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Simple steps for the detection and classification of different lamprophyric rocks: a case study from Greece

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Języki publikacji
EN
Abstrakty
EN
This study aims to help non-expert geologists in locacating, classifying and analyzing lamprophyres, the exotic and complex rocks. The process includes three basic steps, a macroscopic study of the formation, petrographic microscopy and lastly whole-rock and trace element analyses of the samples. Fourteen Greek lamprophyric rocks with distinct characteristics were used. Conventional lamprophyres were considered along with rarer alkali minettes, meta-lamprophyres, lamproschists, appinites and para-lamproites.
Czasopismo
Rocznik
Strony
1--9
Opis fizyczny
Bibliogr. 33 poz., tab., rys., wykr., fot.
Twórcy
  • Consultant Geologist’s office, Greek Ministry of Defence, 227 Mesogion av., Athens, Greece
  • Sobolev Institute of Geology and Mineralogy and Novosibirsk State University, Novosibirsk, Russia
Bibliografia
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  • Djiba, A. (2018). Porphyrische Cu-Mo-Au-Re und epithermale Au-Ag-Te Vererzungen der Insel Limnos, nordöstliche Ägäis, Griechenland: Mineralogie-Mineralchemie der hydrothermalen Alterationen und damit verbundene Vererzungen. Doctoral dissertation, Universität Hamburg, Germany.
  • Foley, S., Venturelli, G., Green, D. H., & Toscani, L. (1987). The ultrapotassic rocks: characteristics, classification, and constraints for petrogenetic models. Earth-Science Reviews, 24(2), 81-134.
  • Georgiades, A. N. (1938). La Kersantite du Couvent de St. Gregoire, dans le Mont Athos. Praktika Akademias Athenon, 13, 487-491.
  • Gill, R. (2011). Igneous rocks and processes: a practical guide. Oxford: John Wiley & Sons.
  • Hastie, A. R., Kerr, A. C., Pearce, J. A., & Mitchell, S. F. (2007). Classification of altered volcanic island arc rocks using immobile trace elements: development of the Th-Co discrimination diagram. Journal of Petrology, 48(12), 2341-2357. DOI:10.1093/petrology/egm062
  • Kamvisis, I.-N. (2010). Occurrences of lamprophyric rocks in Greece. Neues Jahrbuch fur Mineralogie Abhandlungen 187(2), 225-234. DOI: 10.1127/0077-7757/2010/0173
  • Krmíček, L., & Krmíčková, M. (2010). Recent view on a definition and classification of lamprophyres. Mineralogia - Special Papers, 37, 47-48.
  • Krmíček, L., Halavinova, M., Romer, R. L., Galiova, M. V., & Vaculovic, T. (2014). Phlogopite/matrix, cpx/matrix and cpx/phlogopite trace-element partitioning in a calc-alkaline lamprophyre: new constrains from the Krizanovice minette dyke (Bohemian Massif). Journal of Geosciences, 59(1), 87-96. DOI: 10.3190/jgeosci.160
  • Krmíček, L., Romer, R. L., Timmerman, M. J., Ulrych, J., Glodny, J., Přichystal, A., & Sudo, M. (2020). Long-lasting (65 Ma) regionally contrasting late-to post-orogenic Variscan mantle-derived potassic magmatism in the Bohemian Massif. Journal of Petrology, 61(7), egaa072. DOI:10.1093/petrology/egaa072
  • Le Bas, M., (2007). Igneous rock classification revisited 4: Lamprophyres. Geology Today, 23, 167-168.
  • Le Maitre, R. W. (1989). A classification of igneous rocks and glossary of terms. Recommendations of the IUGS Subcommission on the Systematics of Igneous rocks. London: Blackwell Scientific Publications.
  • Le Maitre, R. W. (2002). Igneous rocks. a Classification and Glossary of Terms. Recommendations of the IUGS Subcommission on the Systematics of Igneous Rocks. (2nd Ed.). Cambridge: Cambridge University Press.
  • Ma, L., Jiang, S. Y., Hofmann, A. W., Dai, B. Z., Hou, M. L., Zhao, K. D., Chen, L. H., Li, J. W., & Jiang, Y. H. (2014). Lithospheric and asthenospheric sources of lamprophyres in the Jiaodong Peninsula: a consequence of rapid lithospheric thinning beneath the North China Craton?. Geochimica et Cosmochimica Acta, 124, 250-271. DOI:10.1016/j.gca.2013.09.035
  • Mathieu, L., Bouchard, É., Guay, F., Liénard, A., Pilote, P., & Goutier, J. (2018). Criteria for the recognition of Archean calc-alkaline lamprophyres: examples from the Abitibi Subprovince. Canadian Journal of Earth Sciences, 55(2), 188-205. DOI:10.1139/cjes-2017-0152
  • Mitchell, R. H., & Bergman, S. C. (1991). Petrology of Lamproites. New York: Plenum Press.
  • Mitchell, R. H. (2020). Igneous Rock Associations 26. Lamproites, Exotic Potassic Alkaline Rocks: A Review of their Nomenclature, Characterization and Origins. Geoscience Canada: Journal of the Geological Association of Canada/Geoscience Canada: journal de l’Association Géologique du Canada, 47(3), 119-142. DOI: https://doi.org/10.12789/geocanj.2020.47.162
  • O’Neill, C., & Wyman, D. A. (2006). Geodynamic modelling of Late Archean subduction. Pressure temperature constraints from greenstone belt diamond deposits. In K. Benn, J.-C. Mareschal & K. C. Condie (Eds.), Washington DC American Geophysical Union Geophysical Monograph Series 164 (pp. 177-188). Washington, D.C.: American Geophysical Union.
  • Pe-Piper, G., Piper, D. J. W., Koukouvelas, I., Dolansky, L. M., & Kokkalas, S. (2009). Postorogenic shoshonitic rocks and their origin by melting underplated basalts: The Miocene of Limnos, Greece. Geological Society of America Bulletin, 121(1/2), 39–54. DOI: 10.1130/B26317.1
  • Perring, C. S., Rock, N. M., Golding, S. D., & Roberts, D. E. (1989). Criteria for the recognition of metamorphosed or altered lamprophyres: a case study from the Archaean of Kambalda, Western Australia. Precambrian Research, 43(3), 215-237. DOI:10.1016/0301-9268(89)90057-0
  • Rao, N. C., Giri, R. K., Sharma, A., & Pandey, A. (2020). Lamprophyres from the Indian shield: A review of their occurrence, petrology, tectonomagmatic significance and relationship with the Kimberlites and related rocks. Episodes Journal of International Geoscience, 43(1), 231-248. DOI:10.18814/epiiugs/2020/020014
  • Rock, N. M. S. (1984). Nature and origin of calc-alkaline lamprophyres: minettes, vogesites, kersantites and spessartites. In Transactions of the Royal Society of Edinburgh, 74, 193–227. DOI:10.1017/S0263593300013663
  • Rock, N. M. S. (1987). The nature and origin of lamprophyres: an overview. In: J. G. Fitton, & B. G. J. Upton, (Eds.), Alkaline Igneous Rocks, Special Publications, 30, (pp.191-226). London: Geological Society of London DOI:10.1144/GSL.SP.1987.030.01.09
  • Rock, N. M. S. (1991). Lamprophyres. Glasgow: Blackie and Son Ltd.
  • Scarrow, J. H., Bea, F., Montero, P., & Molina, J. F. (2008). Shoshonites, vaugnerites and potassic lamprophyres: similarities and differences between ‘ultra’-high-rocks. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 99(3-4), 159-175. DOI:10.1017/S1755691009008032
  • Soder, C. (2017). Geochemistry and petrology of lamprophyres from the Hellenides and the European Variscides. Doctoral dissertation, University of Heidelberg, Heidelberg, Germany.
  • Streckeisen, A. (1978). IUGS Subcommission on the Systematics of Igneous Rocks. Classification and Nomenclature of Volcanic Rocks, Lamprophyres, Carbonatites and Melilite Rocks. Recommendations and Suggestions. Neues Jahrbuch fur Mineralogie Abhandlungen, 143, 1-14.
  • Tappe, S., Foley, S. F., Jenner, G. A., & Kjarsgaard, B. A. (2005). Integrating ultramafic lamprophyres into the IUGS classification of igneous rocks: rationale and implications. Journal of Petrology, 46(9), 1893-1900. DOI:10.1093/petrology/egi039
  • Vladykin, N. V. (2008). Formation types of lamproite complexes-systematization and chemism. 9th International Kimberlite Conference, Frankfurt, Germany, Extended Abstract No. 9IKCA-00409.
  • Wimmenauer W., (1973). Lamprophyre, Semilamprophyre und anchibasaltische Ganggesteine. Fortschritte der Mineralogie, 51, 3-67.
  • Woolley, A. R., Bergman, S. C., Edgar, A. D., Le Bas, M. J., Mitchell, R. H., Rock, N. M. S., & Smith, B. H. S. (1996). Classification of lamprophyres, lamproites, kimberlites, and the kalsilitic, melilitic and leucitic rocks. Canadian Mineralogist, 34, 175-186
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dded78cb-8945-4586-aa79-85cd969e85d5
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