References
- 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 ancien 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., Wesełucha-Birczyńska, 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 low-temperature 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.