Genetic relation between skarn mineralization and petrogenesis of the Darreh Zerreshk granitoid intrusion, southwest of Yazd‫ ‬

Document Type : Research Article

Authors

Shiraz

Abstract

Most skarn deposits are directly related to magmatic activity, and there is a systematic correlation between composition of causative plutons and the metal contents of the related skarns. Darreh Zerreshk deposit is located in southwest of Yazd. Petrological and geochemical studies show that Darreh Zerreshk granitoid ranges in composition from granite through quartz monzodiorite and has subalkaline, calc-alkaline and metaluminous to prealuminous characteristics like most worldwide skarn granitoids. This study shows that geochemical characteristics of the Darreh Zerreshk granotoid rocks are similar to granitoids of Millstream Cu-Fe skarn deposit in Canada, Fe skarns in British Columbia and Au-Cu skarns in the RioNarcea gold belt in Spain. The similarity between REE patterns in Darreh Zerreshk intrusion and skarns also confirms the strong petrogenetic relationship between magmatic and skarnization processes.

Keywords

References

[1] Kuscu I., "Geochemistry and mineralogy of skarns in the Celebi district (Kirikkale, Turkey)", Turkish Journal of Earth Sciences 10 (2001) 121– 13.
[2] Kuscu I., Kuscu G.G., Meinert L.D., Floyd P.A., "Tectonic setting and petrogenesis of the Celebigranitoid, (Kirikkale-Turkey) and comparison with world skarngranitoids" Journal of Geochemical Exploration 76 (2002) 175–194.
[3] Meinert L.D., "Compositional variation of igneous rocks associated with skarn deposits—chemical evidence for a genetic connection between petrogenesis and mineralization", Thompson, J.F.H. (Ed.), Mineralogical Association of Canada. Short Course Series 23 (1995) 401–418.
[4] Zarasvandi A. R., "Magmatic and structural controls on localization of the Darreh-Zerreshk and Ali-Abad porphyry copper deposits, Yazd province, Iran", Ph.D. thesis, university of Shiraz (2005) 235.
[5] Streckeisen A., Le MaitreR.w., "A chemical approximation to the modal QAPF classification of igneous rocks", NeuesYahrb.Mineral.Abh 136 (1979) 169-206.
[6] Rollinson H. R., "Using geochemical data", Longman Scientific & Technical (1993).
[7] De la Roche H., Leterrier J., Grande Claude P., Marchal M., "A classification of volcanic and plutonic rocks using R1-R2 diagrams and major element analysis – its relationships and current nomenclature", Chemical geology 29 (1980) 183- 210.
[8] Maniar P.D., Piccoli P.M., "Tectonic discriminations of granitoids", Geological Society of America Bulletin 101(1989) 636-643.
[9] Irvine T.N., Baragar W.R.A., "A guide to the chemical classification of the common volcanic rocks", Canadian Journal of Earth Sciences 8 (1971) 523 –548.
[10] Le Maitre R.W., Bateman P., Dudek A., Keller J., Lameyre Le Bas M.J., Sabine P.A., Schmid R., Sorensen H., Streckeisen A., Woolley A.r., Zanettin B., "A Classification of Igneous Rocks and Glossary of Terms", Blackwell, Oxford (1989).
[11] Rickwood P.C., "Boundary lines within petrologic diagrams which use oxides of major and minor elements", Lithos22 (1989) 247-263.
[12] Pearce J.A., Harris N.B.W., Tindle A.G., "Trace element discrimination diagrams for the tectonic interpretation of granitic rocks", Journal of Petrology 25 (1984) 956-983.
[13] Smith M., Henderson P., Long J., Williams C.T., "REE and Uranium in Skarn Garnets and Other Phases: Constraints on the Transport of U and REE in Skarn Forming Fluids", Journal of Conference Abstracts 5 (2000) 941.
[14] Alderton D.H.M., Pearce J.A., Potts P.J., "Rare earth element mobility during granite alteration: Evidence from southwest England", Earth Planet. Sci. Lett 49 (1980) 149-165.
[15] Taylor R.P., Fryer B.J., "Rare earth element lithogeochemistry of granitoid mineral deposits", Rare Earth Geochemistry 76 (1983) 74-84.
[16] Cressey G., "Skarn formation between metachalk and agglomerate in the central Ring Complex, Isle of Aran, Scotland", Mineral Mag. J 51(1987) 231-246.
[17] Liu Y., Cao L., Li Z., "Elements Geochemistry", Beijing: Science Press (1984) 6-215.
[18] Ling Q., Liu C., "Behavior of the REE and other trace elements during fluid-rock interaction related to ore-forming processes of the Yiishantransitional deposit in China", Geochemical journal 46(2002)433-463.
[19] Middlemost E., "Naming materials in the magma/igneous rock system",Earthscience Reviews 37 (1994) 215–224.
[20] Blevin P.L., "Metallogeny of granitic rocks- The Ishihara Symposium: Granites and Associated Metallogenesis", Geoscience Australia (2004) 1-4.
Send comment about this article
CAPTCHA Image

Files

Share

How to cite

Statistics