Geology, mineralization, geochemistry and Ground magnetic studies in iron mineralization Kalateh Shahin region, Razavi Khorasan province

Document Type : Research Article

Authors

1 Ferdowsi University of Mashhad

2 Faculty of Sciences, Ferdowsi University of Mashhad

Abstract

Iron mineralization of Kalate Shahin is located 107 km on the Ghoochan-Neyshaboor road (in Khorasan Razavi province). Subvolcanic intrusive bodies of quartz monzonite to monzonite porphyry intruded the Cretacous limestone. Sedimentary units of the area in decreasing age include Cretaceous limestone and Eocene and Paleocene-Quaternary microconglomerate to sandstone. Mineralization in the region formed in two stages, hypogene and supergene. Pyrite, magnetite and specularite formed in the hypogene and goethite and hematite in the later. Investigation of ƒO2 and temperature conditions indicated that temperature of hydrothermal minerals in the east of the area was less than 350ºC. The amount of goethite and hematite in the west of the area is much less than the east and is frequently present as vein and veinlet associated with hydrothermal dolomite. The source of mineralization, hydrothermal solution in west of the area had lower sulfide and temperature but was more oxidized than the east. The result of geochemical analysis using AAS method for Fe, Mn, Mg and Ca elements indicated the highest amount of iron (30.4%) at the trench on the east of the area. Iron showed positive correlation with Mg at this location. There is also relation between the amount of these elements and the distance from the intrusive bodies. Therefore, the intrusive bodies of the area had no role in the mineralization. Total magnetic intensity (TMI) was measured at 742 stations on 2 grid of 20×5 meter. Map of TMI colour image along with contour, Reduction To the Pole (RTP) and upward continued were prepared using ER Mapper. Inspection of magnetic maps indicated distributed anomalies in the area, maybe related to the covered hornblend diorite porphyry which outcrops at about 40 meter apart. Due to the presence of hematite in limestone that correlates with anomalies B and C,magnetite mineralization at depth also may be the causative source of these magnetic anomalies. Therefore, drilling exploration at location of anomalies B and C is proposed.

Keywords

References

[1] نبوی، م. ح.، "دیباچه ای بر زمین شناسی ایران"، سازمان زمین شناسی و اکتشافات معدنی کشور (1355).
[2]کریم پور م. ح.، ملکزاده شفارودی آ.، و حیدریان شهری م. ر.،" اکتشاف ذخایر معدنی"، انتشارات دانشگاه فردوسی مشهد، (1384) 632 صفحه.
[3] امینی ب.،" نقشه زمین شناسی 1:100000 مشکان (7663)"، سازمان زمین شناسی و اکتشافات معدنی کشور (1379).
[4] بهار فیروزی خ.، اژدری ع.، سیاره ع.،" گزارش مطالعات اکتشافات چکشی ورقه 1:100000 مشکان"، سازمان زمین شناسی و اکتشافات معدنی کشور، (1377) 190 صفحه.
[5] Tucker M.E., “Sedimentary Petrology”. Third Edition, Blackwell, Oxford, (2001) 260p.
[6] Weltje G.J. Eynatten H.V., “Quantitative provenance analysis of sediment: review and outloo"k, Sedimetaty Geology, 171, (2004) 1-11.
[7] Dickinson W.R., “Interpreting provenance relation from detrital modes of sandstone”. In Zuffa, G.G., (Ed.), Provenance of Arenites. Reidel Publishing Co., Dorderchet, The Netherlands, (1985) 338 – 361.
[8] Zharikov V.A., “Skarns” :Internat.Geology Rev.,v12 (1970).
[9] Ramdhor P The ore minerals and their intergrowth , Pergamon Press, ., (1980) 1267P.
[10] Velasko,F., Mineralogy and Origin of the skarn from Kala ,Economic Geology.,v.76., no.3., (1982) pp.719-727.
[11] Henley R. W., Truesdell A. H., Barton, P. B., “Fluid-mineral Equilibria in Hydrothermal System”: Society of Economic Geologists, Reviews in Economic Geology, V. 1 (1984) 267P.
[12]حیدریان شهری٬ م.ر.٬ “مبانی اکتشافات ژئوفیزیک”: انتشارات دانشگاه فردوسی مشهد٬ (1384)750 صفحه.
[13] Clark D. A., “Magnetic petrophysics and magnetic petrology: aids to geological interpretation of magnetic surveys”: AGSO Journal of Australian Geology & Geophysics, v. 17(2), (1984) p. 83-103.
[14] یوسفی ا.،" نقشه شدت کل میدان مغناطیسی 1:1000000،" برگه شماره 3، سازمان زمین شناسی کشور (2000).
[15] Gunn P. J., Dentith M.C., “Magnetic responses associated with mineral deposits”: AGSO Journal of Australian Geology & Geophysics, v. 17(2) (1997) p. 145-158.
[16] Cooper G. R., Cowan D. R., “Filtering using variable order vertical derivative Computers & Geosciences”, v. 30 (2004) pp. 455-459.
[17] Ford K., Keating P., Thomas M. D.,” Overview of Geophysical signature Associated with canadaian or Deposits”, Geological Survey of Canada, 601 Booth Street, Ottawa, Ontario, K1A0E8 (2004).
[18] Gunn P. J.,” Workshop Interpretation of aeromagnetic data”: AGSO Journal of Australian Geology & Geophysics (1996).
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