Volume 26, Issue 4 (1-2019)                   www.ijcm.ir 2019, 26(4): 845-856 | Back to browse issues page


XML Persian Abstract Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Ghadami G, Ebadi H, Jamal poor J. Geothermobarometry and pryrogenesise of Jaghin Gabbro in southeast of Rudan city, Hormozgan Province . www.ijcm.ir 2019; 26 (4) :845-856
URL: http://ijcm.ir/article-1-1195-en.html
1- Hormozgan University
Abstract:   (3040 Views)
Jaghin ophiolite rocks are located in the east of Hormozgan Province and southeast of Rudan city in the ‎direction of the Makran zone. Lithologically, ultrabasic rocks such as dunite and harzburgite, and basic magma, including gabbro-norite and basalt, have been identified. According to chemical crystal analysis, the composition of pyroxenes in basic (Gabbro-norite) rocks is more than iron and magnesium, and poor of sodium, which included clinopyroxen with diopside and sometimes augite composition, as well as orthopyroxene is more than bronzite composition. Plagioclase crystals present in gabbro-norite rocks, also divide into high-sodium and medium-calcium types, which have mostly composition between albite and bitonite. Due to the thermometric of these masses and the utilize of the two-pyroxene method, the ‎temperature of forming these masses is determined to be 800-1200 °C and‎, also using the barometric of aluminum distribution in pyroxenes, the pressure on the clinopyroxenes formation estimated to be about 6-12 kbars.
Full-Text [PDF 123 kb]   (741 Downloads)    
Type of Study: Research | Subject: Special

References
1. [1] Stocklin g., "Possible ancient continental margin in Iran", In: Burk C.A., Grake C.L. (Eds.), Geology of continental margins,Springer, New York. (1974) 873-887. [DOI:10.1007/978-3-662-01141-6]
2. [2] Safaii M., "Geochemistry and Geology of Fariab Hormozgan Chromite ore Deposit, MSc. Thesis, Geology", economic geology branch, Factuly of science, Shiraz University (1992).
3. [3] Etemaimoghadam M., Poormoafi M., "Petrology,Petrography and Gheochemistry study of Ultramafic Rocks Factuly of science", Shahid Behesti University (1997).
4. [4] Najafzadeh A. R., Arvin M., Pan Y., Ahmadi pour H., "Podiform chromitites in the Sorkhband ultramafic complex, Southern Iran: evidence for ophiolitic chromitite", Journal of Sciences, Islamic Republic of Iran 19, 49-65.
5. [5] Salehi S., "Petrography and geochemistry of Mt.Groom ulterabasic of Rudan, MSc. Thesis" , Geology of Hormozgan University. (2015) P.166
6. [6] Mc Call, G. g. H., Morgan K. H., Huber H., "Geological Quadrangle Map of Minab", 1: 250,000 Series, Sheet J 13, Geological Survey of Iran, Tehran (1983).
7. [7] Sakauyama M., "petrological study of myoko and kurohime volcanoes", japan: crystallization sequence and evidence for magma mixing j. petro l.22 (1981) 553-583
8. [8] Kuno H., "origin of Cenozoic petrographic provinces in japan and surrounding area", Bull Volcanol. (1959) 29:20:37-76 [DOI:10.1007/BF02596571]
9. [9] Donna L., Whitney Bernard W., Evans, "Abbreviations for names of rock-forming minerals", American ‎Mineralogist, 95.1 (2010), 185–87.
10. [10] Morimoto N., "Nomenclature of pyroxenes Subcommittee on Pyroxenes Commission on New Minerals and Mineral Names, American Mineralogist", Volume 73, (1988) pages 1123-1133.
11. [11] Morimoto N., Fabries J., Ferguson A. K., Ginsburg I. V., Ross M., Seifert F. A., Zussman J., Aoki K., Gottardi G., ''Nomenclature of pyroxenes'', American Mineralogist 65 (1988) 1-28.
12. [12] Rock N. M. S., "The International Mineralogical Association (IMA/CNMMN) pyroxene nomenclature scheme: computerization and its consequences", Mineralogy and Petrology, 43, (1990) 99-119. [DOI:10.1007/BF01164304]
13. [13] Soesoo A., "A multivariate statistical analysis of clinopyroxene composition: empirical coordinates for the crystallization PTestimations", Geological Society of Sweden (Geologiska Föreningen) 119 (1997) 55-60.
14. [14] Lindslay D. H., "Pyroxene Geothermometry", American Mineralogist, 68, (1983) 477-493.
15. [15] WASS S. Y., "Multiple origins of clinopyroxenes in basaltic rocks", Lithos, 12 (1990) 115- 132.
16. [16] Aoki K., Shiba I., ''Pyroxenes from lherzolite inclusions of Itinom egata, Japan'', Lithos 6 (1993) 41-51. [DOI:10.1016/0024-4937(73)90078-9]
17. [17] Moein vaziri H., Ahmadi A., "Petrography and Petrology of Igneous rocks", Trabiat Modarres University.
18. [18] Helz R. T., ''Phase relations of basalts in their melting range at PH20= 5 kb as a function of oxygen fugacity'', Journal of Petrology 14 (1973)249-302 [DOI:10.1093/petrology/14.2.249]
19. [19] Soesoo A., "A multivariate statistical analysis of clinopyroxene composition: empirical coordinates for the crystallization PTestimations", Geological Society of Sweden (Geologiska Föreningen) 119 (1997) 55-60.
20. [20] Deer W. A., Howie R. A., Zussman J., ''An introduction to the rock forming minerals'', SecondLongman Editions, Longman, London (1992) 696.
21. [21] Anderson J. L., "Statuse of thermo-barometry in granitic batholiths", Earth Science Review 87 (1996) 125-138.
22. [22] Koroll H., Evangelakakkis C., Voll G., "Two feldspar Geothermometry: a review and revision for slowly cooled rocks" Contributions to Mineralogy and Petrology (1993) 510–518. [DOI:10.1007/BF00321755]
23. [23] Abbasi Dehghim S., Tabatabbaei manesh M., Irannezhadi M., "Mineralogy, geothermobarometry and determination of plutonic magmatic series east of Nabar (SW of Kashan)", Iranian Journal of Crystalography and Minarology, (2015) 23 Vol.1
24. [24] NISBET E.G., PEARCE J.A. "Clinopyroxene composition in mafic lavas from different tectonic settings", Contrib.Mineral. Petrol. 63 (1977) 149-160 [DOI:10.1007/BF00398776]
25. [25] LeBas M. J., "The role of aluminium in igneous clinopyroxenes with relation to their percentage", Am. J. Sci. 260 (1962) 267.88.
26. [26] Kananian et. al, "Petrography, mineral chemistry and genesis of Aland and Gheshlagh Chromite deposits, Khoy ophiolite (NW of Iran)", Iranian Journal of Crystalography and Minarology, Y 23 Vol.3, P.372-382
27. [27] Yousef zadeh M., Sabzei M., "Geothermobarometery of Markouh Dacite (NE Birjand) and its Amphibolitic Xenoliths", Y.25 Vol.1 (2012) P.43-52
28. [28] Salavati M., et al, "Mineral chemistry of ultramafic rocks from the Southern Caspian Sea Ophiolite (Eastern Guilan)", evidence for a high-pressure crystal fractionation. Y.25 Vol.2 (2009) P.149-166
29. [29] Poosti M., Ghadami GH., Salehi S., "Mineralogy and petrogenesis of chromian – spinel in Rudan ultramafic body", Hormozgan Province Y.25 Vol.1 (2017) P.187-198.

Add your comments about this article : Your username or Email:
CAPTCHA

Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

© 2024 CC BY-NC 4.0 | Iranian Journal of Crystallography and Mineralogy

Designed & Developed by : Yektaweb