Eudialyte-Group Minerals from the Monte De Trigo Alkaline Suite, Brazil

Eudialyte-Group Minerals from the Monte De Trigo Alkaline Suite, Brazil

DOI: 10.1590/2317-4889201620160075 ARTICLE Eudialyte-group minerals from the Monte de Trigo alkaline suite, Brazil: composition and petrological implications Minerais do grupo da eudialita da suíte alcalina Monte de Trigo, Brasil: composição e implicações petrológicas Gaston Eduardo Enrich Rojas1*, Excelso Ruberti1, Rogério Guitarrari Azzone1, Celso de Barros Gomes1 ABSTRACT: The Monte de Trigo alkaline suite is a SiO2- RESUMO: A suíte alcalina do Monte de Trigo é uma associação sie- undersaturated syenite-gabbroid association from the Serra do nítico-gabroide que pertence à província alcalina da Serra do Mar. Mar alkaline province. Eudialyte-group minerals (EGMs) occur in Minerais do grupo da eudialita (EGMs) ocorrem em um dique de ne- one nepheline microsyenite dyke, associated with aegirine-augite, felina microssienito associados a egirina-augita, wöhlerita, lavenita, wöhlerite, låvenite, magnetite, zircon, titanite, britholite, and magnetita, zircão, titanita, britolita e pirocloro. As principais variações pyrochlore. Major compositional variations include Si (25.09– 25.57 composicionais incluem Si (25,09-25,57 apfu), Nb (0,31-0,76 apfu), apfu), Nb (0.31– 0.76 apfu), Fe (1.40–2.13 apfu), and Mn Fe (1,40-2,13 apfu) e Mn (1,36-2,08 apfu). Os EGMs também contêm (1.36– 2.08 apfu). The EGMs also contain relatively high contents concentrações relativamente altas de Ca (6,13-7,10 apfu), enriquecimen- of Ca (6.13– 7.10 apfu), moderate enrichment of rare earth elements to moderado de elementos terras raras (0,38-0,67 apfu) e concentrações (0.38–0.67 apfu), and a relatively low Na content (11.02–12.28 apfu), relativamente baixas de Na (11,02-12,28 apfu), o que pode ser corre- which can be correlated with their transitional agpaitic assemblage. lacionado com uma assembleia agpaítica transicional. As composições EGM compositions indicate a complex solid solution that includes dos EGMs indicam uma solução sólida complexa entre os componentes eudialyte, kentbrooksite, feklichevite, zirsilite-(Ce), georgbarsanovite, eudialita, kentbrooksita, feklichevita, zirsilita-(Ce), georgbarsanovita and manganoeudialyte components. EGM trace element analyses e manganoeudialita. Análises de elementos traços das EGMs mostram show low Sr and Ba contents and a negative Eu/Eu* anomaly, which are baixas concentrações de Sr e Ba e anomalia negativa de Eu/Eu*, que são interpreted as characteristic of the parental magma due to the previous interpretadas como uma característica do magma parental por conta do fractionation of plagioclase and/or alkali feldspar. The EGMs from fracionamento de plagioclásio e/ou feldspato alcalino. Os EGMs da borda the dyke border have higher contents of Fe, Sr (2,161–2,699 ppm), do dique possuem concentrações maiores de Fe, Sr (2.161–2.699 ppm), Mg (1,179–3,582 ppm), and Zn (732– 852 ppm) than those at the Mg (1.179-3.582 ppm) and Zn (732–852 ppm) que aqueles do cen- dyke center. These differences are related to the incorporation of tro do dique. Essas diferenças estão relacionadas com a incorporação de xenoliths and xenocrysts of melatheralitic host rock into the nepheline- xenólitos e xenocristais da rocha encaixante melateralítica no magma syenitic magma followed by crystal-melt diffusive exchange. nefelina-sienítico seguido de trocas difusivas entre os cristais e o líquido. KEYWORDS: mineral chemistry; agpaitic rocks; Serra do Mar al- PALAVRAS-CHAVE: química mineral; rochas agpaíticas, provín- kaline province. cia alcalina da Serra do Mar. 1Instituto de Geociências, University of São Paulo - USP, São Paulo (SP), Brasil. E-mail: [email protected], [email protected], [email protected], [email protected] *Autor correspondente Manuscript: 20160075. Received on: 06/13/2016. Approved on: 08/09/2016 411 Brazilian Journal of Geology, 46(3): 411-426, September 2016 Eudialyte-group minerals from Monte de Trigo INTRODUCTION Sørensen 1997, Andersen et al. 2010, Marks et al. 2011, Schilling et al. 2011b). The eudialyte group minerals (EGMs) consist of vari- The present paper reports the occurrence of EGMs ous Na-, Ca-, and Zr-rich cyclosilicates with a wide com- from the alkaline suite of Monte de Trigo, a small island positional variation. Significant amounts of other elements, (ca. 1 km2) situated near the towns of Sao Paulo and Rio de such as Fe, Mn, Nb, rare earth elements (REE), Sr, and Janeiro, at the western border of the Santos Basin (23º53’S, Cl are reported in EGM compositions (Johnsen & Gault 45º47’W), in southeastern Brazil. They describes major and 1997, Johnsen & Grice 1999, Schilling et al. 2011b). trace element analyses of these EGMs, and their composi- According to the International Mineralogical Association tion is discussed in terms of site assignment and possible (Johnsen et al. 2003), the general formula of the EGMs ideal components. The objectives of the study were to char- is Na12[N(4)]3[M(1)]6[M(2)]3[M(3)][M(4)]Zr3(Si24O72) acterize the EGMs at Monte de Trigo and to understand (O,OH,H2O)4X2, in which the common elements assigned how its petrological environment influences the major and to each site are as it follows: trace element compositions of the EGMs. ■ Si at M(4); ■ Nb, Si, Ti, and W at M(3); ■ Fe, Mn, Na, Zr, K, and H3O at M(2); MAGMATIC CONTEXT ■ Ca, Mn, and Fe at M(1); ■ Na, REE, Sr, K, Ca, Mn, and H3O at N(4); Several late cretaceous alkaline occurrences and widespread ■ Cl, OH, F, and CO3 at X. lamprophyre dyke swarms intrude the Neoproterozoic Ribeira belt in southeastern Brazil and constitute the Serra do Mar Rastsvetaeva & Chukanov (2012) list 25 known species Alkaline Province (Fig. 1A; Almeida 1983, Thompson et al. of EGMs, and recently a new member named Ilyukhinite 1998, Riccomini et al. 2005, Brotzu et al. 2005). This prov- was described (Chukanov et al. 2015). This great diversity ince is part of an extensive Meso-Cenozoic tholeiitic–alka- is the result of the compositional and structural complex- line–carbonatitic magmatism that is spread over the central ity of the group. and southeastern regions of the Brazilian Platform (Morbidelli Eudialyte was first described by Stromeyer (1819) as et al. 1995, Peate 1997, Comin-Chiaramonti & Gomes one of the major constituents of nepheline syenites from 2005). Syenites and nepheline syenites of miaskitic affinity the Ilímaussaq Complex, Greenland. Since then, EGMs (i.e., nepheline syenites containing zircon or titanite or molar have been recognized in nearly all occurrences of agpaitic (Na2O+K2O)/Al2O3 < 1 in bulk-rock composition; Sørensen rocks, i.e., peralkaline nepheline syenites (and phono- 1997, Le Maitre 2002) prevail in many occurrences in the lites) that contain complex silicates of Zr, Ti, REE, F, and Serra do Mar Alkaline Province (Almeida 1983, Brotzu et al. other volatiles (Sørensen 1997, Le Maitre 2002). EGMs 2005). Mafic-ultramafic intrusive lithologies only occur as have been described in agpaitic rocks from Khibiny and small, cumulate bodies associated with the syenitic stocks, Lovozero, Kola Peninsula (Khomyakov 1995, Johnsen & such as in São Sebastião (Enrich et al. 2005) and Morro de São Gault 1997, Schilling et al. 2011b); Mont Saint-Hilaire, João (Brotzu et al. 2007), except for the Ponte Nova mafic-ul- Canada (Johnsen & Gault 1997, Johnsen & Grice 1999, tramafic massif, where felsic rocks are nearly absent (Azzone Schilling et al. 2011b); Langesundsfjord, Norway (Andersen et al. 2009). The presence of agpaitic rocks (i.e., nepheline et al. 2010, Schilling et al. 2011b); Tamazeght, Morocco syenites and phonolites with molar (Na2O+K2O)/Al2O3 > 1 (Schilling et al. 2009, Schilling et al. 2011b); Poços de and complex silicates of Zr, Ti, REE, and F and others vol- Caldas, Brazil (Johnsen & Gault 1997, Ulbrich & Ulbrich atiles; Sørensen 1997, Le Maitre 2002) is restricted to a few 2000, Ulbrich et al. 2005, Schilling et al. 2011b); Cerro localities in this province, usually in small volumes associated Boggiani, Paraguay (Gomes et al. 1996, Carbonin et al. with large miaskitic bodies, as in the Poços de Caldas, Itatiaia, 2005); Pilanesberg, South Africa (Mitchell & Liferovich, and Passa Quatro massifs (Fig. 1A; Brotzu et al. 1992, Brotzu 2006, Schilling et al. 2011a); Sushina Hill, India (Mitchell et al. 1997, Ulbrich & Ulbrich 2000, Enrich et al. 2005, & Chakrabarty, 2012); Agua de Pau volcano, Azores, Ulbrich et al. 2005). Portugal (Ridolfi et al. 2003); and Kilombe volcano, Kenya The Monte de Trigo alkaline suite (86.6 Ma, Enrich Rift Valley (Ridolfi et al. 2006). The typical minerals et al. 2009) is a small, SiO2-undersaturated syenite-gab- associated with EGMs include alkali feldspar, nepheline, broid intrusive suite (Fig. 1A) that belongs to the Serra do sodalite, aegirine, arfvedsonite, and several complex Zr-, Mar alkaline province. According to Enrich et al. (2009), Nb-, Ti-, and REE-bearing silicates, such as astrophyllite, the alkaline suite is composed of different pulses of under- lamprophyllite, rosenbuschite, rinkite, and wöhlerite (e.g., saturated alkaline magmas. The oldest unit comprises a 412 Brazilian Journal of Geology, 46(3): 411-426, September 2016 Gaston Eduardo Enrich Rojas et al. cumulate nepheline-bearing olivine melagabbros, melather- stock and are interpreted as late-stage differentiates of the alites (i.e., melanocratic nepheline gabbro, Le Maitre 2002) nepheline syenite (Enrich et al. 2009). and clinopyroxenites with wide modal variations and lay- ering structures. A leucocratic medium-to-coarse-grained nepheline syenite and nepheline-bearing alkali feldspar NEPHELINE MICROSYENITE DYKES syenite intrude the cumulate mafic-ultramafic unit and compose most of the area of the suite. Alkali feldspar, Miaskitic nepheline microsyenites have hypidiomor- hedenbergite, hastingsite, and biotite are early magmatic phic to allotriomorphic texture with early crystallized alkali phases, whereas nepheline and analcime are late-crystal- feldspar, hastingsite, titanite, apatite, and magnetite, fol- lized phases. Accessory minerals include apatite, magne- lowed by aegirine-augite and late-crystallized nepheline and tite, and titanite and characterize a miaskitic association.

View Full Text

Details

  • File Type
    pdf
  • Upload Time
    -
  • Content Languages
    English
  • Upload User
    Anonymous/Not logged-in
  • File Pages
    16 Page
  • File Size
    -

Download

Channel Download Status
Express Download Enable

Copyright

We respect the copyrights and intellectual property rights of all users. All uploaded documents are either original works of the uploader or authorized works of the rightful owners.

  • Not to be reproduced or distributed without explicit permission.
  • Not used for commercial purposes outside of approved use cases.
  • Not used to infringe on the rights of the original creators.
  • If you believe any content infringes your copyright, please contact us immediately.

Support

For help with questions, suggestions, or problems, please contact us