Migrating Cretaceous-Eocene Magmatismin the Serra do Mar Alkaline Province,SE Brazil: Melts from the Deflected Trindade Mantle Plume?

doi:10.1093/petroj/39.8.1493

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Journal of Petrology | Volume 39 | Number 8 | Pages 1493-1526 | 1998
© Oxford University Press 1998

Migrating Cretaceous–Eocene Magmatismin the Serra do Mar Alkaline Province,SE Brazil: Melts from the Deflected Trindade Mantle Plume?

R. N. Thompson¹^,*, S. A. Gibson², J. G. Mitchell³, A. P. Dickin⁴, O. H. Leonardos⁵, J. A. Brod¹^,5 and J. C. Greenwood²

¹ Department of Geological Sciences, University of Durham South Road, Durham DH1 3LE, UK
² Department of Earth Sciences, University of Cambridge Downing Street, Cambridge CB2 3EQ, UK
³ Department of Physics, The University Newcastle Upon Tyne NE1 7RU, UK
⁴ Department of Geology, Mcmaster University 1280 Main Street West, Hamilton, Ont., Canada L8S 4M1
⁵ Departmento De Geoquimca E Recursos Minerais, Instituto De GeociêNcias Universidade De Braslia, 70910 Braslia DF, Brazil

Received July 30, 1997; Revised typescript accepted March 3, 1998

Abstract

The Serra do Mar province extends for $~$ 500 km as plutonic complexes,some with volcanic remnants, and dyke swarms along coastal SEBrazil. The igneous rocks are emplaced into metamorphics ofthe Brasiliano (Pan-African) Ribeira mobile belt, which abutsthe southern margin of the Archaean São Francisco craton.Syenites and phonolites dominate most complexes but mafic–ultramaficdykes (MgO <16.4%) are also widespread, together with sparsemafic lavas. The mafic rocks are alkali basalts, basanites andmelanephelinites, with rare leucitites and minettes (s.l.).Major and trace elements of all but a few of the strongly potassicrock types are indistinguishable from ocean-island basaltic(OIB, s.l.) magmatism. Isotopically (Sr–Nd), the Serrado Mar suite overlaps the field for OIB ( ${varepsilon}$ _Nd up to +2.7) andaseismic ridges, especially Walvis. In general, the most potassiccompositions have the lowest ${varepsilon}$ _Nd values (–1.4 to –3.3).We consider the most plausible source for Serra do Mar maficmagmas to be predominantly sub-lithospheric convecting mantle,with sporadic input from lithospheric metasomites. Additionally,the two most Mg-rich dykes have high ⁸⁷Sr/⁸⁶Sr_i (>0.707),despite ${varepsilon}$ _Nd in the same range as nearby mafic dykes. We attributethis to upper-crust contamination during turbulent emplacementof very hot, low-viscosity magma batches. New K/Ar dates, togetherwith a detailed assessment of published ages, show that theinitiation of Serra do Mar magmatism migrated progressively $~$ 500 km ESE, from Poços de Caldas to Cabo Frio, between $~$ 80 and 55 Ma. It is inferred that the Trindade mantle plumeimpacted at $~$ 85 Ma beneath interior SE Brazil where the lithospherewas too thick (>150 km), except very locally, to permit drydecompression melting and basaltic (s.l.) magma genesis. Instead,strongly alkalic, potassic, lithosphere-source magmatism (includingdiamondiferous kimberlites) broke out penecontemporaneouslyover a region of $~$ 600 km radius. Between $~$ 85 and 80 Ma it is suggestedthat the starting-plume head expanded rapidly beneath the thickcontinental lithospheric lid. This caused regional kilometre-scaleuplift and erosion (evidenced by published apatite fission-trackdata) for 1200 km to the south, together with strongly alkalinemagmatism at Lages, southern Brazil, a site of localized rifting.After $~$ 80 Ma, as the plume tail moved ESE beneath the ArchaeanSão Francisco craton, its magmatic signal at the surfacewas ‘switched off’ by the thick (200–250 km)cratonic lithosphere. Nevertheless, hot plume-tail mantle ‘leaked’progressively southward, until it encountered strongly thinnedlithosphere beneath SE coastal Brazil, along the passive marginof the South American plate, where decompression melting generatedthe predominant OIB-like component of the Serra do Mar magmatism.After 55 Ma this magmatism transferred NE from Cabo Frio tothe Abrolhos Platform (52 Ma), the landward terminus of theseamount chain leading to the islands of Trindade and MartinVaz in the South Atlantic.

KEY WORDS: basic magmas; SE Brazil; Sr–Nd isotopes; Trindade plume track; South Atlantic

^* Corresponding author. r.n.thompson{at}durham.ac.uk

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