Stratigraphic position, origin and characteristics of manganese mineralization horizons in the Late Cretaceous volcano-sedimentary sequence, south-southwest of Sabzevar

Document Type : Research Article

Authors

1 Tarbiat Modares

2 Shahrood University of Technolog

Abstract

Introduction
The Mn mineralization occurs in the northeastern segment of the Sabzevar zone (SZ), north of the Central Iranian Microcontinent (CIM). This Zone (SZ) is located between the CIM fragmentation in the south and the Kopeh dagh sedimentary sequence in the north. The ore deposits of the northeastern segment of the Sabzevar zone can be divided into three groups, each with different metal association and spatial distribution and each related to a major geodynamic event. The first mineralization with associated Ordovician host rock is characterized by Taknar polymetallic (Fe-rich) massive sulfide deposit. The Cretaceous mineralization consists of Cr deposits associated with serpentinized peridotites, Cyprus type VMS, Mn deposit in pillow lava, volcano-sedimentary hosted Besshi type VMS and Mn deposit. Paleogene mineralization in eastern segment of the Sabzevar zone began with porphyry deposits, Cu Red Bed mineralization occurs in the Paleogene sandy red marl.

Materials and methods
A field study and sampling was performed during the autumn of 2012. To assess the geochemical characteristics of 48 systematic samples (least fractured and altered) of ore-bearing layers and host rocks were collected from the deposit for polished thin section examination. In order to correctly characterize their chemical compositions, 15 least-altered and fractured samples were chosen for major elements analysis.

Results
The Late Cretaceous volcano-sedimentary sequence in south-southwest of Sabzevar hosts numerous manganese mineralization. The sequence based on the stratigraphic position, age and composition of the rocks, can be divided into two lower and upper parts. The lower part or K2tv unit mainly formed from marine sediments interbedded with volcanic rocks. The sedimentary rocks of this part include silicified tuff, chert, shale and sandstone, and the volcanic rocks involve pyroclastic rocks of various composition, rhyolite, dacite and andesitic lava. The upper part or LMV unit comprised of limestone, marl and volcanic rocks, overlies concordantly on the lower part (K2tv). The manganese mineralization within the host volcano-sedimentary sequence, based on stratigraphic position, relative age and type of host rocks involved the two horizons: the first horizon (Mn Ia, Ib) consisting of Benesbourd (Masoudi, 2008), Nudeh (Nasrolahi et al., 2012), Homaie (Nasiri et al., 2010), Goft and Manganese Gostar Khavar Zamin deposits, occurred in the lower part of the sequence (K2tv unit) and is hosted by red tuffs. The second horizon (Mn II) comprising of Zakeri (Taghizadeh et al., 2012), Cheshmeh Safeid, Mohammad Abad Oryan and Chah Setareh deposits, is hosted by marly-carbonate tuffs and locates within the upper part of the sequence (LMV unit) (Maghfouri, 2012). Geometry and shape of the ore bodies in various deposits are as stratiform, layered, parallel and concordant with layering of the host rocks.
Textures of the ores include massive, lenticular, banded, laminated and disseminated. Mineralogy of the ores in the two ore horizons is simple and similar and is dominated by pyrolusite, psilomelane and braunite. Gangue minerals are predominantly the host rock-forming minerals including quartz, chlorite and feldspar.

Discussion
Geochemical data, structures and textures, stratigraphic position and lithologic characteristics of the host rocks represent that manganese reserves in south-southwest Sabzevar were formed as sedimentary-exhalative.

Acknowledgements
The authors are grateful to the Tarbiat Modares University Grant Commission for research funding.

References
Maghfouri, S., 2012. Geology, Mineralogy, Geochemistry and Genesis of Cu Mineralization within Late Cretaceous Volcano-Sedimentary Sequence in Southwest of Sabzevar, with emphasis on the Nudeh Deposit. M.Sc. Thesis, Tarbiat Modares University, Tehran, Iran, 312 pp. (in Persian)
Masoudi, M., 2008. Geology, mineralogy, geochemistry and genesis of Benesbourd Mn deposit in the Southwest Sabzevar. M.Sc. Thesis, Tehran Islamic Azad University, Iran, 100 pp. (in Persian)
Nasiri, F., Lotfi, M. and Jafari, M., 2010. Mineralogical studies on the Homaei manganese deposit in southwest of Sabzevar. 30th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)
Nasrollahi, S., Mousivand, F. and Ghasemi, H., 2012. Nudeh Mn deposit in the upper Cretaceous volcano- sedimentary sequence, Sabzevar subzone. 31th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)
Taghizadeh, S., Mousivand, F. and Ghasemi, H., 2012. Zakeri Mn deposit, example of exhalative mineralization in the southwest Sabzevar. 31th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)

Keywords

References

Badakhshan, G. and Baniadam, F., 1997. Exploration studies report of Darin, scale 1:100,000. Geological Survey of Iran, Tehran, 365 pp. (in Persian)
Choi, J.H. and Hariya, Y., 1992. Geochemistry and depositional environment of Mn oxide deposits in the Tokoro belt, northeastern Hokkaido, Japan. Economic Geology, 87(5): 1265–1274.
Dekov, M. and Vesselin Savelli, C., 2004. Hydrothermal activity in the SE Tyrrhenian Sea: an overview of 30 years of research. Marine Geology, 204(1-2): 161–185.
Eshagabadi, S., 1997. Exploration project in geological map of Soltanabad, scale 1:100,000 using the satellite data and geophysics. Geological Survey of Iran, Tehran, 250 pp. (in Persian)
Franklin, J.M., Gibson, H.L., Galley, A.G., and Jonasson, I.R., 2005. Volcanogenic massive sulfide deposits. In: J.W. Hedenquist, J.F.H. Thompson, R.J. Goldfarb, and J.P. Richards (Editors), Economic Geology 100th Anniversary Volume. Society of Economic Geologists, Littleton, Colorado, pp. 523–560.
Hein, J.R., Koschinsky, A., Bau, M., Manheim, F.T., Kang, J.K., Robert, L. (2000). Cobalt- rich ferromanganese crusts in the Pacific. In: D.S. Cronan (Editor), Handbook of Marine Mineral Deposits. CRC Press, Boca Raton, Florida, pp. 239–279.
Imamalipour, A., 2005. Geochemistry, mineralogy and application of Safo manganese resource (north of Chalderan city). Final report of Urmia University, 45 pp. (in Persian)
Maghfouri, S., 2012. Geology, mineralogy, geochemistry and genesis of Cu mineralization within Late Cretaceous volcano-sedimentary sequence in southwest of Sabzevar, with emphasis on the Nudeh deposit. M.Sc. Thesis, Tarbiat Modares University, Tehran, Iran, 312 pp (in Persian with English abstract).
Maghfouri, S., Rastad, A. and Mousivand, F., in press. Nudeh volcanogenic massive sulfide (VMS) deposit, A Besshi-type VMS deposit, southwest Sabzevar. Geosciences Scientific Quarterly Journal (in Persian with English abstract).
Marchig V. and Erzinger J., 1986. Chemical composition of Pacific sediments near 20°S: Changes with increasing distance from the East Pacific Rise. In: D.K. Rea and M. Leinen (Editors), Initial Reports of the Deep Sea Drilling Project Leg 92. U.S. Gov. Print. Off. pp. 371–381.
Masoudi, M., 2008. Geology, mineralogy, geochemistry and genesis of Benesbourd Mn deposit in the southwest Sabzevar. M.Sc. Thesis, Tehran Islamic Azad University, Iran, 100 pp. (in Persian with English abstract)
Monazami Bagherzadeh, R., 1994. Genesis of Mn Mineralization in the Darab area (Fars province, Iran). M.Sc. Thesis, University of Shiraz, Shiraz, Iran, 180 pp. (in Persian with English abstract)
Nasiri, F., Lotfi, M. and Jafari, M., 2010. Mineralogical studies on the Homaei manganese deposit in southwest of Sabzevar. 30th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)
Nasrollahi, S., Mousivand, F. and Ghasemi, H., 2012. Nudeh Mn deposit in the upper Cretaceous volcano- sedimentary sequence, Sabzevar subzone. 31th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)
Nicholson, K., 1992. Genetic types of manganese oxide deposits in Scotland: Indicators of paleo-Ocean-spreading rate and a Devonian geochemical mobility boundary. Economic Geology, 87(5): 1301–1309.
Nicholson, K., Hein, J.R., Buhn, B., Dsgupta, S., 1997. Manganese mineralization: Geochemistry and mineralogy of terrestrial and marine deposits. Geological Society of London, Special Publication 119, 532 pp.
Rozbeh Kargar, S. and Ghomian, E., 1997. Exploration project in geological map of Bashtin, scale 1:100,000 using the satellite data and geophysics. Geological Survey of Iran, Tehran, 300 pp. (in Persian)
Taghizadeh, S., Mousivand, F. and Ghasemi, H., 2012. Zakeri Mn deposit, example of exhalative mineralization in the southwest Sabzevar. 31th Symposium on Geosciences, Geological Survey of Iran, Tehran, Iran. (in Persian)
Tatavosian, Sh., Zohrehbakhash, A., Sahandi, M. and Hossaini, A., 1993. Geological map of Sabzevar, scale 1:250,000. Geological Survey of Iran. (in Persian)
Vahdati Daneshmand, F. and Saeidi, A., 1997. Geological map of Darin, scale 1:100,000. Geological Survey of Iran.
Vatanpour, H., Khakzad, A. and Ghaderi, M., 2009. The Application of PGE in exploration and economic evaluation in the chromite deposits of Sabzevar ophiolite belt. Geosciences Scientific Quarterly Journal, 18(71): 9–12. (in Persian with English abstract)
Winter, L., Tosdal, R., Mortensen, J. and Franklin, J., 2010. Volcanic stratigraphy and geochronology of the Cretaceous Lancones basin, northwestern Peru: Position and timing of giant VMS deposits. Economic Geology, 105(4): 713–742.
Zarasvandi, A., Lentz, D., Rezaei, M. and Pourkaseb, H., 2013. Genesis of the Nasirabad manganese occurrence, Fars province, Iran: Geochemical evidences. Chemie der Erde – Geochemistry, 73(4): 495–508.
Send comment about this article
CAPTCHA Image

Files

History

  • Receive Date: 25 April 2013
  • Accept Date: 27 January 2014

Share

How to cite

Statistics