Britholite-(Ce) metaluminous granite from southwestern Egypt (2023)

Arden, KM and Halden, NM (1999). History of crystallization and alteration of britolite in pegmatite segregations enriched with rare earth elements associated with the Eden Lake Complex, Manitoba, Canada.The Canadian mineralogist, 37, 1239–1253. Available from: https://rruff-2.geo.arizona.edu/uploads/CM37_1239.pdfardenK. M., &HaldenNEW MEXICO.(1999).History of crystallization and alteration of britolite in pegmatite segregations enriched with rare earth elements associated with the Eden Lake Complex, Manitoba, Canada.The Canadian mineralogist,37,1239–1253. Available from:https://rruff-2.geo.arizona.edu/uploads/CM37_1239.pdfSearch Google Scholar

Baioumy, H.M., Ismael, I.S. & Zidan, I.H. (2003). Clay mineralogy of the Nubia Formation, Western Desert (Egypt).Geology of the Carpathians, 54, 329–336. Disponível em: file:///C:/Users/IT%20Computer/Downloads/ GeolCarp_Vol54_No5_329_336%20(1).pdfBayoumyS.M.ismaelES., &ZidaneIH(2003).Clay mineralogy of the Nubian Formation, Western Desert (Egypt).Geology of the Carpathians,54,329–336. Available from:archivo:///C:/Users/IT%20Computer/Downloads/ GeolCarp_Vol54_No5_329_336%20(1).pdfSearch Google Scholar

Della Ventura, G., Williams, C.T., Cabella, R., Oberti, R., Caprilli, E., and Bellatreccia, F. (1999). britolite-helandite intergrowths and associated REE minerals from alkali-syenitic ejection from the Vico volcanic complex (Lacio, Italy); Petrological implications on REE mobility in volcanic systems.European Journal of Mineralogy, 11, 843–854. DOI: 10.1127/ejm/11/5/0843of fortuneGRAMS.WilliamsCONECTICUT.CabellarApproachedrcaprilesMI., &beautiful braidF.(1999).britolite-helandite intergrowths and associated REE minerals from alkaline-syenitic ejecta from the Vico volcanic complex (Lazio, Italy); Petrological implications on REE mobility in volcanic systems.European Journal of Mineralogy,11,843–854. DOI:10.1127/ejm/11/5/0843open DOISearch Google Scholar

EGSMA (1981). Geological map of Egypt, scale 1:2,000,000. Mining and Geological Survey Authority, Abbasyia, Cairo, Egypt.EGSMA(1981).Geological map of Egypt, scale 1:2,000,000.Geological Service and Mining Authority,Abbasiya, Cairo, Egypt.Search Google Scholar

Hall, M.G. and Lloyd, G.E. (1981). SEM examination of geological samples with a semiconductor backscattered electron detector.mineralogista americano, 66, 362-368. https://pubs.geoscienceworld.org/msa/ammin/article-abstract/66/3-4/362/41263/ The-SEM-examination-of-geological-samples-with-a?redirectedFrom=fulltextsalaMG, &lloydG. E.(1981).SEM examination of geological samples with a semiconductor backscattered electron detector.mineralogista americano,66,362-368.https://pubs.geoscienceworld.org/msa/ammin/article-abstract/66/3-4/362/41263/ The-SEM-examination-of-geological-samples-with-a?redirectedFrom=fulltextSearch Google Scholar

Hassan, K.M. (2008). Petrography, chemistry and radioactivity of granitoids in the northern Gebel Seri, southwestern desert, Egypt.Isotope and radiation research, 40, 615–629. https://inis.iaea.org/search/search. aspx?orig_q=RN:40047318HasanK. M.(2008).Petrography, chemistry and radioactivity of granitoids in the northern Gebel Seri, southwestern desert, Egypt.Isotope and radiation research,40,615–629.https://inis.iaea.org/search/search. aspx?orig_q=RN:40047318Search Google Scholar

Hassan, KM (2009). Characterization of granites by Mössbauer 57Fe spectroscopy.Mineralogy, 40, 95–106. DOI: 10.2478/v10002-009-0008-xHasankm(2009).Characterization of granites by⁵⁷Fe Mössbauer spectroscopy.Mineralogy,40,95–106. DOI:10.2478/v10002-009-0008-xopen DOISearch Google Scholar

Keevil, B. (1944). Thorium-uranium relationships in rocks and minerals.American scientific magazine, 242, 309-321. https://doi.org/10.2475/ajs.242.6.309KeevilB.(1944).Thorium-uranium relationships in rocks and minerals.American scientific magazine,242,309-321.https://doi.org/10.2475/ajs.242.6.309open DOISearch Google Scholar

Kurdina MA, Kurdina VS and Sidorenko GA. (1961). Britholite and alumobritholite from Siberian alkaline pegmatites.Geologiya mestorozhdenii redkikh elementos, 9, 108–120 (in Russian).KurdistanMOTHER.KurdsVS, &SidorenkoGEORGIA.(1961).Britolite and alumobritolite from Siberian alkaline pegmatites.Geologiya mestorozhdenii redkikh elementos,9,108–120(in Russian).Search Google Scholar

List, F.K., El-Gaby, S. & Tehrani, R. (1989). Underground rocks in the eastern and western deserts and Sinai. InStratigraphic Lexicon and Explanatory Note to the Geological Map of Egypt 1:500000(Hermina, M., Klitzsch, E. & List F. eds.). General Egyptian Petroleum Corporation, Cairo, Egypt (33–56).ListFKEl-GabyS., &tehranr(1989).Basement Rocks in the Eastern and Western Deserts and Sinai.In the stratigraphic lexicon and explanatory note to the geological map of Egypt 1:500000(herminaMETRO.stoneMI.&ListF.publishers).General Petroleum Corporation of Egypt,Cairo, Egypt(33–56).Search Google Scholar

Macdonald, R., Bagiński, B., Dzierżanowski, P. & Jokubauskas, P. (2013). Minerals of the apatite supergroup in Paleogenic granites from the United Kingdom: composition and relationship to host rock composition.European Journal of Mineralogy, 25, 461– 471. https://doi.org/10.1127/0935-1221/2013/0025-2291macdonaldrBaginskyB.DzierzanowskiPAG., &JokubauskasPAG.(2013).Minerals of the apatite supergroup in paleogenic granites from the United Kingdom: composition and relation to host rock composition.European Journal of Mineralogy,25,461–471.https://doi.org/10.1127/0935-1221/2013/0025-2291open DOISearch Google Scholar

Melluso L., De'Gennaro R., Fedele L., Franciosi L., & Morra V. (2012). Evidence of crystallization in residual, Cl-F-rich, apaitic, trachyphonolytic magmas and primitive Mg-rich basalt-trachyphonolite interactions in the lava domes of the Phlegrean Fields (Italy).geological journal, 149, 532–550. https://doi.org/10.1017/ S0016756811000902honeydeweuDe' GennarorlealeuFrencheu, &To diev(2012).Evidences of crystallization in residual, Cl-F-rich, agpaitic, trachyphonolytic magmas and primitive Mg-rich basalt-trachyphonolite interactions in the lava domes of the Phlegrean Fields (Italy).geological journal,149,532–550.https://doi.org/10.1017/S0016756811000902Search Google Scholar

Nash, W.P. (1972). Apatite chemistry and phosphorus fugacity in a differentiated igneous intrusion.mineralogista americano, 57, 877–886. https://pubs.geoscienceworld.org/msa/ammin/article-abstract/57/5-6/877/542646/Apatite-chemistry-and-phosphorus-fugacity-in-a?redirectedFrom=fulltextnashW. P.(1972).Apatite chemistry and phosphorus fugacity in a differentiated igneous intrusion.mineralogista americano,57,877–886.https://pubs.geoscienceworld.org/msa/ammin/article-abstract/57/5-6/877/542646/Apatite-chemistry-and-phosphorus-fugacity-in-a?redirectedFrom=fulltextSearch Google Scholar

Oberti, R., Ottolino, L., Della Ventura, G., and Parodi, G.C. (2001). On symmetry and crystalline chemistry of britolite: new structural and microanalytical data.mineralogista americano, 86, 1066–1075. https://doi. org/10.2138/am-2001-8-913ApproachedrOttolinoeuof fortuneGRAMS., &parodyG. C.(2001).About symmetry and crystalline chemistry of britholite: new structural and microanalytical data.mineralogista americano,86,1066–1075.https://doi. org/10.2138/am-2001-8-913open DOISearch Google Scholar

Orlando P., Perchiazzi, N., and Mannucci, G. (1989). First occurrence of britholite-(Ce) in Italy (Monte Somma, Vesuvius).European Journal of Mineralogy,1, 723-725. https://pubs.geoscienceworld.org/eurjmin/article-abstract/1/5/723/61487/First-occurrence-of-britholite-Ce-in-Italy-MonteorlandoPAG.PerchiazziNORTE., &mannucciGRAMS.(1989).First appearance of britholite-(Ce) in Italy (Monte Somma, Vesuvius).European Journal of Mineralogy,1,723–725.https://pubs.geoscienceworld.org/eurjmin/article-abstract/1/5/723/61487/First-occurrence-of-britholite-Ce-in-Italy-MonteSearch Google Scholar

Pan. Y. and Fleet, ME (2002). Composition of apatite group minerals: substitution mechanisms and control factors.Reviews in Mineralogy and Geochemistry, 48, 13–49. https://doi.org/10.2138/rmg.2002.48.2Pany, &FleetTO ME.(2002).Compositions of apatite group minerals: substitution mechanisms and control factors.Reviews in Mineralogy and Geochemistry,48,13–49.https://doi.org/10.2138/rmg.2002.48.2open DOISearch Google Scholar

Paserop, M., Kampf, A.R., Ferraris, C., Pekov, I.V., Rakovan, J., and White, T.J. (2010). Nomenclature of minerals of the apatite supergroup.European Journal of Mineralogy, 22, 163–179. https://doi.org/10.1127/0935-1221/2010/0022-2022paseropMETRO.KampfARKANSAS.FerrarisC.Pekov4cancerousj, &Brancotj(2010).Nomenclature of minerals of the apatite supergroup.European Journal of Mineralogy,22,163–179.https://doi.org/10.1127/0935-1221/2010/0022-2022open DOISearch Google Scholar

Pekov , I.V. , Passenger , M. , Yaskovskaya , A.N. , Chukanov , N.V. Puscharovsky , D.Y. , Merlino , S. , Zubkova , N.V. , Kononkova , N.N. , Men'shikov , Y.P. and Zadov, A.E. (2007). Fluorcalciobritholite, (Ca,REE)5[(Si,P)O4]3F, a new mineral: description and chemistry of crystals.European Journal of Mineralogy, 19, 95–103. https://doi.org/10.1127/0935-1221/2007/0019-0095Pekov4on boardMETRO.YaskovskayaE.ChukánovNEVADA. puscharovskyD.Y.MarlineS.ZubkovaNEVADAKononkovaN.N.MenshikovE P., &ZadovPHYSICAL EDUCATION.(2007).Fluorcalciobritholite, (Ca, REE)₅[(Si, P)O₄]₃F, a new mineral: crystal description and chemistry.European Journal of Mineralogy,19,95–103.https://doi.org/10.1127/0935-1221/2007/0019-0095open DOISearch Google Scholar

Rudnik, RL and Gao, S. (2003). Composition of the continental crust. In A Treatise on Geochemistry, 3 (Rudnick, R.L., Holland, H.D. & Turekian, K.K. eds.), Elsevier-Pergamon, Oxford (1–64). http://dx.doi.org/10.1016/b0-08-043751-6/03016-4MyR. L.&GaoS.(2003).Composition of the continental crust.No Treatise on geochemistry,3( RudnickR. L.NetherlandsHD&turcoK. K.publishers),Elsevier-Pergamon,Oxford(1–64).http://dx.doi.org/10.1016/b0-08-043751-6/03016-4open DOISearch Google Scholar

Sabet, AH (1972). In the stratigraphy of the basement rocks of Egypt.Annals of the Egyptian Geological Survey, II, 79-102.She foundA.H.(1972).In the stratigraphy of the basement rocks of Egypt.Annals of the Egyptian Geological Survey,II,79–102.Search Google Scholar

Tang M, Rudnick RL, McDonough WF, Gaschnig RM. and Huang, Y. (2015). Europium anomalies constrain the mass of recycled lower continental crust.geology, 43, 703–706. https://doi.org/10.1130/G36641.1ThornMETRO.RudnickR. L.McDonoughW. F.GashnigR. M., &Huangy(2015).Europium anomalies constrain recycled lower continental crust mass.geology,43,703–706.https://doi.org/10.1130/G36641.1open DOISearch Google Scholar

Uher, P., Ondrejka, M., Bačík, P., Broska, I. and Konečný, P. (2015). Britolite, monazite, REE carbonates and calcite: products of hydrothermal alteration of allanite and apatite in type A granite from Stupné, Western Carpathians, Slovakia.the beaches, 236–237, 212–225. https://doi.org/10.1016/j. beaches.2015.09.005cinnamonPAG.OndrejkaMETRO.BacikPAG.BroskaEU., &FinalPAG.(2015).Britolite, monazite, REE carbonates and calcite: hydrothermal alteration products of allanite and apatite in type A granite from Stupné, Western Carpathians, Slovakia.the beaches,236–237212–225.https://doi.org/10.1016/j. beaches.2015.09.005open DOISearch Google Scholar

Vilalva, F.C.J. , Vlach, S.R.F. , & Simonetti , A. (2013). Nacareniobsite-(Ce) and britolite-(Ce) in peralkaline granites from the Morro Redondo Complex, Graciosa Province, Southern Brazil: occurrence and compositional data.The Canadian mineralogist, 51, 313–332. https://doi.org/10.3749/canmin.51.2.313villalbaFCJVlachS.R.F., &SimonettiA.(2013).Nacareniobsite-(Ce) and britolite-(Ce) in peralkaline granites from the Morro Redondo Complex, Graciosa ProvinceAbout Braziloccurrence and composition dataThe Canadian mineralogist,51,313–332.https://doi.org/10.3749/canmin.51.2.313open DOISearch Google Scholar

Yunhua, S. and Lipu, S. (1987). REE geochemistry of the altered crust of acidic volcanic rocks: an experimental study.chinese journal of geochemistry, 6, 165–176. https://link.springer.com/article/10.1007/BF02872217yunhuaS., &BanderaS.(1987).REE geochemistry of the altered crust of acidic volcanic rocks: an experimental study.chinese journal of geochemistry,6,165–176.https://link.springer.com/article/10.1007/BF02872217Search Google Scholar

Zozulya , D. , Lyalina , L. , Macdonald , R. , Bagiński , B. , Savchenko , Y. and Jokubauskas , P. (2019). Britholite group minerals from REE-rich lithologies of Keivy alkali granite: Nepheline Syenite Complex, Kola Peninsula, northwestern Russia.minerals, 9, 732. https://doi.org/10.3390/min9120732.ZozulyaD.LialinaeumacdonaldrBaginskyB.Savchenkoy, &JokubauskasPAG.(2019).Minerals of the britholite group of REE-rich lithologies of Keivy's alkaline granite: Nepheline Syenite Complex, Kola Peninsula, northwestern Russia.minerals,9,732.https://doi.org/10.3390/min9120732open DOISearch Google Scholar