Position relative to mineralization surface based on supra and sub-ore elemental halos in the Gowdal copper skarn, north of Ahar, NW Iran

Document Type : Original Article

Authors

Abstract

The copper skarn deposit at Gowdal is located in northeast of Shivardagh batholithic body, north of Ahar, East-Azarbaidjan Province. The Shivardagh intrusive body is a part of the magmatic belt of the Alborz-Azarbaidjan-Lesser Caucasus which in turn is related to the magmatic arc of the Meso-Tethys Ocean. The skarn mineralization of copper, iron, and molybdenum (chalcopyrite, pyrite, molybdenite, magnetite, and specularite) occurred particularly in exo-skarn zone at the contact of this igneous body with limestone- marly limestone unit. Also, the supergene copper-iron minerals (malachite, azurite, and Fe-hydroxides) superimpose the hypogene skarn mineral assemblages. Based upon statistical studies carried out on the data obtained from core logs, copper has very good correlation with silver and good correlation with gold and nickel and these elements are reckoned to be as elemental paragenesis in the Gowdal ore body. In addition, consideration of multiplicative geochemical haloes of elements in the supra-ore (Pb×Zn×Sb) and sub-ore (Cu×Ag×Ni) showed that the greater and more notable haloes of supra-ore elements belong to the near-surface horizons while the bigger haloes of sub-ore elements are observed in the lower horizons of the ore body. The function of erosion in the southwest of deposit caused the ore body to be situated in its present level, and the ore body displays the evidence of hidden mineralization toward northeast. On the other hand, considering the minimum and maximum values of the geochemical zonality indices (0.0016-27) in the present level and the elevation levels of the boreholes, the ore body has a northeastward dip.

Keywords

References

[1] Hassanpour Sh., Rasa A., "Investigating of the reasons for the non-economic nature of Gowdal skarn deposit (in Persian)", 21th Conference of Earth Science, Geological Survey of Iran (2002).

[2] Zarisfi A., "Economic Geology investigation of skarn deposit in Gowdal area (Ahar) (in Persian)", M.Sc. Thesis, Tabriz University (2002) 118p.

[3] Mollai H., Sharma R., Pe-Piper G, "Copper mineralization around the Ahar Batholith, north of Ahar (NW Iran): evidence for fluid evolution and the origin of the skarn ore deposit", Ore Geology Reviews 35 (2009) 401-414.

[4] Gharesi M., Rasa A., Yazdi M., "Investigation of Mazraeh Skarn mineralization, North of Ahar, with an emphasis on fluid inclusion studies (in Persian)", Iranian Journal of Crystallography and Mineralogy 26 (1) (2018) 229-244.

[5] Sohrabi Gh., Hossinzadeh M. R., Calagari A. A., Hajalilou B., "Study of Mo Mineralization in Garedagh (Ordobad)- Shivardagh strip with Emphasis on Alteration, Petrology and Geochemistry of host Intrusive bodies (Northwest of Iran) (in Persian)", GEOSCIENCES 24 (95) (2015) 243-259.

[6] Karimzadeh Somarin A. R., Radmard K., Calagari A. A., Moayyed, M., "Investigation of Cu-Mo Skarn in Zand Abad (Northwest of Ahar) (in Persian)", 6th Symposium of Geological Society of Iran, Kerman, Iran (2002).

[7] Hosseinzadeh Gh., Calagari A. A., Malek Ghasemi F., Mojtahedi M., "Economic Geology investigation of the Anjard Copper deposit (Northwest of Ahar) (in Persian)", 3th Symposium of Geological Society of Iran, Shiraz, Iran (1999).

[8] Ghalami Khezerlou F., Hosseinzadeh, Gh., Moayyed M., "Study of Economic geology of base metals in Juyband skarn (North Ahar- East Azarbaijan) (in Persian)", 17th Conference of the Iranian Crystallography and Mineralogy Association (2009).

[9] Hassanpour Sh., "The alteration, mineralogy and geochronology (SHRIMP U–Pb and 40Ar/39Ar) of copper-bearing Anjerd skarn, north of the Shayvar Mountain, NW Iran", International Journal of Earth Sciences (Geol Rundsch) springer, published online (2012).

[10] Mehrabi B., Masoodi F., Jamali H., Asgharzadeh Asl H., "Petrography, Alteration and mineralization in Aq Daragh area (in Persian)", 17th Symposium of the Geological Society of Iran, Shahid Beheshti University, Tehran (2013).

[11] Hajalilou B., Dastar Sh., Ansari S., "Investigation of mineralization and alteration zones in Ali Javad porphyry copper deposit (in Persian)", 17th Symposium of the Geological Society of Iran, Shahid Beheshti University, Tehran (2013).

[12] Bazin D., Hubner H., "Copper deposits in Iran", Report No.13, Geological Survey of Iran (1969) 190 p.

[13] Alavi M., "Sedimentary and structural characteristics of the Paleo- Thethys remnants in northeastern Iran", Geological Society of American Bulletin 103 (1991) 983-993.

[14] Ghorbani M., "An Introduction to Economic Geology of Iran (Persian book)", Geological Survey of Iran (2002) 695p.

[15] United Nations, "Geology and Mineral Resources of Azerbaijan", Atlas of mineral resources of the escap region 15 (2000) 216.

[16] Koçyigit A., Yilmaz A., Adamia S., Kuloshvili S., "Neotectonics of East Anatolian Plateau (Turkey) and Lesser Caucasus: Implication for transition from thrusting to strike-slip faulting", Geodinamica Acta 14 (2001) 177-195.

[17] Hassanpour Sh., Rasa A., Heydari M., Moayyed M., "Geology, alteration and mineralization in the Haft-Cheshmeh Cu- Mo porphyry deposit", Journal of Earth Sciences 4 (15) (2010) 15- 28.

[18] Moritz R., Johannes M., Maria O., Dave S., Massimo Ch., Nino P., Vladimer G., Ramaz M., Rafael M., Rodrig T., Arman V., Samvel H., Vagif F., Mamoy M., "Major Cu, Au and Mo deposits of the Lesser Caucasus: products of diverse geodynamic settings", Swiss Geoscience Meeting, Symposium 2: Mineralogy–Petrology–Geochemistry 2 (16) (2011) 3-4.

[19] Jamali H., Yaghubpur A., Mehrabid B., Dilek Y., Daliran F., Meshkani, S. A., "Petrogenesis and tectono-magmatic setting of Meso- Cenozoic magmatism in Azerbaijan province, Northwestern Iran", Petrology, New Perspectives and Applications INTECH, Croatia (2012) 39-56.

[20] Glennie K. W., "Cretaceous tectonic evolution of Arabia's eastern plate margin: a tale of two oceans in Middle East, models of Jurassic/ Cretaceous carbonate systems", Society of Sedimentary Geology, Special Publications 69 (2000) 9-20.

[21] Mehrpartou M., Nazer Kh., "Geological quadrangle map 1:100000 of Kaleybar", Geological survey& mineral exploration of Iran publications (1999).

[22] Aghazadeh M., Castro A., Badrzadeh Z., Vogt K., "Post- collisional polycyclic plutonism from the Zagros hinterland: the Shaivar Dagh plutonic complex, Alborz belt, Iran", Geological Magazine Cambridge University Press (2011) 1-29.

[23] Hassani Pak A. A., "Geochemical Exploration (Persian book)", 3rd Edition, Tehran University Publications (1998) 601p.

[24] Li H., Wang Z. N., Li F. G., "Ideal models of superimposed primary halos in hydrothermal gold deposits", Journal of Geochemical Exploration, 55 (1) (1995) 329-336.

[25] Chen Y. Q., Zhao P. D., "Zonation in Primary Halos and Geochemical Prospecting Pattern for the Guilaizhuang Gold Deposit, Eastern China", Nonrenewable Resources, 7(1) (1998) 37-44.

[26] Levinson A. A., "Introduction to Exploration geochemistry", Applied publishing Ltd., Wilmcttc, USA, (1980) 924-939.

[27] Wang C., Deng J., Yang L., "Application of primary geochemical halo to gold exploration at Xincheng gold deposit", China, Goldschmidt Conference Abstracts (2010).

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History

  • Receive Date: 06 May 2020
  • Revise Date: 05 August 2020
  • Accept Date: 26 August 2020

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