Mineralogy, geochemistry and genesis of Qara Sabalan manganese deposit, north of Meshginshahr (Ardabil Province)

Document Type : Original Article

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Abstract

The Qara Sabalan manganese deposit belongs to the Qara Dagh-Sabalan metallogenic zone and is located in the eastern part of this zone (north of Meshginshahr). Geology of the area include volcanic (pyroclastic) rocks and the small outcrop of sub volcanic bodies (quartz-monzodiorite) with Eocene to Oligocene age. Mn deposit is hosted within the trachyandesite and tuff. Mn mineralization occurs as veins-veinlets, disseminated cement filler of brecciated zones. Faults and fractures with the trend of NE-SW have played a major roles for the formation of manganese mineralization. The main manganese mineralization consists of pyrolusite, manganite, psilomelane, hematite and goethite. variety of textures, such as open-space fillings colloidal, nodular, replacement and brecciation, are observed which are evidences for epigenetic manganese deposition. Rare earth elements patterns show a specific negative anomaly of Ce (0.04-0.13, mean 0.08) and a relatively positive Eu anomaly (0.28-0.38, mean 0.32). The significant geochemical characteristics of ore, such as Mn/Fe (mean 41.22), Co/Ni (mean 5.24), Co/Zn (mean 0.28), U/Th (mean 0.68), La/Ce (mean 1.77), Lan/Ndn (mean 2.82), Dyn/Ybn (mean 3.16), LREE/HREE (mean 9.51), ΣREE (mean 63.70), reveal a hydrothermal source for Qara Sabalan Mn mineralization.

Keywords

References

[1] Oksuz N., “Geochemical characteristics of the Eymir (Sorgun- Yozgat) manganese deposits, Turkey”, J Rare Earth 29 (2011) 87–296.

[2] Polgari M., Hein J. R., Vigh T., Szabo-Drubina M., Forizs I., Biro L., Muller A., Toth A. L., "Microbial processes and the origin of the Urkut manganese deposit, Hungary", Ore Geol Rev 47 (2012) 87–109.

[3] Stumm W., Morgan J.J., "Aquatic Chemistry", 3rd ed. J. Wiley and Sons, New York. 1996

[4] Anschutz P., Dedieu K., Desmazes F., Chaillou G., "Speciation, oxidation state, and reactivity of particulate manganese in marine sediments" Chem. Geol. 218 (2005) 265-327.

[5] Toth J. R., "Deposition of submarine crusts rich in manganese and iron", Geological Society of America Bulletin 91 (1980) 44-54.

[6] Usui A., Someya M., "Distribution composition of marine hydrogenetic and hydrothermal manganese deposits in the northwest Pacific", In: Nicholson, K., Hein, J. R., Bohn, B., Dasgupta, S., (Eds), Manganese Mineralization: Geological Society Publication 119 (1997) 177-198.

[7] Ingram B. L., Hein J.R., Farmer G.L., "Age determinations and growth rates of Pacific ferromanganese deposits using strontium isotopes", Geochim Cosmochim Acta 54 (1990) 1709-1721.

[8] Hein J. R., Koschinsky A., Halbach P., Manheim F. T., Bau Kang, J. K., Lubick N., "Iron and manganese oxide mineralization in the Pacific", In: Nicholson K, Hein JR, Buhn B, Desgupta S (eds) Manganese mineralization: Geochemistry and Mineralogy of terrestrial and marine deposits 119 (1997) 123-138.

[9] Emamalipoor A., "Mineralogy and geochemistry of manganese-iron deposits in ophiolite sediments north of Chaldoran, northwest of Iran", Iranian Journal of Crystallography and Mineralogy 18 (2010) 3-14 (in Persian).

[10] Rajabzadeh M., Zaman Sani N., "Study of manganese mineralization in ophiolite mixed assemblages in Bashagard and Rudan regions of Hormozgan province using mineralogical and geochemical data" Geochemistry Journal 3 (2014) 411-418 (in Persian).

[11] Lotfi M., Kahrazehi M., Ghaderi M., "Geochemistry and origin of Dehoo manganese deposit, south Zahedan, southeastern Iran", Arab J Geosci (2017) 10(6) 142.

[12] Rahim Zadeh B., Movahednia M., "Study of mineralization and geochemistry of manganese deposit related to Kamyaran ophiolites - Northwest of Iran", Journal of Earth Sciences (1398) 199-210 (in Persian).

[13] Badakhshan Nojehdeh Z., “Economic geology study of Saheb Divan-Dost Bigloo region with a special attitude on hydrothermal alterations in the region”. M.sc. Thesis, Faculty of Basic Sciences, Payam Noor University, East Azerbaijan Province, Iran (2010) (in Persian).

[14] Nabavi M., "An Introduction to the Geology of Iran", Geological Survey of Iran Publication, (1976) 109 p (in Persian).

[15] Aghanabati A., Geology of Iran: Geological Survey of Iran (2004) 586 p (in Persian).

[16] Babakhani A. R., Khan Nazer N. H., "Geological map of Lahrud (scale 1:100,000)", Geological Survey of Iran, Tehran Iran (1991) (in Persian).

[17] Qahramani Oskooi N., "Study of mineralogy and geochemistry of alteration and mineralization zones of Saheb Divan region (northwest of Meshkinshahr - Ardabil province)", M.sc. Thesis in Economic Geology, Urmia University, Iran (2015) (in Persian).

[18] Whitney D. L., Evans B. W., “Abbreviations for names of rock-forming minerals” American Mineralogist 95 (2010) 185-187.

[19] Zarasvandi A., Lentz D., Rezaei M., Pourkaseb H., "Genesis of the Nasirabad manganese occurrence, Fars province, Iran: geochemical evidences", Chem Erde-Geochem 73 (2013) 495–508.

[20] Karakus A., Yavuz B., Koc S., "Mineralogy and major-trace element geochemistry of the Haymana manganese mineralizations, Ankara, Turkey", Geochem Int 48 (2010) 1014–1027.

[21] Nicholson, K., "Contrasting mineralogical geochemical signatures of manganese oxide: Guides to metallogenesis", Economic Geology 87 (1992) 1253-1264.

[22] Rona P., Bostrom K., Laubier L., Smith K., "Hydrothermal processes at sea floor spreading centers", Published in cooperation with NATO Scientific Affairs Division (1983) 796 p.

[23] Glasby G. P., "Manganese: predominant role of nodules and crust", In: H.D. Schulz and M.Z. Zabel (Editors), Marine Geochemistry. Springer- Verlag, Berlin (2000) 335-372.

[24] Cann J. R., Winter C. K. Pritchard R. G., "A hydrothermal deposit from the floor of the Gulf of Aden", Mineralogical Magazine 41(318) (1977) 193-199.

[25] Şaşmaz A., Türkyilmaz B., Öztürk N., Yavuz F., Kumral M., "Geology and geochemistry of Middle Eocene Maden complex ferromanganese deposits from the Elazığ–Malatya region, eastern Turkey", Ore Geol Rev 56 (2014) 352–372.

[26] Choi J. H., Harya Y., "Geochemistry and depositional environment, of Mn oxide deposits in the Tokoro belt, Northeastern Hokaido, Japan", Econ. Geol. 87 (1992) 1265- 1274.

[27] Maynard J. B., "The chemistry of manganese ores through time: a signal of increasing diversity of earth-surface environments", Econ Geol 105 (2010) 535–552.

[28] Jach R., Dudek T., "Origin of a Toarcian manganese carbonate: silicate deposit from the Krizna unit, Tatra Mountains, Poland", Chem Geol 224 (2005) 136–152

[29] Bonatti E., Kraemer T., Rydel H., "Classification and genesis of submarine iron–manganese deposits", In: Horn DR (ed) Ferromanganese deposits on the ocean floor. Natl Sci Found Washington DC (1972) 149–166.

[30] Crerar D. A., Namson J., Chyi M. S., Williams L., Feigenson M. D., "Manganiferous cherts of the Franciscan assemblage: I. General geology, ancient and modern analogues, and implications for the hydrothermal convection at oceanic spreading centers", Econ Geol 77 (1982) 519–540.

[31] Sabatino N., Neri R., Bellanca A., Jenkyns H. C., Masetti D., Scopelliti D., "Petrography and high_resolution geochemical records of Lower Jurassic manganese rich deposits from Monte Mangart, Julian Alps", Palaeogeogr. Palaeoclimatol. Palaeoecol. 299 (2011) 97-109.

[32] Mosier D. L., Campbell D. L., "Epithermal Mn Deposits", In: du Bray, E.A. (Editor), Preliminary compilation of descriptive geoenvironmental mineral deposit models, U.S. Geological Survey, Denver, Colorado, Open-File Report 95(831) (1995) 170-173.

[33] Bonatti E., Zerbi M., Kay R., Rydell H., "Metalliferous deposit from the Apennine ophiolites: Mesozoic equivalents of modern deposits from oceanic spreading center", Geological Society of America Bulletin 87 (1976) 83-94.

[34] Heshmatbehzadi K., Shahabpour J., "Metallogeny of manganese and ferro manganese ores in Baft ophiolitic Mélange, Kerman, Iran", Australian Journal of Basic and Applied Sciences, 4(2) (2010) 02–313.

[35] Xu Bao S., Yang Zhou H., Tong Peng X., Wu Ji F., Qiang Yao H., "Geochemistry of REE and yttrium in hydrothermal fluids from the Endeavour segment, Juan de Fuca Ridge", Geochem J 42 (2008) 359–370

[36] Fitzgerald C.E., Gillis K. M., "Hydrothermal manganese oxide deposits from Baby Bare seamount in the Northeast Pacific Ocean", Mar Geol 225 (2006) 145–156

[37] Danielson A., Moller P., Dulski P., "The europium anomalies in banded iron formations and the thermal history of the oceanic crust", Chem Geol 97(1992) 89–100.

[38] Kato Y., Yamaguchi K. E., Ohmoto H., "Rare earth elements in Precambrian banded iron formations: secular change of Ce and Eu anomalies and evolution of atmospheric oxygen", Geol Soc Am Mem 198 (2006) 269–289.

[39] Sun S.S., McDonough W.F., "Chemical and isotopic systematics of oceanic basalts; implications for mantle composition and processes" in Saunders, A.D., and Norry, M.J., eds., Magmatism in the ocean basins, Geological Society Special Publications 42(1989) 313-345.

[40] Von Stackelberg U., "Growth history of manganese nodules and crusts of the Peru Basin", Geol Soc Lond Spec Publ 119 (1997) 153–176.

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  • Receive Date: 16 August 2020
  • Revise Date: 19 September 2020
  • Accept Date: 07 October 2020

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