Syenitic migmatites of the contact of the Ilmenogorsky miaskite block are characterized by high (>500 ppm) contents of REEs, which are mainly hosted in fuorapatite and titanite of the leucosome. Apatite exhibits zoned and sectorial composition with decreasing REE and Si contents and increasing Cа, P, and F contents from central parts to the margins indicating the change in physicochemical conditions of mineral formation. The La/Nd ratios of REE-bearing fuorapatite indicate that apatite-1 formed from a F-bearing fuid in contrast to apatite-2 formed from an alkaline, F-CO2-SO3-rich fuid during albitization. The REEs and F released by alkaline metasomatism accumulated in late generation of REE-F-bearing titanite. Migmatization of rocks was accompanied by involvement of an alkaline F-CO2-SO3-bearing fuid.

Figures 4. Table 4. References 19.

Key words: syenitic migmatites, alkaline metasomatism, F-CO2–SO-bearing fuid, REE-bearing fuorapatite, Ilmenogorsky miaskite block. 

А.B. Nemov,  South Urals Federal Research Center of Mineralogy and Geoecology UB RAS,
Ilmeny State Reserve, Miass, Chelyabinsk oblast, 456317 Russia; ya.andrew808@yandex.ru

E.V. Medvedeva, South Urals Federal Research Center of Mineralogy and Geoecology UB RAS, Ilmeny State Reserve, Miass, Chelyabinsk oblast, 456317 Russia;

V.A. Kotlyarov,South Urals Federal Research Center of Mineralogy and Geoecology UB RAS, Institute of Mineralogy, Miass, Chelyabinsk oblast, 456317 Russia;

I.A. Blinov,South Urals Federal Research Center of Mineralogy and Geoecology UB RAS, Institute of Mineralogy, Miass, Chelyabinsk oblast, 456317 Russia

1. Arden K.M., Halden N.M. (1999) Crystallization and alteration history of britholite in rare earthelementenriched pegmatitic segregations associated with the Eden Lake complex, Manitoba, Canada. Canadian Mineralogist, 37(5), 1239–1253.
2. Bazhenov A.G., Bazhenova L.F. (1975) [Trace elements in titanite of Ilmeny alkaline complex]. Materialy k mineralogii Urala: Trudy IGZ [Materials on mineralogy of the Urals: Proceedings of Ilmeny State Reserve], 94–100. (In Russian)
3. Burt D.М. (1989) Compositional and phase relations among Rare Earth Element Minerals. Geochemistry and Mineralogy of Rare Earth Elements. Reviews in Mineralogy, 21, 259–307.
4. Hetzel R., Glodny J. (2002) A crustal-scale, orogen-parallel strike-slip fault in the Middle Urals: age, magnitudeof displacement, and geodynamic signifcance. International Journal of Earth Sciences, 91(2), 231-254.
5. Kabanova L.Yа. (2013) [Migmatites of Ilmenogorsky complex (South Urals)]. Metallogeniya drevnikh i sovremennykh okeanov-2013. Rudonosnost osadochnykh i vulkanogennykh kompleksov [Metalogeny of ancient and modern oceans-2013. Ore content of sedimentary and volcanic complexes]. Miass, IMin UrO RAN, 238-243. (In Russian)
6. Lennyh V.I., Valizer P.M. (2006) [Geological scheme of the Ilmenogorsk complex]. In: Geologiya i mineralogiya Ilmenogorskogo kompleksa: situatsiya i problemy [Geology and mineralogy of Ilmenogorsky complex: situation and problems]. Miass, IGZ UO RAN, 20-27. (In Russian)
7. Levin VYa., Ronenson B.M., Samkov V.S., Levina I.A., Sergeev N.S., Kiselev A.P. (1997) [Alkaline carbonatite complexes of the Urals]. Yekaterinburg, Uralgeolkom, 274 p. (In Russian)
8. Makagonov E.P., Kotlyarov V.A. (2017) [REE, Ba, Sr and Na carbonates in miaskites of the Ilmenogorsky massif (South Urals)]. Mineralogiya [Mineralogy], 3(2), 22-29. (in Russian).
9. Melnikov V.S., Grechanovskaya E.E. (2010) [Pseudomorphic replacement of britholite the Azov zirconium-rare-earth deposits: the role of metamict and metasomatism]. Mіneralogіchniy zhurnal [Mineralogical journal], 32(3), 11-21.
10. Morimoto N. (1988). Nomenclature of pyroxenes. Mineralogy and Petrology, 39(1), 55-76.
11. Nemov A.B. (2017) [Manganoilminite and pyrophanite from syenites of the Ilmeno-Vischnevogorsky alkaline complex (South Urals)]. Vestnik IG Komi NTs UO RAN [Bulletin of the Institute of Geology, Komi Science Center UB RAS], (5), 14-19. (In Russian)
12. Pasero M., Kampf A.R., Ferraris C, Pekov I.V., Rakovan J., White T.J. (2010) Nomenclature of the apatite supergroup minerals. European Journal of Mineralogy, 22(2), 163-179.
13. [Petrografc codex of Russian. Igneous, metamorphic, metasomatic, and impact rocks]. 2008. VSEGEI, 200 p.
14. Ronsbo I.Y. (1989) Coupled substitutions involving REEs and Na and Si in apatites in alka1ine rocks from the Ilimaussag intrusion, South Greenland, and the petrological implications. American Mineralogist, 74, 896-901.
15. Rusin A.I., Krasnobaev A.A., Valizer P.M. (2006) [Geology of the Ilmeny Mountains: situation, problems]. Geologiya i mineralogiya Ilmenogorskogo kompleksa: situatsiya i problemy [Geology and mineralogy Ilmenogorsky complex: situation, problems], Miass, IGZ UrO RAN, 3-9. (In Russian)
16. Sawyer E.W. (2008). Atlas of migmatites Canadian Mineralogist, Special Publication, 9. NRC Research press, 372 p.
17. Smith M.P., Henderson P., Campbell L.S. (2000) Fractionation of the REE during hydrothermal processes: Constraints from the Bayan Obo Fe-REE-Nb deposit, Inner Mongolia, China. Geochimica et Cosmochimica Acta, 64(18), 3141-3160.
18. Trouw R.A.J., Passchier C.W., Wiersma D.J. (2010) Atlas mylonites and related microstructures. Springer, 322 р.
19. Zozulya D.R., Lyalina L.M., Savchenko E.E. (2015) Britholite ores of the Sakharjok Zr-Y-REE deposit, Kola Peninsula: Geochemistry, mineralogy, and formation stages. Geochemistry International, (10), 892-902.