Mineralogical–Geochemical Characteristics of the Ore-Bearing Chernogorsky Intrusion, Norilsk Area

— One of the pivoting problems in the genesis of magmatic deposits is the role of silicate melt in the origin of sulfide ores. A way of solving this problem is to compare massifs with different mineralization, using contents of major and trace elements in the rocks. However, intrusions of the Norils...

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Published inGeochemistry international Vol. 59; no. 7; pp. 633 - 660
Main Authors Krivolutskaya, N. A., Kuzmin, D. V., Gongalsky, B. I., Kubrakova, I. V., Tyutyunnik, O. A.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.07.2021
Springer
Springer Nature B.V
Subjects
Aluminum oxide
Analytical methods
Composition
Copper
Deposits
Earth and Environmental Science
Earth Sciences
Gadolinium
Geochemistry
Intrusion
Massifs
Metals
Mineralization
Minerals
Nickel
Ores
Palladium
Phosphorus pentoxide
Platinum
Resources
Rock
Rocks
Silica
Silicates
Silicon compounds
Silicon dioxide
Sulphides
Titanium dioxide
Trace elements
Trace metals
Chernogorsky intrusion
platinum–copper–nickel deposits
Siberian traps
Norilsk area
rock geochemistry
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Summary:— One of the pivoting problems in the genesis of magmatic deposits is the role of silicate melt in the origin of sulfide ores. A way of solving this problem is to compare massifs with different mineralization, using contents of major and trace elements in the rocks. However, intrusions of the Norilsk intrusive complex are rarely compared with one another in terms of ore composition and volume in them. This paper is the first geochemical data, all of which were acquired with the application of modern analytical techniques, on the Chernogorsky intrusion in the Norilsk trough. The structure and composition of this intrusion are well comparable to the intrusions of the same complex hosting the uniquely large deposits: Talnakh, Kharaelakh, and Norilsk 1. The weighted mean composition of the Chernogorsky intrusion (wt %) is as follows: 47.2 SiO 2 , 0.62 TiO 2 , 16.7 Al 2 O 3 , 9.94 FeO, 0.16 MnO, 11.7 MgO, 11.3 CaO, 1.53 Na 2 O, 0.46 K 2 O, 0.07 P 2 O 5 , and 0.18 Cr 2 O 3, , and the ratios of trace elements (La/Sm) n = 1–2, (Gd/Yb) n = 1.2–1.4, and (Th/Nb) n = 1–4 are same as typical of other rocks of the Norilsk complex. The ores of the Chernogorsky intrusion are close to the ores of Norilsk 1, their Cu/Ni ratio slightly exceeds 1, and the Pt + Pd = 5–6 ppm on average. However, the predicted resources of metals in this massif (0.8 Mt Cu + Ni and 0.5 kt Pt + Pd) are 140 times lower than the resources of the Kharaelakh intrusion (113 Mt Cu + Ni, 17.5 kt Pt + Pd), and 50 times lower than in Talnakh (40 Mt Cu + Ni, 8.3 kt Pt + Pd). This confirms that the ore content in an intrusion does not depend on the composition of its silicate rocks, and hence, the compositions of these rocks cannot be used as an exploration guide for new deposits.
ISSN:0016-7029
1556-1968
DOI:10.1134/S0016702921060057