M., Gaweł, A., Łatkiewicz, A., Kowalczyk-Szpyt, J., Wolska, A., Milovská, S., Luptáková, J., & Ładoń, K. (2020). Fireagate from Deer Creek deposit (Arizona, USA) – a new insights into structure and mineralogy. Mineralogical Magazine, 8(84), 343-354.
- Origlieri, M. (1994). Moganite: a New Mineral -- Not! Lithosphere. Aug. 2007.
- Ostrowicki, B. (1965). Nickel minerals in the serpentinite weathering zone in Szklary (Lower Silesia). Krakow: Mineralogical Papers of the Committee of Mineralogical Sciences, Polish Academy of Sciences [in Polish].
- Plusnina, I. I, & Szpila, K. (1990). Genetic series lowtemperature mineral forms of silica from Szklary (Lower Silesia). Mineralogical Archive, 45(1-2), 33-56 [in Polish].
- Possehl, G. L. (2002). The Indus Civilization: A Contemporary Perspective. Lanham: Rowman.
- Přichystal, A. (2013). Lithic raw materials in Prehistoric Times of Eastern Central Europe. Brno: Masaryk University Press.
- Pruthi, R. K. (2004). Indus Civilization (Culture and civilization series). New Delhi: District Publication House.
- Rao, S. R. (1991). Dawn and devolution of the Indus civilization. Aditya Prakashan.
- Rapp, G. R. (2002). Archaeomineralogy. Berlin, Heidelberg, New York: Springer-Verlag.
- Sachanbiński, M. (1980). Mineralogy of chrysoprases from deposits of Lower Silesia. In S.S. Savkevich (Ed.), Gem minerals. Proceedings: 11 Gemological Meeting of IMA, Novosibirsk 4-10.09.1978; 128-140. Leningrad: Science [in Russian].
- Sachanbiński, M. (1985). Chrysoprase. Mineralogia Polonica, 16(1), 117-130 [in Polish].
- Sachanbinski, M., Janeczek, J., Platonov, A., & Rietmeijer, F. J. M. (2001). The origin of colour of chrysoprase from Szklary (Poland) and Sarykul Boldy (Kazakhstan). Neues Jahrbuch für Mineralogie – Abhandlungen, 177(1), 61-76.
- Schönauer, S. (1996). Untersuchungen zum Steinkatalog des Sophrosyne-Gedichts von Meliteniote mit kritischer Edition der Verse 1107-1247 (Meletemata, 6). Wiesbaden.
- Shigley, J. E., Laurs, B. M., & Renfro, N. D. (2009). Chrysoprase and prase opal from Haneti, central Tanzania. Gems & Gemology, 45, 271-279.
- Singh, U. (2008). A history of ancient and early medieval India: from the Stone Age to the 12th century. Upinder Singh. Delhi: Pearson. New Delhi; Upper Saddle River, NJ: Pearson Education.
- Skrzypek, G., Sachanbiński, M., & Jędrysek, M. O. (2003). Oxygen isotope evidence for low temperature formation of chrysoprase. Polish Mineralogical Society, Special Papers, 22, 204-206.
- Sojka, Z., Witkowski, S., Żabiński, W., Dyrek, K., & Bidzińska, E. (2004). TPR, EPR and UV-Vis studies of Ni (II) speciation in chrysoprase. Neues Jahrbuch für Mineralogie – Abhandlungen, 1, 11-25.
- Souvay, C. L. (1913). Precious Stones in the Bible. The Catholic Encyclopedia. New York: Appleton.
- Stawicki, S. (1987). Theban papyri. An ancient source of knowledge about artistic techniques. In Source Texts for the History of Art Theory, 16-18; 109; 126; 256. Wroclaw: Ossolineum [in Polish].
- Streeter, E. W. (1898). Precious stones and gems, their history, sources and characteristics. London: Bell & Sons.
- Śliwa, J. (2003). Egyptian Scarabs. Wrocław: Ossolineum [in Polish].
- Vasconcelos, P. M., & Singh, B. (1996). The crystal chemistry and genesis of chrysoprase. In Mesozoic Geology of the Eastern Australian Plate Conference, 545. Geological Society of Australia. Abstracts, No. 43.
- Witkowski, S., & Żabiński, W. (2004). Application of the TPR method for the studies of the Ni(II) in Chrysoprase. Journal of Thermal Analysis and Calorimetry, 77, 143-148.
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Bibliografia
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