Geophysical prospecting for epithermal gold deposits (a case study from the Maletoivayam gold ore field, Kamchatka Peninsula)

Research subject. The high-sulfidation (HS-type) epithermal gold deposits of the Maletoyvayam ore field, which is located in the volcanic belts of the Kamchatka Peninsula.
Materials and methods. The paper presents the results of geophysical and petrophysical studies carried out by “NPP VIRG-Rudgeofizika” (2016–2017 years) in the central part of the Maletoyvayam ore field hosting HS-type gold deposits.
Results. The presented case study shows the potential of geophysical prospecting for HS-type epithermal gold deposits located within altered rock areas. On the basis of the conducted magnetic surveys, fragments of a ring structure broken by faults and the hydrothermally altered bodies within the Neogene volcanogenic-sedimentary sequence of the andesite composition were identified. Using the 3D inversion of magnetic data, the shape, size and structure of the hydrothermally altered bodies were estimated. The electrical survey data allowed the hydrothermally altered areas to be differentiated in terms of composition. As a result, zoning of hydrothermally altered areas was conducted, and ore-bearing sites and gold-bearing bodies of monoquartzites in the plan and cross-section were determined.
Conclusions. Geophysical techniques for prospecting HS-type epithermal gold deposits are effective in distinguishing important gold-related features within the altered zone thereby facilitating identification of specific drill targets.

1. Allis R.G. (1990) Geophysical anomalies over epithermal systems. J. Geochem. Explor., 36, 339-374.

2. Gurin G., Tarasov A., Ilyin Yu., Titov K. (2013) Time domain spectral induced polarization of disseminated electronic conductors: laboratory data analysis through the Debye decomposition approach. J. Appl. Geophys., 98, 44-53.

3. Hedenquist J.W., Arribas A., Reynolds T.J. (1998) Evolution of an intrusion-centered hydrothermal system; Far Southeast-Lepanto porphyry and epithermal Cu-Au deposits, Philippines. Econ. Geol., 93(4), 373-404.

4. Holley E.A., Bissig T., Monecke T. (2016) The Veladero High-Sulfidation Epithermal Gold Deposit, El IndioPascua Belt, Argentina: Geochronology of Alunite and Jarosite. Econ. Geol., 111, 311-330.

5. Irvine R.J., Smith M.J. (1990) Geophysical exploration for epithermal gold deposits. J. Geochem. Exploration, 36, 375-412.

6. Kellett R.L., Bromley C.J. (2019) Geophysical signatures of New Zealand epithermal Au-Ag deposits, and methods for new exploration. New Zel. J. Geol. Geophys., 62(4), 442-460.

7. Korneev A.V., Voskresenskii K.I., Amelin S.A. (2011) Informatsionnyi otchet o rezul’tatakh poiskovo-otsenochnykh rabot v predelakh Maletoivayamskoi ploshchadi v 2007–2010 gg., [Information report on the results of search and evaluation work within the Meletoivayam area in 2007–2010]. 127 p. Petropavlovsk-Kamchatskiy, Geolfond. (In Russian, unpublished)

8. Locke C., Cassidy J., Harris M., Kirkby A., Mauk J., Tomlinson A., Rowland J., Smith N. (2007) Geophysical characteristics of the southern Coromandel Volcanic Zone, New Zealand, and associated epithermal deposits. ASEG Extended Abstr. Western Australiа, 1-5.

9. Lyashenko L.L., Mikhailova G.N. (1972) Otchet o rezul’tatakh poiskovo-razvedochnykh rabot v predelakh Maletoivaiamskogo sernorudnogo uzla. [Report on the results of prospecting and exploration work within the Maletoivayam sulfur ore node] 151 p. Petropavlovsk-Kamchatskiy, Geolfond. (In Russian, unpublished)

10. Petrenko I.D. (1999) Zoloto-serebryanye formatsii Kamchatki [Au-Ag formations of Kamchatka]. St.Petersburg, VSEGEI Publ., 115 p. (In Russian)

11. Sillitoe R.H. (2010) Porphyry Copper System. Econ. Geol., 105, 3-41.

12. Teal L., Benavides A. (2010) History and Geologic Overview of the Yanacocha Mining District, Cajamarca, Peru. Econ. Geol., 105(7), 1173-1190.

13. Tolstykh N., Vymazalová A., Tuhý M., Shapovalova M. (2018) Conditions of formation of Au-Se-Te mineralization in the Gaching ore occurrence (Maletoyvayam ore field), Kamchatka, Russia. Mineral. Mag., 82(3), 649-674.

14. Volchkov A.G., Zvezdov V.S. (1997) The nature of manifestations of copper-arsenic mineralization of the Maletoivayamskii stratovolcano. Rudy i metally, (5), 44-52. (In Russian)

15. Volkov A.V., Savva N.E., Sidorov A.A., Kolova E.E., Chizhova I.A., Alekseev V.Yu. (2015) Epitermal Au-Ag deposit Atagan and perspectives of display of high-sulfide mintralisation on North-East of Russia. Geologiya Rudn. Mestorozd., 57(1), 25-47. (In Russian)

16. Yarotskiy G.P. (2006) Geologo-geofizicheskie zakonoomernosti razmeshcheniya vulkanicheskikh sernykh mestorozhdenii Tihookeanskogo rudnogo poyasa (Koryakiya – Kamchatka – Kurily – Yaponiya) [Geol-Geophysic regularity of volcanic sulphur deposits distribution in Pacific ore belt (Koryakia – Kamchatka – Kuril Islands – Japan)]. Petropavlovsk-Kamchatskii, Kam. St. Univ. Publ., 138 p. (In Russian)