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Chuktukon carbonatite massif, Krasnoyarsk Krai, Russiai
Regional Level Types
Chuktukon carbonatite massifMassif
Krasnoyarsk KraiKrai
RussiaCountry

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Key
Latitude & Longitude (WGS84):
59° 27' 0'' North , 99° 52' 46'' East
Latitude & Longitude (decimal):
Locality type:
Köppen climate type:
Other/historical names associated with this locality:
Chuktukonskoe


Weathered carbonatite part of the Chadobetsk alkalic ultramafic complex.

Select Mineral List Type

Standard Detailed Gallery Strunz Dana Chemical Elements

Mineral List


48 valid minerals. 1 (TL) - type locality of valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

Aegirine
Formula: NaFe3+Si2O6
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Ancylite'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Ancylite-(Ce)
Formula: CeSr(CO3)2(OH) · H2O
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Andradite
Formula: Ca3Fe3+2(SiO4)3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Andradite-Grossular Series'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Baryte
Formula: BaSO4
Reference: USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Bastnäsite'
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706
Burbankite
Formula: (Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Calcite
Formula: CaCO3
Reference: USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Calzirtite
Formula: CaZr3TiO9
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Cancrinite
Formula: (Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Cerianite-(Ce)
Formula: (Ce4+,Th)O2
Reference: USGS Professional Paper 1765
'Chlorite Group'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Chrome-Spinel (of Dana)'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Churchite-(Y)
Formula: Y(PO4) · 2H2O
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Clinopyroxene Subgroup'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Daqingshanite-(Ce)
Formula: (Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Dolomite
Formula: CaMg(CO3)2
Reference: USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Fayalite-Forsterite Series'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Feldspar Group'
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Ferrohagendorfite'
Formula: NaCaFe2+Fe2+2(PO4)3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Florencite'
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; USGS Professional Paper 1765
Florencite-(Ce)
Formula: CeAl3(PO4)2(OH)6
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Fluorapatite
Formula: Ca5(PO4)3F
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; USGS Professional Paper 1765; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Fluorapatite var. Carbonate-rich Fluorapatite
Formula: Ca5(PO4,CO3)3(F,O)
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Fluorcalciopyrochlore
Formula: (Ca,Na)2(Nb, Ti)2O6F
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Fluorite
Formula: CaF2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Goethite
Formula: α-Fe3+O(OH)
Reference: USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Gorceixite
Formula: BaAl3(PO4)(PO3OH)(OH)6
Reference: USGS Professional Paper 1765
Grossular
Formula: Ca3Al2(SiO4)3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Hematite
Formula: Fe2O3
Reference: USGS Professional Paper 1765
Hollandite
Formula: Ba(Mn4+6Mn3+2)O16
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Hydropyrochlore
Formula: (H2O,□)2Nb2(O,OH)6(H2O)
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Ilmenite
Formula: Fe2+TiO3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'K Feldspar'
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Khanneshite
Formula: (Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Kinoshitalite
Formula: (Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Magnetite
Formula: Fe2+Fe3+2O4
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Melilite Group'
Formula: Ca2M(XSiO7)
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Mica Group'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Monazite'
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; USGS Professional Paper 1765
Monazite-(Ce)
Formula: Ce(PO4)
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Nepheline
Formula: Na3K(Al4Si4O16)
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Niobium'
Formula: Nb
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Nyerereite ?
Formula: Na2Ca(CO3)2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Olekminskite
Formula: Sr(Sr,Ca,Ba)(CO3)2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Parisite-(Ce)
Formula: CaCe2(CO3)3F2
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Perovskite
Formula: CaTiO3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Phlogopite
Formula: KMg3(AlSi3O10)(OH)2
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Potash Feldspar'
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Psilomelane'
Formula: Mn, O
Reference: USGS Professional Paper 1765; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Pyrite
Formula: FeS2
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
'Pyrochlore Group'
Formula: A2Nb2(O,OH)6Z
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706; USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Pyrochlore Group var. Ceriopyrochlore (of Hogarth 1977)'
Formula: A2Nb2(O,OH)6Z
Reference: Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706
Pyrolusite
Formula: Mn4+O2
Reference: USGS Professional Paper 1765
'Pyroxene Group'
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Quartz
Formula: SiO2
Reference: USGS Professional Paper 1765; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Rippite (TL)
Formula: K2(Nb,Ti)2(Si4O12)O(O,F)
Type Locality:
Reference: Chebotarev, D.A. (2016): Compositional and internal structure features of pyrochlores from carbonatites of the Chuktukon carbonatite complex. In: Kogarko, L.N. (Ed.): Moscow International School of Earth Sciences - 2016, Moscow (23-28 Мау 2016), Abstracts, 41-42; Doroshkevich, A.G., Sharygin, V. V., Seryotkin, Y.V., Karmanov, N.S., Belogub, E.V., Moroz, T.N., Nigmatulina, E.N., Eliseev, A.P., Vedenyapin, V.N. and Kupriyanov, I.N. (2016) Rippite, IMA 2016-025. CNMNC Newsletter No. 32, August 2016, page 919; Mineralogical Magazine, 80: 915–922; Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Romanèchite
Formula: (Ba,H2O)2(Mn4+,Mn3+)5O10
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Rutile
Formula: TiO2
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Serpentine Subgroup'
Formula: D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Shortite
Formula: Na2Ca2(CO3)3
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Spinel
Formula: MgAl2O4
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
'Spinel Group'
Formula: AE2O4
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Strontianite
Formula: SrCO3
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Synchysite-(Ce)
Formula: CaCe(CO3)2F
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Tainiolite
Formula: KLiMg2(Si4O10)F2
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Titanite
Formula: CaTi(SiO4)O
Reference: Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Zircon
Formula: Zr(SiO4)
Reference: Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).; Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.

Gallery:

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
Pyrite2.EB.05aFeS2
Group 3 - Halides
Fluorite3.AB.25CaF2
Group 4 - Oxides and Hydroxides
Calzirtite4.DL.10CaZr3TiO9
Cerianite-(Ce)4.DL.05(Ce4+,Th)O2
Goethite4.00.α-Fe3+O(OH)
Hematite4.CB.05Fe2O3
Hollandite4.DK.05aBa(Mn4+6Mn3+2)O16
Hydropyrochlore4.DH.15(H2O,□)2Nb2(O,OH)6(H2O)
Ilmenite4.CB.05Fe2+TiO3
Magnetite4.BB.05Fe2+Fe3+2O4
Perovskite4.CC.30CaTiO3
'Pyrochlore Group'4.00.A2Nb2(O,OH)6Z
'var. Ceriopyrochlore (of Hogarth 1977)'4.00.A2Nb2(O,OH)6Z
Pyrolusite4.DB.05Mn4+O2
Quartz4.DA.05SiO2
Romanèchite4.DK.10(Ba,H2O)2(Mn4+,Mn3+)5O10
Rutile4.DB.05TiO2
Spinel4.BB.05MgAl2O4
Group 5 - Nitrates and Carbonates
Ancylite-(Ce)5.DC.05CeSr(CO3)2(OH) · H2O
Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
Burbankite5.AC.30(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Calcite5.AB.05CaCO3
Daqingshanite-(Ce)5.BF.15(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Dolomite5.AB.10CaMg(CO3)2
Khanneshite5.AC.30(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Nyerereite ?5.AC.10Na2Ca(CO3)2
Olekminskite5.AB.40Sr(Sr,Ca,Ba)(CO3)2
Parisite-(Ce)5.BD.20bCaCe2(CO3)3F2
Shortite5.AC.25Na2Ca2(CO3)3
Strontianite5.AB.15SrCO3
Synchysite-(Ce)5.BD.20cCaCe(CO3)2F
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Baryte7.AD.35BaSO4
Group 8 - Phosphates, Arsenates and Vanadates
Churchite-(Y)8.CJ.50Y(PO4) · 2H2O
'Ferrohagendorfite'8.AC.10NaCaFe2+Fe2+2(PO4)3
Florencite-(Ce)8.BL.13CeAl3(PO4)2(OH)6
Fluorapatite8.BN.05Ca5(PO4)3F
var. Carbonate-rich Fluorapatite8.BN.05Ca5(PO4,CO3)3(F,O)
Gorceixite8.BL.10BaAl3(PO4)(PO3OH)(OH)6
Monazite-(Ce)8.AD.50Ce(PO4)
Group 9 - Silicates
Aegirine9.DA.25NaFe3+Si2O6
Andradite9.AD.25Ca3Fe3+2(SiO4)3
Cancrinite9.FB.05(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Grossular9.AD.25Ca3Al2(SiO4)3
Kaolinite9.ED.05Al2(Si2O5)(OH)4
Kinoshitalite9.EC.35(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Nepheline9.FA.05Na3K(Al4Si4O16)
Phlogopite9.EC.20KMg3(AlSi3O10)(OH)2
Tainiolite9.EC.15KLiMg2(Si4O10)F2
Titanite9.AG.15CaTi(SiO4)O
Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
'Ancylite'-
'Andradite-Grossular Series'-
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Bastnäsite'-
'Chlorite Group'-
'Chrome-Spinel (of Dana)'-
'Clinopyroxene Subgroup'-
'Fayalite-Forsterite Series'-
'Feldspar Group'-
'Florencite'-
Fluorcalciopyrochlore-(Ca,Na)2(Nb, Ti)2O6F
'K Feldspar'-
'Melilite Group'-Ca2M(XSiO7)
'Mica Group'-
'Monazite'-
'Niobium'-Nb
'Potash Feldspar'-
'Psilomelane'-Mn, O
'Pyroxene Group'-
Rippite (TL)-K2(Nb,Ti)2(Si4O12)O(O,F)
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Spinel Group'-AE2O4

List of minerals arranged by Dana 8th Edition classification

Group 2 - SULFIDES
AmBnXp, with (m+n):p = 1:2
Pyrite2.12.1.1FeS2
Group 4 - SIMPLE OXIDES
A2X3
Hematite4.3.1.2Fe2O3
Ilmenite4.3.5.1Fe2+TiO3
Perovskite4.3.3.1CaTiO3
AX2
Cerianite-(Ce)4.4.12.1(Ce4+,Th)O2
Pyrolusite4.4.1.4Mn4+O2
Rutile4.4.1.1TiO2
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
Goethite6.1.1.2α-Fe3+O(OH)
Group 7 - MULTIPLE OXIDES
AB2X4
Magnetite7.2.2.3Fe2+Fe3+2O4
Spinel7.2.1.1MgAl2O4
AB8X16
Hollandite7.9.1.1Ba(Mn4+6Mn3+2)O16
Romanèchite7.9.2.1(Ba,H2O)2(Mn4+,Mn3+)5O10
Group 8 - MULTIPLE OXIDES CONTAINING NIOBIUM,TANTALUM OR TITANIUM
A2B2O6(O,OH,F)
Hydropyrochlore8.2.1.2(H2O,□)2Nb2(O,OH)6(H2O)
'Pyrochlore Group'8.2.1.1A2Nb2(O,OH)6Z
'var. Ceriopyrochlore (of Hogarth 1977)'8.2.1.5A2Nb2(O,OH)6Z
Miscellaneous
Calzirtite8.7.4.1CaZr3TiO9
Group 9 - NORMAL HALIDES
AX2
Fluorite9.2.1.1CaF2
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Strontianite14.1.3.3SrCO3
AB(XO3)2
Ankerite14.2.1.2Ca(Fe2+,Mg)(CO3)2
Dolomite14.2.1.1CaMg(CO3)2
Olekminskite14.2.2.3Sr(Sr,Ca,Ba)(CO3)2
A2B(XO3)2
Nyerereite ?14.3.4.1Na2Ca(CO3)2
Miscellaneous
Burbankite14.4.4.1(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Khanneshite14.4.4.2(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Shortite14.4.1.1Na2Ca2(CO3)3
Group 16a - ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
Parisite-(Ce)16a.1.5.1CaCe2(CO3)3F2
Synchysite-(Ce)16a.1.3.1CaCe(CO3)2F
Group 16b - HYDRATED CARBONATES CONTAINING HYDROXYL OR HALOGEN
Ancylite-(Ce)16b.1.1.1CeSr(CO3)2(OH) · H2O
Group 17 - COMPOUND CARBONATES
Miscellaneous
Daqingshanite-(Ce)17.1.10.1(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 38 - ANHYDROUS NORMAL PHOSPHATES, ARSENATES, AND VANADATES
(AB)5(XO4)3
'Ferrohagendorfite'38.2.3.1NaCaFe2+Fe2+2(PO4)3
AXO4
Monazite-(Ce)38.4.3.1Ce(PO4)
Group 40 - HYDRATED NORMAL PHOSPHATES,ARSENATES AND VANADATES
(AB)5(XO4)2·xH2O
Churchite-(Y)40.4.6.1Y(PO4) · 2H2O
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
(AB)2(XO4)Zq
Florencite-(Ce)41.5.10.2CeAl3(PO4)2(OH)6
A5(XO4)3Zq
Fluorapatite41.8.1.1Ca5(PO4)3F
var. Carbonate-rich Fluorapatite41.8.1.4Ca5(PO4,CO3)3(F,O)
Group 42 - HYDRATED PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
(AB)2(XO4)Zq·xH2O
Gorceixite42.7.3.2BaAl3(PO4)(PO3OH)(OH)6
Group 51 - NESOSILICATES Insular SiO4 Groups Only
Insular SiO4 Groups Only with cations in [6] and >[6] coordination
Andradite51.4.3b.1Ca3Fe3+2(SiO4)3
Grossular51.4.3b.2Ca3Al2(SiO4)3
Insular SiO4 Groups Only with cations in >[6] coordination
Zircon51.5.2.1Zr(SiO4)
Group 52 - NESOSILICATES Insular SiO4 Groups and O,OH,F,H2O
Insular SiO4 Groups and O, OH, F, and H2O with cations in [6] and/or >[6] coordination
Titanite52.4.3.1CaTi(SiO4)O
Group 65 - INOSILICATES Single-Width,Unbranched Chains,(W=1)
Single-Width Unbranched Chains, W=1 with chains P=2
Aegirine65.1.3c.2NaFe3+Si2O6
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 2:1 layers
Kinoshitalite71.2.2c.5(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Phlogopite71.2.2b.1KMg3(AlSi3O10)(OH)2
Tainiolite71.2.2b.9KLiMg2(Si4O10)F2
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework Feldspathoids and related species
Cancrinite76.2.5.3(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Nepheline76.2.1.2Na3K(Al4Si4O16)
Unclassified Minerals, Mixtures, etc.
'Ancylite'-
'Andradite-Grossular Series'-
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Bastnäsite'-
'Chlorite Group'-
'Chrome-Spinel (of Dana)'-
'Clinopyroxene Subgroup'-
'Fayalite-Forsterite Series'-
'Feldspar Group'-
'Florencite'-
Fluorcalciopyrochlore-(Ca,Na)2(Nb, Ti)2O6F
'K Feldspar'-
Kaolinite-Al2(Si2O5)(OH)4
'Melilite Group'-Ca2M(XSiO7)
'Mica Group'-
'Monazite'-
'Niobium'-Nb
'Potash Feldspar'-
'Psilomelane'-Mn, O
'Pyroxene Group'-
Rippite (TL)-K2(Nb,Ti)2(Si4O12)O(O,F)
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Spinel Group'-AE2O4

List of minerals for each chemical element

HHydrogen
H Pyrochlore GroupA2Nb2(O,OH)6Z
H Churchite-(Y)Y(PO4) · 2H2O
H ApatiteCa5(PO4)3(Cl/F/OH)
H Pyrochlore Group var. Ceriopyrochlore (of Hogarth 1977)A2Nb2(O,OH)6Z
H GorceixiteBaAl3(PO4)(PO3OH)(OH)6
H Goethiteα-Fe3+O(OH)
H Ancylite-(Ce)CeSr(CO3)2(OH) · H2O
H Florencite-(Ce)CeAl3(PO4)2(OH)6
H KaoliniteAl2(Si2O5)(OH)4
H Romanèchite(Ba,H2O)2(Mn4+,Mn3+)5O10
H Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
H Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
H Hydropyrochlore(H2O,□)2Nb2(O,OH)6(H2O)
H Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
H PhlogopiteKMg3(AlSi3O10)(OH)2
H Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
LiLithium
Li TainioliteKLiMg2(Si4O10)F2
CCarbon
C Fluorapatite var. Carbonate-rich FluorapatiteCa5(PO4,CO3)3(F,O)
C CalciteCaCO3
C DolomiteCaMg(CO3)2
C Ancylite-(Ce)CeSr(CO3)2(OH) · H2O
C Parisite-(Ce)CaCe2(CO3)3F2
C StrontianiteSrCO3
C Synchysite-(Ce)CaCe(CO3)2F
C Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
C AnkeriteCa(Fe2+,Mg)(CO3)2
C Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
C Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
C Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
C OlekminskiteSr(Sr,Ca,Ba)(CO3)2
C ShortiteNa2Ca2(CO3)3
C NyerereiteNa2Ca(CO3)2
OOxygen
O RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
O Pyrochlore GroupA2Nb2(O,OH)6Z
O Churchite-(Y)Y(PO4) · 2H2O
O ApatiteCa5(PO4)3(Cl/F/OH)
O Fluorapatite var. Carbonate-rich FluorapatiteCa5(PO4,CO3)3(F,O)
O Pyrochlore Group var. Ceriopyrochlore (of Hogarth 1977)A2Nb2(O,OH)6Z
O PsilomelaneMn, O
O GorceixiteBaAl3(PO4)(PO3OH)(OH)6
O PyrolusiteMn4+O2
O Cerianite-(Ce)(Ce4+,Th)O2
O HematiteFe2O3
O Goethiteα-Fe3+O(OH)
O QuartzSiO2
O BaryteBaSO4
O CalciteCaCO3
O DolomiteCaMg(CO3)2
O FluorapatiteCa5(PO4)3F
O AegirineNaFe3+Si2O6
O Ancylite-(Ce)CeSr(CO3)2(OH) · H2O
O Florencite-(Ce)CeAl3(PO4)2(OH)6
O Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
O KaoliniteAl2(Si2O5)(OH)4
O Monazite-(Ce)Ce(PO4)
O NephelineNa3K(Al4Si4O16)
O Parisite-(Ce)CaCe2(CO3)3F2
O Romanèchite(Ba,H2O)2(Mn4+,Mn3+)5O10
O RutileTiO2
O StrontianiteSrCO3
O Synchysite-(Ce)CaCe(CO3)2F
O TainioliteKLiMg2(Si4O10)F2
O ZirconZr(SiO4)
O Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
O AnkeriteCa(Fe2+,Mg)(CO3)2
O AndraditeCa3Fe23+(SiO4)3
O CalzirtiteCaZr3TiO9
O Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
O Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
O FerrohagendorfiteNaCaFe2+Fe22+(PO4)3
O GrossularCa3Al2(SiO4)3
O HollanditeBa(Mn64+Mn23+)O16
O Hydropyrochlore(H2O,□)2Nb2(O,OH)6(H2O)
O IlmeniteFe2+TiO3
O Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
O Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
O MagnetiteFe2+Fe23+O4
O Melilite GroupCa2M(XSiO7)
O OlekminskiteSr(Sr,Ca,Ba)(CO3)2
O PerovskiteCaTiO3
O PhlogopiteKMg3(AlSi3O10)(OH)2
O Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
O ShortiteNa2Ca2(CO3)3
O SpinelMgAl2O4
O TitaniteCaTi(SiO4)O
O Spinel GroupAE2O4
O NyerereiteNa2Ca(CO3)2
FFluorine
F RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
F ApatiteCa5(PO4)3(Cl/F/OH)
F Fluorapatite var. Carbonate-rich FluorapatiteCa5(PO4,CO3)3(F,O)
F FluorapatiteCa5(PO4)3F
F Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
F Parisite-(Ce)CaCe2(CO3)3F2
F Synchysite-(Ce)CaCe(CO3)2F
F TainioliteKLiMg2(Si4O10)F2
F Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
F FluoriteCaF2
NaSodium
Na AegirineNaFe3+Si2O6
Na Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
Na NephelineNa3K(Al4Si4O16)
Na Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Na Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Na FerrohagendorfiteNaCaFe2+Fe22+(PO4)3
Na Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Na ShortiteNa2Ca2(CO3)3
Na NyerereiteNa2Ca(CO3)2
MgMagnesium
Mg DolomiteCaMg(CO3)2
Mg TainioliteKLiMg2(Si4O10)F2
Mg AnkeriteCa(Fe2+,Mg)(CO3)2
Mg Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Mg PhlogopiteKMg3(AlSi3O10)(OH)2
Mg Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Mg SpinelMgAl2O4
AlAluminium
Al GorceixiteBaAl3(PO4)(PO3OH)(OH)6
Al Florencite-(Ce)CeAl3(PO4)2(OH)6
Al KaoliniteAl2(Si2O5)(OH)4
Al NephelineNa3K(Al4Si4O16)
Al Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Al GrossularCa3Al2(SiO4)3
Al Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Al PhlogopiteKMg3(AlSi3O10)(OH)2
Al Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Al SpinelMgAl2O4
SiSilicon
Si RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
Si QuartzSiO2
Si AegirineNaFe3+Si2O6
Si KaoliniteAl2(Si2O5)(OH)4
Si NephelineNa3K(Al4Si4O16)
Si TainioliteKLiMg2(Si4O10)F2
Si ZirconZr(SiO4)
Si AndraditeCa3Fe23+(SiO4)3
Si Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Si GrossularCa3Al2(SiO4)3
Si Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Si Melilite GroupCa2M(XSiO7)
Si PhlogopiteKMg3(AlSi3O10)(OH)2
Si Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Si TitaniteCaTi(SiO4)O
PPhosphorus
P Churchite-(Y)Y(PO4) · 2H2O
P ApatiteCa5(PO4)3(Cl/F/OH)
P Fluorapatite var. Carbonate-rich FluorapatiteCa5(PO4,CO3)3(F,O)
P GorceixiteBaAl3(PO4)(PO3OH)(OH)6
P FluorapatiteCa5(PO4)3F
P Florencite-(Ce)CeAl3(PO4)2(OH)6
P Monazite-(Ce)Ce(PO4)
P Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
P FerrohagendorfiteNaCaFe2+Fe22+(PO4)3
SSulfur
S BaryteBaSO4
S PyriteFeS2
S Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
ClChlorine
Cl ApatiteCa5(PO4)3(Cl/F/OH)
KPotassium
K RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
K NephelineNa3K(Al4Si4O16)
K TainioliteKLiMg2(Si4O10)F2
K Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
K PhlogopiteKMg3(AlSi3O10)(OH)2
CaCalcium
Ca ApatiteCa5(PO4)3(Cl/F/OH)
Ca Fluorapatite var. Carbonate-rich FluorapatiteCa5(PO4,CO3)3(F,O)
Ca CalciteCaCO3
Ca DolomiteCaMg(CO3)2
Ca FluorapatiteCa5(PO4)3F
Ca Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
Ca Parisite-(Ce)CaCe2(CO3)3F2
Ca Synchysite-(Ce)CaCe(CO3)2F
Ca Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Ca AnkeriteCa(Fe2+,Mg)(CO3)2
Ca AndraditeCa3Fe23+(SiO4)3
Ca CalzirtiteCaZr3TiO9
Ca Cancrinite(Na,Ca,☐)8(Al6Si6O24)(CO3,SO4)2 · 2H2O
Ca Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Ca FerrohagendorfiteNaCaFe2+Fe22+(PO4)3
Ca FluoriteCaF2
Ca GrossularCa3Al2(SiO4)3
Ca Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Ca Melilite GroupCa2M(XSiO7)
Ca OlekminskiteSr(Sr,Ca,Ba)(CO3)2
Ca PerovskiteCaTiO3
Ca ShortiteNa2Ca2(CO3)3
Ca TitaniteCaTi(SiO4)O
Ca NyerereiteNa2Ca(CO3)2
TiTitanium
Ti RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
Ti Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
Ti RutileTiO2
Ti CalzirtiteCaZr3TiO9
Ti IlmeniteFe2+TiO3
Ti PerovskiteCaTiO3
Ti TitaniteCaTi(SiO4)O
MnManganese
Mn PsilomelaneMn, O
Mn PyrolusiteMn4+O2
Mn Romanèchite(Ba,H2O)2(Mn4+,Mn3+)5O10
Mn HollanditeBa(Mn64+Mn23+)O16
Mn Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Mn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
FeIron
Fe HematiteFe2O3
Fe Goethiteα-Fe3+O(OH)
Fe AegirineNaFe3+Si2O6
Fe PyriteFeS2
Fe AnkeriteCa(Fe2+,Mg)(CO3)2
Fe AndraditeCa3Fe23+(SiO4)3
Fe FerrohagendorfiteNaCaFe2+Fe22+(PO4)3
Fe IlmeniteFe2+TiO3
Fe MagnetiteFe2+Fe23+O4
Fe Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
NiNickel
Ni Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
ZnZinc
Zn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
SrStrontium
Sr Ancylite-(Ce)CeSr(CO3)2(OH) · H2O
Sr StrontianiteSrCO3
Sr Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Sr Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Sr Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Sr OlekminskiteSr(Sr,Ca,Ba)(CO3)2
YYttrium
Y Churchite-(Y)Y(PO4) · 2H2O
ZrZirconium
Zr ZirconZr(SiO4)
Zr CalzirtiteCaZr3TiO9
NbNiobium
Nb RippiteK2(Nb,Ti)2(Si4O12)O(O,F)
Nb Pyrochlore GroupA2Nb2(O,OH)6Z
Nb Pyrochlore Group var. Ceriopyrochlore (of Hogarth 1977)A2Nb2(O,OH)6Z
Nb Fluorcalciopyrochlore(Ca,Na)2(Nb, Ti)2O6F
Nb NiobiumNb
Nb Hydropyrochlore(H2O,□)2Nb2(O,OH)6(H2O)
BaBarium
Ba GorceixiteBaAl3(PO4)(PO3OH)(OH)6
Ba BaryteBaSO4
Ba Romanèchite(Ba,H2O)2(Mn4+,Mn3+)5O10
Ba Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Ba Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Ba HollanditeBa(Mn64+Mn23+)O16
Ba Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
Ba Kinoshitalite(Ba,K)(Mg,Mn2+,Al)3(Al2Si2O10)(OH)2
Ba OlekminskiteSr(Sr,Ca,Ba)(CO3)2
LaLanthanum
La Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
CeCerium
Ce Cerianite-(Ce)(Ce4+,Th)O2
Ce Ancylite-(Ce)CeSr(CO3)2(OH) · H2O
Ce Florencite-(Ce)CeAl3(PO4)2(OH)6
Ce Monazite-(Ce)Ce(PO4)
Ce Parisite-(Ce)CaCe2(CO3)3F2
Ce Synchysite-(Ce)CaCe(CO3)2F
Ce Burbankite(Na,Ca)3(Sr,Ba,Ce)3(CO3)5
Ce Daqingshanite-(Ce)(Sr,Ca,Ba)3(Ce,La)(CO3)3-x(PO4)(OH,F)2x
Ce Khanneshite(Na,Ca)3(Ba,Sr,Ce,Ca)3(CO3)5
ThThorium
Th Cerianite-(Ce)(Ce4+,Th)O2

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Seltmann, R., Soloviev, S., Shatov, V., Pirajno, F., Naumov, E., & Cherkasov, S. (2010). Metallogeny of Siberia: tectonic, geologic and metallogenic settings of selected significant deposits*. Australian Journal of Earth Sciences, 57(6), 655-706
Chebotarev, D. A., Doroshkevich, A. G., & Sharygin, V. V. (2017). Evolution and Formation Conditions for Pyrochlore-supergroup Minerals of Chuktukon Carbonatite Massif, Chadobets Upland (Krasnoyarsk Territory, Russia). In Magmatism of the Earth and related strategic metal deposits (pp. 47-50).
Doroshkevich, A. G., Chebotarev, D. A., Sharygin, V. V., Prokopyev, I. R., & Nikolenko, A. M. (2019). Petrology of alkaline silicate rocks and carbonatites of the Chuktukon massif, Chadobets upland, Russia: Sources, evolution and relation to the Triassic Siberian LIP. Lithos, 332, 245-260.
Prokopyev, I.; Starikova, A.; Doroshkevich, A.; Nugumanova, Y.; Potapov, V. (2020) Petrogenesis of Ultramafic Lamprophyres from the Terina Complex (Chadobets Upland, Russia): Mineralogy and Melt Inclusion Composition. Minerals 10, 419.

Other Regions, Features and Areas containing this locality

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Eurasian PlateTectonic Plate
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