Timeline of the discovery and classification of minerals

The chemical elements were discovered in identified minerals and with the help of the identified elements the mineral crystal structure could be described. Georgius Agricola is considered the 'father of mineralogy'. One milestone was the discovery of the geometrical law of crystallization by René Just Haüy, a further development of the work by Nicolas Steno and Jean-Baptiste L. Romé de l'Isle (the characterisation of a crystalline mineral needs knowledge on crystallography). Other milestones were the notion that metals are elements too (Antoine Lavoisier) and the periodic table of the elements by Dmitri Ivanovich Mendeleev. The overview of the organic bonds by Kekulé was necessary to understand the silicates, first refinements described by Bragg and Machatschki; and it was only possibly to understand a crystal structure with Dalton's atomic theory and Goldschmidt's explanations. Specific gravity, streak (streak color and mineral hardness) and X-ray powder diffraction are quite specific for a Nickel-Strunz identifier (9 ed./10 ed.). Nowadays, non-destructive electron microprobe analysis is used to get the empirical formula of a mineral. Finally, the International Zeolite Association (IZA) took care of the zeolite frameworks (part of molecular sieves and/or molecular cages).

There are only a few thousand mineral species and 83 geochemically stable chemical elements combine to form them.[1] The mineral evolution in the geologic time context were discussed and summarised by A. G. Zhabin (and subsequent Russian workers), Robert M. Hazen, William A. Deer, Robert A. Howie and Jack Zussman.

Milestones

Prehistoric Period / Before Theophrastus (4 c. BC)

Pallasite (olivine crystals of peridot quality in an iron-nickel matrix), Brahin (meteorite)
Olive green peridot (syn. chrysolite)
Nephrite dish - House of Fabergé (1890s)

Before Agricola (c. 1500)

After Agricola (c. 1500)

Front page of De re metallica libri XII

After Haüy's Traité de Minéralogy (1801)

René Just Haüy: Traité de Minéralogie - Tome cinquième (1801)

After the World War I Gap (1916)

Prototype of the electron microprobe of Castaing, built by ONERA and duplicated by 'Cameca Science & Metrology Solutions' as MS85

International Mineralogical Association Era (after 1958)

Iowaite (IMA1967-002). Size: 1.4 cm x 0.9 cm x 0.2 cm. Locality: Palabora mine, Loolekop, Phalaborwa, Limpopo Province, South Africa.

IMA Master List of Valid Minerals Era (after 2001)

Wikipedia

Beginnings of the 'IMA Master List of Minerals'

Mineral names

Minerals named in honour of the above notable people and organizations.
  • Agricolaite (5.ED.50), anthonyite (3.DA.40), avicennite (4.CB.10), avogadrite (3.CA.10), berzelianite (2.BA.20), berzeliite (8.AC.25), beudantite (8.BL.05), bideauxite (3.DB.25), bobdownsite (8.AC.45), braggite (2.CC.35a), brandtite (8.CG.10), breithauptite (2.CC.05), brewsterite series (9.GE.20), carlhintzeite (3.CB.45), castaingite (discredited 1967: a mixture of cuprian molybdenite and gerhardtite), cronstedtite (9.ED.15), danalite (9.FB.10), davyne (9.FB.05), deerite (9.DH.60), ernienickelite (4.FL.20), ferraioloite (IMA2015-066), fleischerite (7.DF.25), gadolinite (9.AJ.20), grothite (titanite var., 9.AG.15), haidingerite (8.CJ.20), hausmannite (4.BB.10), hazenite (8.CH.40), haüyne (9.FB.10), heyite (identical with calderonite, 8.BG.05), howieite (9.DH.65), lavoisierite (IMA2012-009), laueite (8.DC.30), leakeite amphibole root name (9.DE.05), machatschkiite (8.CJ.35), mandarinoite (4.JH.15), mendeleevite-(Ce) (IMA2009-092), menzerite-(Y) (IMA2009-050), moëloite (2.HC.25), mohsite (crichtonite var., 4.CC.40), obertiite amphibole root name (9.DE.25), paulingite homologous series (9.GC.35), paulscherrerite (4.GA.05), perroudite (2.FC.20c), ramanite homologous series (6.EA.10), rammelsbergite (2.EB.15a), roeblingite (9.CB.05), roselite (8.CG.10), rosenbuschite (9.BE.22), rruffite (8.CG.10), scheelite (7.GA.05), schoenfliesite (4.FC.10), scottyite (IMA2012-027), sorbyite (2.LB.30), stenonite (3.CG.05), strunzite (8.DC.25), theophrastite (4.FE.05), valentinite (4.CB.55), wernerite (intermediate member of the marialite-meionite series), zussmanite (9.EG.35).

Handbooks on mineralogy/ petrology

The System of Mineralogy of James D. Dana

Glossary of Mineral Species

Strunz Mineralogical Tables

Rock-Forming Minerals series

Carl Friedrich Rammelsberg series

Carl Hintze

Handbook for chemists and physicists (D’Ans Lax)

Max H. Hey

See also

References

  1. 1 2 Hazen, R. M., Papineau, D., Bleeker, W., Downs, R. T., Ferry, J. M., McCoy, T. J. et al. (2008). "Mineral evolution". American Mineralogist. 93 (11-12): 1693–1720. doi:10.2138/am.2008.2955.
  2. A Sample Analysis of British Middle and Late Bronze Age Material, using Optical Spectrometry. pp. 193–197.
  3. Mineralienatlas - Stibnit
  4. Googlebooks - Theophrastus On Stones
  5. "Ingredients of a 2,000-y-old medicine revealed by chemical, mineralogical, and botanical investigations". PNAS. January 7, 2013. Retrieved February 5, 2013.
  6. Mineralienatlas - Calcite
  7. Mineralienatlas - Beryl
  8. Ruslan I. Kostov (2008). "Orphic Lithica as a Source of Late Antiquity Mineralogical Knowledge". Geology and Geophysics. 51.
  9. 1 2 3 4 Peridot from St. John's / Zabargad Island
  10. Verzeichnis der im deutschen Sprachraum erschienenen Drucke des 17. Jahrhunderts
  11. Mindat.org - Valentinite
  12. Verzeichnis der im deutschen Sprachraum erschienenen Drucke des 17. Jahrhunderts
  13. Conrad Gesner (1565). De omni rerum fossilium genere, gemmis, lapidibus, metallis, et huiusmodi, libri aliquot, plerique nunc primum editi (PDF).
  14. Elias Altschul: Real Lexicon für Homöopathische Arzneimittellehre, Therapie u. Arznei-Bereitungskunde (S. 225, 226)
  15. archive.org - Full text of Notes and Queries (1874)
  16. Avogadro, Amedeo (1811). "Essai d'une maniere de determiner les masses relatives des molecules elementaires des corps, et les proportions selon lesquelles elles entrent dans ces combinaisons". Journal de Physique. 73: 58–76. English translation.
  17. Mindat.org - Aeschynite-(Y)
  18. Roebling Award
  19. Menzerite-(Y)
  20. Aspects of the history of the International Union of Crystallography
  21. Castaing, Raimond (1952) [Submitted 1951]. Application des sondes électroniques à une méthode d'analyse ponctuelle chimique et cristallographique: publication ONERA (Office national d'études et de recherches aéronautiques/ Institute for Aeronautical Research) N. 55 (PhD Thesis). University of Paris.
  22. Jean Philibert (2001). "Keynote Address: The Time of Pioneers" (PDF). Microscopy and Microanalysis. 7 (2): 94–99. doi:10.1007/s100050010083.
  23. Claude Conty (2001). "Today's and Tomorrow's Instruments" (PDF). Microscopy and Microanalysis. 7 (2): 142–149. doi:10.1007/s100050010077.
  24. International Mineralogical Association (IMA)
  25. The Chip that Jack Built, (c. 2008), (HTML), Texas Instruments, Retrieved 29 May 2008.
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  27. Athena
  28. Mindat's 15th Birthday and a present for everyone
  29. Coombs, Douglas S.; Alberti, Alberto; Armbruster, Thomas; Artioli, Gilberto; Colella, Carmine; Galli, Ermanno; Grice, Joel D.; Liebau, Friedrich; Mandarino, Joseph A.; Minato, Hideo; Nickel, Ernest H.; Passaglia, Elio; Peacor, Donald R.; Quartieri, Simona; Rinaldi, Romano; Ross, Malcolm; Sheppard, Richard A.; Tillmanns, Ekkehart; Vezzalini, Giovanna (1997). "Recommended Nomenclature for Zeolite Minerals: Report of the Subcomittee on Zeolites of the International Mineralogical Association, Commission on New Minerals and Mineral Names". The Canadian Mineralogist. 35: 1571–1606.
  30. Mineralienatlas
  31. Leake, Bernard E. (November 1978). "Nomenclature of amphiboles". The Canadian Mineralogist. 16: 501–520.
  32. Bernard E. Leake; Alan R. Woolley; Charles E. S. Arps; William D. Birch; M. Charles Gilbert; Joel D. Grice; Frank C. Hawthorne; Akira Kato; Hanan J. Kisch; Vladimir G. Krivovichev; Kees Linthout; Jo Laird; Joseph A. Mandarino; Walter V. Maresch; Ernest H. Nickel; Nicholas M. S. Rock; John C. Schumacher; David C. Smith; Nick C. N. Stephenson; Luciano Ungaretti; Eric J. W. Whittaker & Guo Youzhi (February 1997). "Nomenclature of amphiboles: Report of the subcommittee on amphiboles of the International Mineralogical Association, commission on new minerals and mineral names". The Canadian Mineralogist. 35: 219–246.
  33. Bernard E. Leake; Alan R. Woolley; William D. Birch; Ernst A.J. Burke; Giovanni Ferraris; Joel D. Grice; Frank C. Hawthorne; Hanan J. Kisch; Vladimir G. Krivovichev; John C. Schumacher; Nicholas C.N. Stephenson & Eric J.W. Whittaker (2004). "Nomenclature of amphiboles: additions and revisions to the International Mineralogical Association's amphibole nomenclature". American Mineralogist. 89 (5-6): 883–887.
  34. Hawthorne, Frank C.; Oberti, Roberta (2006). "On the classification of amphiboles". Canadian Mineralogist. 44: 1–21. doi:10.2113/gscanmin.44.1.1.
  35. Hawthorne, Frank C.; Oberti, Roberta (October 2007). "Classification of the Amphiboles". Reviews in Mineralogy and Geochemistry. 67 (1): 55–88. doi:10.2138/rmg.2007.67.2.
  36. 1 2 Frank C. Hawthorne, Roberta Oberti, George E. Harlow, Walter V. Maresch, Robert F. Martin, John C. Schumacher, Mark D. Welch (2012). "Nomenclature of the amphibole supergroup". American Mineralogist. 97: 2031–2048. doi:10.2138/am.2012.4276.
  37. Downs, Robert T. (2006) The RRUFF Project: an integrated study of the chemistry, crystallography, Raman and infrared spectroscopy of minerals. Program and Abstracts of the 19th General Meeting of the International Mineralogical Association in Kobe, Japan. Poster: O03-13
  38. Ruff Project
  39. "Minutes of the Second Business Meeting: 19th General Meeting of IMA, Kobe, Japan" (PDF). 27 July 2006. Retrieved 16 October 2013.
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  43. IMA Master List (2009-03)
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  52. de Fourestier, Jeffrey (2002). "The Naming of Mineral Species Approved by the Commission on New Minerals and Mineral Names of the International Mineralogical Association: A Brief History". The Canadian Mineralogist. 40: 1721–1735. doi:10.2113/gscanmin.40.6.1721.
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