Potassic and Sodic Igneous Rocks from Eastern Paraguay: their Origin from the Lithospheric Mantle and Genetic Relationships with the Associated Parana flood tholeiites

doi:10.1093/petroj/38.4.495

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Journal of Petrology | Volume 38 | Number 4 | Pages 495-528 | 1997
© Oxford University Press 1997

Potassic and Sodic Igneous Rocks from Eastern Paraguay: their Origin from the Lithospheric Mantle and Genetic Relationships with the Associated Paraná flood tholeiites

P. Comin-Chiaramonit¹^,*, A. Cundari², E.M. Piccirillo³, C.B. Gomes⁴, F. Castorina⁵, P. Censi⁶, A. De Min³, A. Marzoli³, S. Speziale⁶ and V.F. Velázquez⁴

¹ Dipartimento di Ingegneria Chimica, Dell'Ambiente e Delle Materie Prime, University of TriestePiazzale Europa 1, I-34127 Trieste, Italy
² Dipartimento di Geofisica Vulcanologia, ‘Federuco II’ University, LargosMarcellino 10, I-80138 Naples, Italy
³ Dipartimento di Scienze Della Terra, University of TriesteVia E Weiss 8, I-34127 Trieste, Italy
⁴ Instituto de Geocièncias, Universidade de Sãao PauloCP 30627, 01051 São Paulo, SP, Brazil
⁵ Dipartimento di Scienze Della Terra, ‘La Sapienze’ UniversityPiazzale Aldo Moro 5, I-00185, Rome, Italy
⁶ Istituto di Mineralogia, Petrografia e Geochimica, University of PalermoVia Archirafi 36, I-90100, Palermo, Italy

Received June 4, 1996; Revised typescript accepted November 7, 1996

Abstract

Eastern Paraguay represents the westernmost fringe of EarlyCretaceous Parana flood tholeiites (Serra Geral Formation SGF).Besides the SGF, eastern Paraguay has been the site of alkalinemagmatism since Mesozoic times: (1) Late Permian-Early Triassicsodic intrusions and lavas: (2) Early Cretaceous potassic igneousrocks and very scarce sodic lavas (3) Late Cretaceous–Oligocenesodic lavas. Two distinct magmatic events are dominant in theAsuncion–Sapucai graben (ASU) eastern Paraguay: (1) wide-spreadpotassic magmatism and SGF tholeiites (Early Cretaceous) (2)Asuncion sodic magmatism (Late Cretaceous–Oligocene).The potassic rocks form a compositional continuum from moderatelyto strongly potassic. Two potassic suites are proposed, i.e.basanite to phonolite and alkali basalt to trachyte and theirintrusive analogues. The sodic rocks include ankaratites, nephelinitesand phonolites. Two similar but distinct parental magmas havebeen inferred for the potassic suites, both characterized bystrongly fractionated REE and negative ‘Ta–Nb–Tianomalies’. Slight positive Ta and Nb anomalies distinguishthe sodic rocks. Sr–Nd isotope data confirm the distinctionof the potassic rocks, enriched in radiogenic Sr and low inradiogenic Nd, from the sodic rocks, close to bulk Earth. Crustalcontamination does not appear to have been significant in thegeneration of the investigated rocks, supported by ${delta}$ ¹⁸O data.The source of potassic rocks is constrained by high LILE, LREE,Th, U and K, relative to a primitive mantle composition, anda garnet peridotite is favoured as a possible mantle sourcefor the investigated rocks. The close association of potassicand sodic rock suites in the ASU demands that their parentalmagmas derived from a heterogeneous subcontinental mantle, variouslyenriched in incompatible elements. Significant H₂O, CO₂ andF are expected in the mantle source(s) for the occurrence ofcoeval carbonatites. Any genetic hypothesis based on a ‘mantleplume’ system is constrained by strong lithospheric mantlecharacteristics. This does not preclude that thermal perturbationsfrom the asthenosphere may have trggered magmatic activity inthe lithospheric mantle. Model ages indicate that two distinctmetasomatic events may have occurred during Late and Early–MiddleProterozoic as precursor to the genesis of tholeiitic and alkalinemagmatism in the Parana basin. These metasomatic processes werechemically distinct, indicated by the strong differences inTi, LILE and HFSE concentrations found in both alkaline provinces(e.g. potassic rocks from ASU vs Alto Paranaiba Igneous Province)and Parana tholeiites (low vs high Ti). Ingeneral, the relationshipsbetween the alkaline rocksfrom southeastern Brazil, i.e. AltoParanaiba,Ponta Grossa Arch, Serra do Mar, Lages and the flood basaltsof the Parana Basin, support a common origin in the lithosphericmantle. Sr–Nd isotope and other geochemical data indicatethat a significant role was played by a mantle component depletedin incompatible elements and with high Sm/Nd ratio. This component(N-MORB type) would be represented by the depleted portionsof a mantle which was variously metasomatized during Proterozoictimes. The isotopic and geochemical features of the modernTristanda Cunha plume are distinctly different from the component depletedin incompatible elements, and its contribution is not apparentin the compositions of the Parana tholeiites.

KEY WORDS: Alkaline magmatism; Paraguay; petrogenesis; Sr–Nd isotopes

^* Corresponding author. Fax: 0039 40 569 823.

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