Your search keyword '"Baldo, Edgardo G"' showing total 98 results

1. Cambro-Ordovician stratigraphic record of two distinctive Famatinian belts fringing SW Gondwana: insights from SHRIMP U–Pb zircon ages and geochemistry from the Sierra de Famatina (NW Argentina)

Author

Ramacciotti, Carlos D., Casquet, César, Cámera, Matías M. Morales, Murra, Juan A., Larrovere, Mariano A., Dahlquist, Juan A., Verdecchia, Sebastián O., Alasino, Pablo H., Wuest, Carlos I. Lembo, and Baldo, Edgardo G.

Published

2024

2. The El Gigante Metamorphic Complex: A missing block with a Grenville-age basement in the Western Sierras Pampeanas, Argentina

Author

Lembo Wuest, Carlos I., Murra, Juan A., Verdecchia, Sebastián O., Ramacciotti, Carlos D., Baldo, Edgardo G., Casquet, César, Zandomeni, Priscila S., Dahlquist, Juan A., Herazo, Lorena, and Pankhurst, Robert J.

Published

2024

3. The El Gigante Metamorphic Complex: A missing block with a Grenville-age basement in the Western Sierras Pampeanas, Argentina

Author

Lembo Wuest, C.I., Murra, Juan Alberto, Verdecchia, Sebastián, Ramacciotti, Carlos, Baldo, Edgardo G., Casquet Martín, César, Zandomeni, Priscila S., Dahlquist, Juan A., Herazo, Lorena, Pankhurst, R.J., Lembo Wuest, C.I., Murra, Juan Alberto, Verdecchia, Sebastián, Ramacciotti, Carlos, Baldo, Edgardo G., Casquet Martín, César, Zandomeni, Priscila S., Dahlquist, Juan A., Herazo, Lorena, and Pankhurst, R.J.

Abstract

The southwestern paleo-margin of Gondwana is interpreted as an accretionary margin that was active from the late Neoproterozoic to the late Paleozoic. The basement of this paleo-margin is widely exposed in the central-western part of Argentina (Sierras Pampeanas area), where a protracted evolution from the Mesoproterozoic to the late Paleozoic is recorded. Part of this evolution is preserved in the El Gigante Metamorphic Complex (Sierra de El Gigante; Western Sierras Pampeanas), a small rotated block within the Valle Fértil Lineament fault zone that separates the Western and Eastern Sierras Pampeanas. The complex is composed of medium-grade meta-siliciclastic and meta-carbonate rocks and medium- to high-grade meta-igneous rocks, affected by tight to isoclinal folds and a pervasive east–west foliation resulting from the Famatinian orogeny (broadly late Cambrian to early Devonian). Later events include localized ductile shear zones. The isotopic and geochronological data from El Gigante Metamorphic Complex reveal at least three distinct lithological assemblages: (1) metamorphosed felsic igneous rocks of ca. 1.11 Ga, i.e., late Mesoproterozoic, (2) a Neoproterozoic metasedimentary succession composed of quartzites and mica-schists, (3) possibly mid- to late-Cambrian marble and graphite-schist. The Grenvillian assemblage (1) was part of a large reworked Paleoproterozoic continental block called MARA (acronym of Maz-Arequipa-Río Apa) and was the basement over which the Neoproterozoic and Cambrian sedimentary successions were deposited. Based on U-Pb zircon ages, lithological similarities and Sr-isotope data, the three lithological assemblages of the El Gigante Metamorphic Complex can be correlated with similar ones in the nearby geologically better-known Sierra de Pie de Palo. The Neoproterozoic and the Cambrian metasedimentary successions are respectively equivalent to the Difunta Correa Metasedimentary Sequence and the Nikizanga-Caucete Groups, which are recognized thr, Fondo para la Investigación Científica y Tecnológica, Argentina, Secretaría de Ciencia y Tecnología, Universidad Nacional de Córdoba, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2024

4. Gneises con granate + antofilita en el basamento mesoproterozoico de los Andes (Sierra de Maz, La Rioja, Argentina): Historia metamórfica y termobarometría

Author

Segovia Díaz, Emilio, Casquet Martín, César, Baldo, Edgardo G., Segovia Díaz, Emilio, Casquet Martín, César, and Baldo, Edgardo G.

Abstract

Fecha de recepción: 15 de Febrero de 2011 / Fecha de revisión: 28 de Abril de 2011 / Fecha de aceptación: 27 de Mayo de 2011. Copyright© 2011 Sociedad Geológica de España., En la Sierra de Maz (Argentina) afloran gneises de composición mineralógica poco frecuente: presentan ortoanfíbol + granate y ausencia de cordierita. Estas rocas, además, se caracterizan por registrar dos eventos metamórficos superpuestos: un evento M1 en facies granulitas, de edad grenvilliana (ca. 1.2 Ga) y un evento M2 en facies anfibolitas, de edad Famatiniana (ca. 460 Ma). La presión y la temperatura de este último evento han sido determinadas con una pseudosección P-T en el sistema NCKFMASH, obteniéndose como resultado unos valores de aprox. 675 ºC y 9.4 kbar. La pseudosección confirma que la presencia de cordierita se restringe a condiciones más bajas de P. Este es el primer estudio con técnicas modernas de termobarometría de una paragénesis de este tipo., In the Sierra de Maz (Argentina) high-grade gneisses occurs with an uncommon mineralogical composition: orthoamphibole + garnet, without cordierite. These rocks underwent two superimposed metamorphic events: M1, under granulite facies conditions, Grenvillian (ca. 1.2 Ga), and M2, under amphibolites facies conditions, Famatinian (ca. 460 Ma). Pressure and temperature of the latter event have been calculated by isopleth intersection on a P-T pseudosection in the system NCKFMASH. Resulting values were ca. 675 ºC and 9.4 kbar. Moreover pseudosection modelling shows that cordierite is restricted to lower P conditions. This is the first case that this type of paragenesis is modelled with modern thermobarometry techniques., Ministerio de Ciencia e Innovación (España), Ministerio de Ciencia e Innovación (España), Universidad Complutense de Madrid - Banco Santander, Fondo para la Investigación Científica y Tecnológica (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2024

5. Early Ordovician magmatism in the Sierra de Ancaján, Sierras Pampeanas (Argentina): implications for the early evolution of the proto-Andean margin of Gondwana

Author

Zandomeni, Priscila S., Verdecchia, Sebastian O., Baldo, Edgardo G., Galindo, Carmen, Moreno, Juan A., Dahlquist, Juan A., Casquet, Cesar, Camera, Matias, Morales M., Basei, Miguel A.S., and Ramacciotti, Carlos D.

Published

2021

6. A review of the Famatinian Ordovician magmatism in southern South America: evidence of lithosphere reworking and continental subduction in the early proto-Andean margin of Gondwana

Author

Rapela, Carlos W., Pankhurst, Robert J., Casquet, César, Dahlquist, Juán A., Mark Fanning, C., Baldo, Edgardo G., Galindo, Carmen, Alasino, Pablo H., Ramacciotti, Carlos D., Verdecchia, Sebastián O., Murra, Juán A., and Basei, Miguel A.S.

Published

2018

7. Review of the Cambrian Pampean orogeny of Argentina; a displaced orogen formerly attached to the Saldania Belt of South Africa?

Author

Casquet, César, Dahlquist, Juán A., Verdecchia, Sebastián O., Baldo, Edgardo G., Galindo, Carmen, Rapela, Carlos W., Pankhurst, Robert J., Morales, Matias M., Murra, Juán A., and Mark Fanning, C.

Published

2018

8. A Cambrian mixed carbonate–siliciclastic platform in SW Gondwana: evidence from the Western Sierras Pampeanas (Argentina) and implications for the early Paleozoic paleogeography of the proto-Andean margin

Author

Ramacciotti, Carlos D., Casquet, César, Baldo, Edgardo G., Galindo, Carmen, Pankhurst, Robert J., Verdecchia, Sebastián O., Rapela, Carlos W., and Fanning, Mark

Published

2018

9. Silurian inverted Barrovian-type metamorphism in the Western Sierras Pampeanas (Argentina): a case of top to bottom heating?

Author

Verdecchia, Sebastián O., primary, Casquet, Cesar, additional, Baldo, Edgardo G., additional, Larrovere, Mariano A., additional, Lembo Wuest, Carlos I., additional, Benítez, Manuela E., additional, Ramacciotti, Carlos D., additional, Murra, Juan A., additional, and Pankhurst, Robert J., additional

Published

2023

10. Silurian inverted Barrovian-type metamorphism in the Western Sierras Pampeanas (Argentina): a case of top to bottom heating?

Author

Verdecchia, Sebastián, Casquet Martín, César, Baldo, Edgardo G., Larrovere, Mariano Alexis, Benítez, Manuela E., Ramacciotti, Carlos, Murra, Juan Alberto, Pankhurst, R.J., Verdecchia, Sebastián, Casquet Martín, César, Baldo, Edgardo G., Larrovere, Mariano Alexis, Benítez, Manuela E., Ramacciotti, Carlos, Murra, Juan Alberto, and Pankhurst, R.J.

Abstract

This paper focuses on one orogenic belt that formed during the Rinconada phase on the final stage of the Famatinian orogeny, between 445 and 410 Ma, which is well exposed at Sierra de Ramaditas and neighbouring ranges in western Argentina. The Ramaditas Complex is formed by metasedimentary and meta-ultrabasic rocks and amphibolites. This complex forms the upper nappe of a thrust stack resulting from westward thrusting. Deformation consists of an early high-temperature S1 foliation (stromatic migmatites), coeval with thrusting and metamorphism. Metamorphism attained peak P–T conditions of 6.0–6.9 kbar and 795–810 °C, at c. 440 Ma, i.e. coincident with the Rinconada orogenic phase. The lower unit and intermediate nappes crop out in the nearby sierras of Maz and Espinal and underwent low- to medium-grade Silurian metamorphism, respectively, together with the upper nappe, defining an inverted Barrovian-type metamorphism with T decreasing and P increasing downwards across the thrust stack (i.e. westward). We argue that the Rinconada orogenic phase developed near the continental margin of SW Gondwana, during a magmatic lull following accretion of the Precordillera terrane to the continental margin at c. 470 Ma. The active margin jumped to the west after accretion, and flat-slab subduction resumed in the early Silurian, provoking thrusting and imbrication of nappe stack under the still hot root (800–900 °C) of the older Famatinian magmatic arc. This ‘hot-iron’ process explains both the inverted Barrovian-type metamorphism and the missing overburden of 21 to 24 km implied by the P estimate., CONICET, FONCYT, Ministerio de Economía y Competitividad, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2023

11. Exploring paleoproterozoic metamorphism in the western Río de la Plata craton from drill-core evidence

Author

Verdecchia, Sebastián Osvaldo, Benítez, Manuela E., Lembo Wuest, C.I., Casquet Martín, César, Baldo, Edgardo G., Rapela, Carlos W., Pankhurst, R.J., Moreno Moreno, Juan Antonio, Zandomeni, Priscila S., Verdecchia, Sebastián Osvaldo, Benítez, Manuela E., Lembo Wuest, C.I., Casquet Martín, César, Baldo, Edgardo G., Rapela, Carlos W., Pankhurst, R.J., Moreno Moreno, Juan Antonio, and Zandomeni, Priscila S.

Abstract

Rhyacian basement is not exposed in the western part of the Río de la Plata craton, but deep borehole samples (depth of 1046–3340 m) provide information on its composition and metamorphic evolution. An amphibole schist sample from the Camilo Aldao borehole underwent two metamorphic stages: M1 and M2. The P-T conditions of M1 are not constrained whereas the M2 main metamorphic stage is characterized by conditions of 6.1–7.4 kbar and 575–605 °C. In contrast, an olivine gabbronorite sample from the Santiago Temple borehole records crystallization conditions of 1.7 ± 0.6 kbar and 1180 ± 10 °C based on clinopyroxene composition, and late magmatic to subsolidus low-pressure granulite facies metamorphism at 2.3 ± 1.2 kbar and 749 ± 85 °C based on multi-equilibrium thermobarometry. The Rhyacian evolution of the Río de la Plata craton is characterized by at least three thermo-tectonic orogenic stages: T1 (ca. 2200–2100 Ma), T2 (ca. 2100–2040 Ma), and T3 (ca. 2040–2010 Ma) that correspond respectively to: 1) early oceanic subduction and juvenile continental arc magmatism; 2) subsequent continental collision (clockwise intermediate P/T paths of metamorphism), and 3) final low-pressure metamorphism coeval with post-orogenic magmatism. The Camilo Aldao amphibole schist is representative of the T2 orogenic stage while the Santiago Temple gabbronorite is representative of T3 magmatism and metamorphism., Ministerio de Economía y Competitividad, CONICET, Fondo para la Investigación Científica y Tecnológica, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2023

12. Síntesis geocronológica de la evolución paleozoica inferior del borde sur occidental de Gondwana en las Sierras Pampeanas, Argentina

Author

Baldo, Edgardo G., Saavedra, Julio, Rapela, Carlos W., Pankhurst, R.J., Casquet Martín, César, Galindo Francisco, María Del Carmen, Baldo, Edgardo G., Saavedra, Julio, Rapela, Carlos W., Pankhurst, R.J., Casquet Martín, César, and Galindo Francisco, María Del Carmen

Abstract

Las Sierras Pampeanas Argentinas constituyen un buen registro de la evolución Pre-Devónica del margen sur occidental del Gondwana. Los trabajos multidisciplinarios recientes y especialmente la información geocronológica, recolectada a lo largo de una transecta E-W de aproximadamente unos 500 km, permiten precisar la edad y los rasgos geológicos de los dos principales ciclos tectono-magmáticos involucrados en la evolución paleozoica inferior de esta parte del basamento argentino. El Ciclo Orogénico Pampeano comienza con una etapa de sedimentación en un margen pasivo (560-530 Ma), que evoluciona hacia una situación de margen activo con generación de un arco magmático tipo Andino, a los 533 - 528 Ma. El ciclo finaliza hacia los 523 Ma. en una colisión de tipo ortogonal, con un importante engrosamiento cortical, anatexis regional y generación de granitos "S". El "Ciclo Orogénico Famatiniano" se inicia a los 499-496 Ma y se caracteriza por la implantación de un arco magmático intemo de tipo trondhjemitico, seguido hacia el oeste por un importante arco magmático externo, contemporáneo con el anterior y formado por granodioritas de tipo "1" y grandes batolitos graníticos de tipo "S". Durante el Famatiniano tiene también lugar la formación de una cuenca de retroarco ensiálica con magmatismo básico. El final de este ciclo (450-420 Ma) está marcado por el desarrollo de importantes fajas de milonitización que marcan la colisión oblicua del Terreno Precordillera respecto al margen de Gondwana, Comunidad Europea, Ministeno de Educación y Cultura de España (Proyecto PB97-1246), CONICET, Argentina, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2023

13. Silurian inverted Barrovian-type metamorphism in the Western Sierras Pampeanas (Argentina): a case of top to bottom heating?

Author

Verdecchia, Sebastián O., Casquet, Cesar, Baldo, Edgardo G., Larrovere, Mariano A., Lembo Wuest, Carlos I., Benítez, Manuela E., Ramacciotti, Carlos D., Murra, Juan A., Pankhurst, Robert J., Verdecchia, Sebastián O., Casquet, Cesar, Baldo, Edgardo G., Larrovere, Mariano A., Lembo Wuest, Carlos I., Benítez, Manuela E., Ramacciotti, Carlos D., Murra, Juan A., and Pankhurst, Robert J.

Abstract

This paper focuses on one orogenic belt that formed during the Rinconada phase on the final stage of the Famatinian orogeny, between 445 and 410 Ma, which is well exposed at Sierra de Ramaditas and neighbouring ranges in western Argentina. The Ramaditas Complex is formed by metasedimentary and meta-ultrabasic rocks and amphibolites. This complex forms the upper nappe of a thrust stack resulting from westward thrusting. Deformation consists of an early high-temperature S1 foliation (stromatic migmatites), coeval with thrusting and metamorphism. Metamorphism attained peak P–T conditions of 6.0–6.9 kbar and 795–810 °C, at c. 440 Ma, i.e. coincident with the Rinconada orogenic phase. The lower unit and intermediate nappes crop out in the nearby sierras of Maz and Espinal and underwent low- to medium-grade Silurian metamorphism, respectively, together with the upper nappe, defining an inverted Barrovian-type metamorphism with T decreasing and P increasing downwards across the thrust stack (i.e. westward). We argue that the Rinconada orogenic phase developed near the continental margin of SW Gondwana, during a magmatic lull following accretion of the Precordillera terrane to the continental margin at c. 470 Ma. The active margin jumped to the west after accretion, and flat-slab subduction resumed in the early Silurian, provoking thrusting and imbrication of nappe stack under the still hot root (800–900 °C) of the older Famatinian magmatic arc. This ‘hot-iron’ process explains both the inverted Barrovian-type metamorphism and the missing overburden of 21 to 24 km implied by the P estimate.

Published

2023

14. Silurian inverted Barrovian-type metamorphism in the Western Sierras Pampeanas (Argentina): a case of top to bottom heating?

Author

0000-0002-1912-3911, Casquet, Cesar [0000-0002-1868-870X], #NODATA#, 0000-0002-0317-0019, Verdecchia, Sebastián O., Casquet, Cesar, Baldo, Edgardo G., Larrovere, Mariano A., Lembo Wuest, Carlos I., Benítez, Manuela E., Ramacciotti, Carlos D., Murra, Juan A., Pankhurst, Robert J., 0000-0002-1912-3911, Casquet, Cesar [0000-0002-1868-870X], #NODATA#, 0000-0002-0317-0019, Verdecchia, Sebastián O., Casquet, Cesar, Baldo, Edgardo G., Larrovere, Mariano A., Lembo Wuest, Carlos I., Benítez, Manuela E., Ramacciotti, Carlos D., Murra, Juan A., and Pankhurst, Robert J.

Abstract

This paper focuses on one orogenic belt that formed during the Rinconada phase on the final stage of the Famatinian orogeny, between 445 and 410 Ma, which is well exposed at Sierra de Ramaditas and neighbouring ranges in western Argentina. The Ramaditas Complex is formed by metasedimentary and meta-ultrabasic rocks and amphibolites. This complex forms the upper nappe of a thrust stack resulting from westward thrusting. Deformation consists of an early high-temperature S1 foliation (stromatic migmatites), coeval with thrusting and metamorphism. Metamorphism attained peak P-T conditions of 6.0-6.9 kbar and 795-810 °C, at c. 440 Ma, i.e. coincident with the Rinconada orogenic phase. The lower unit and intermediate nappes crop out in the nearby sierras of Maz and Espinal and underwent low- to medium-grade Silurian metamorphism, respectively, together with the upper nappe, defining an inverted Barrovian-type metamorphism with T decreasing and P increasing downwards across the thrust stack (i.e. westward). We argue that the Rinconada orogenic phase developed near the continental margin of SW Gondwana, during a magmatic lull following accretion of the Precordillera terrane to the continental margin at c. 470 Ma. The active margin jumped to the west after accretion, and flat-slab subduction resumed in the early Silurian, provoking thrusting and imbrication of nappe stack under the still hot root (800-900 °C) of the older Famatinian magmatic arc. This 'hot-iron' process explains both the inverted Barrovian-type metamorphism and the missing overburden of 21 to 24 km implied by the P estimate.

Published

2023

15. Isotope (Sr, C) and U–Pb SHRIMP zircon geochronology of marble-bearing sedimentary series in the Eastern Sierras Pampeanas, Argentina. Constraining the SW Gondwana margin in Ediacaran to early Cambrian times

Author

Murra, Juan A., Casquet, Cesar, Locati, Francisco, Galindo, Carmen, Baldo, Edgardo G., Pankhurst, Robert J., and Rapela, Carlos W.

Published

2016

16. Ferro-ferri-katophorite, a new clinoamphibole from the silicocarbonatite dikes in Sierra de Maz, La Rioja (Argentina)

Author

Colombo, Fernando, primary, Rius, Jordi, additional, Molins, Elies, additional, Biglia, Héctor, additional, Galliski, Miguel Á., additional, Márquez-Zavalía, María Florencia, additional, Baldo, Edgardo G. A., additional, and Kriscautzky, Agustín, additional

Published

2023

17. U–Pb SHRIMP detrital zircon ages from the Neoproterozoic Difunta Correa Metasedimentary Sequence (Western Sierras Pampeanas, Argentina): Provenance and paleogeographic implications

Author

Ramacciotti, Carlos D., Baldo, Edgardo G., and Casquet, César

Published

2015

18. The Capilla del Monte pluton, Sierras de Córdoba, Argentina: the easternmost Early Carboniferous magmatism in the pre-Andean SW Gondwana margin

Author

Dahlquist, Juan A., Pankhurst, Robert J., Rapela, Carlos W., Basei, Miguel A. S., Alasino, Pablo H., Saavedra, Julio, Baldo, Edgardo G., Murra, Juan A., and da Costa Campos Neto, Mario

Published

2016

19. Late Famatinian (440–410 Ma) overprint of Grenvillian metamorphism in Grt‐St schists from the Sierra de Maz (Argentina): Phase equilibrium modelling, geochronology, and tectonic significance

Author

Verdecchia, Sebastián O., primary, Ramacciotti, Carlos D., additional, Casquet, Cesar, additional, Baldo, Edgardo G., additional, Murra, Juan A., additional, and Pankhurst, Robert J., additional

Published

2022

20. Late Famatinian (440–410 Ma) overprint of Grenvillian metamorphism in Grt-St schists from the Sierra de Maz (Argentina): Phase equilibrium modelling, geochronology, and tectonic significance

Author

Verdecchia, Sebastián, Ramacciotti, Carlos, Casquet Martín, César, Baldo, Edgardo G., Murra, Juan Alberto, Pankhurst, R.J., Verdecchia, Sebastián, Ramacciotti, Carlos, Casquet Martín, César, Baldo, Edgardo G., Murra, Juan Alberto, and Pankhurst, R.J.

Abstract

The analysis of major and trace elements in zoned minerals is useful for deciphering parts of the tectonothermal evolution of polymetamorphic tarrain. We applied this approach to the Maz Metasedimentary Series in Western Sierras Pampeanas of Argentina, where polymetamorphism resulted in the overprinting of a Grenvillian basement (the Maz Complex) during the pervasive Rinconada tectonic phase of the Famatinian orogeny. The older metamorphism (M1) is assigned to the youngest Grenvillian metamorphic event recognized in this basement at c. 1035 Ma, whereas the Rinconada metamorphism (M2) was Silurian to early Devonian, essentially between 440 and 410 Ma. The latter resulted from oceanward migration of the orogenic front relative to earlier late Cambrian to Ordovician (490–470 Ma) tectonic phases of the Famatinian orogeny. The M1 and M2 metamorphic events have been recognized in a staurolite-garnet schist from the Maz Metasedimentary Series. Most metamorphic minerals from this rock were formed during the M2 event which was of the Barrovian type (±kyanite). Part of the metamorphic P–T evolution is recorded in the complex compositional zoning of garnet porphyroblasts. Three types of garnet were identified based on texture and chemistry, including trace elements (REEs). Phase equilibrium analysis, compositional isopleth, and multi-equilibrium thermobarometry were applied in order to establish the P–T history. M1 is represented by preservation of Grt1 ± Kfs ± Sil, with peak P–T condition of 790°C and 5.2 kbar, that is, granulite facies. This early metamorphic event was related to a deformational D1 episode represented by a relict S1 foliation. The latter is preserved as aligned inclusions in staurolite porphyroblasts and as relics of an older crenulated foliation in microlithons from the matrix. M2 followed a clockwise P–T path with three mineral growth stages. The earliest occurred at ~585°C and ~8.7 kbar and is represented by Grt2 ± St1 ± Bt1 + Qz. Grt2 was partially coeva, CICTERRA, CONICET-UNC, Ministerio de Econmía y Competitividad, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2022

21. Late Famatinian (440–410 Ma) overprint of Grenvillian metamorphism in Grt‐St schists from the Sierra de Maz (Argentina): Phase equilibrium modelling, geochronology, and tectonic significance

Author

Verdecchia, Sebastián O., Ramacciotti, Carlos D., Casquet, Cesar, Baldo, Edgardo G., Murra, Juan A., Pankhurst, Robert J., Verdecchia, Sebastián O., Ramacciotti, Carlos D., Casquet, Cesar, Baldo, Edgardo G., Murra, Juan A., and Pankhurst, Robert J.

Abstract

The analysis of major and trace elements in zoned minerals is useful for deciphering parts of the tectonothermal evolution of polymetamorphic tarrain. We applied this approach to the Maz Metasedimentary Series in Western Sierras Pampeanas of Argentina, where polymetamorphism resulted in the overprinting of a Grenvillian basement (the Maz Complex) during the pervasive Rinconada tectonic phase of the Famatinian orogeny. The older metamorphism (M1) is assigned to the youngest Grenvillian metamorphic event recognized in this basement at c. 1035 Ma, whereas the Rinconada metamorphism (M2) was Silurian to early Devonian, essentially between 440 and 410 Ma. The latter resulted from oceanward migration of the orogenic front relative to earlier late Cambrian to Ordovician (490–470 Ma) tectonic phases of the Famatinian orogeny. The M1 and M2 metamorphic events have been recognized in a staurolite-garnet schist from the Maz Metasedimentary Series. Most metamorphic minerals from this rock were formed during the M2 event which was of the Barrovian type (±kyanite). Part of the metamorphic P–T evolution is recorded in the complex compositional zoning of garnet porphyroblasts. Three types of garnet were identified based on texture and chemistry, including trace elements (REEs). Phase equilibrium analysis, compositional isopleth, and multi-equilibrium thermobarometry were applied in order to establish the P–T history. M1 is represented by preservation of Grt1 ± Kfs ± Sil, with peak P–T condition of 790°C and 5.2 kbar, that is, granulite facies. This early metamorphic event was related to a deformational D1 episode represented by a relict S1 foliation. The latter is preserved as aligned inclusions in staurolite porphyroblasts and as relics of an older crenulated foliation in microlithons from the matrix. M2 followed a clockwise P–T path with three mineral growth stages. The earliest occurred at ~585°C and ~8.7 kbar and is represented by Grt2 ± St1 ± Bt1 + Qz. Grt2 was partially coeva

Published

2022

22. Comments on Bahlburg (2021), A Silurian-Devonian active margin in the proto- Andes –new data on an old conundrum: International Geology Review doi.org/10.1080/00206814.2021.2012719

Author

Dahlquist, Juan A., primary, Morales Cámera, Matías M., additional, Alasino, Pablo H., additional, Pankhurst, Robert J., additional, Rapela, Carlos W., additional, Moreno, Juan A., additional, Baldo, Edgardo G., additional, and Rocher, Sebastián, additional

Published

2022

23. Los mármoles cálcicos de El Escorial (Complejo Metamórfico Cushamen, Macizo Norpatagónico): caracterización isotópica de 87Sr-86Sr y edad de sedimentación

Author

Murra, Juan A., primary, Baldo, Edgardo G., additional, Verdecchia, Sebastián O., additional, Ramacciotti, Carlos D., additional, and Galindo, Carmen, additional

Published

2021

24. A review of Devonian–Carboniferous magmatism in the central region of Argentina, pre-Andean margin of SW Gondwana

Author

Dahlquist, Juan A., primary, Morales Cámera, Matías M., additional, Alasino, Pablo H., additional, Pankhurst, Robert J., additional, Basei, Miguel A.S., additional, Rapela, Carlos W., additional, Moreno, Juan A., additional, Baldo, Edgardo G., additional, and Galindo, Carmen, additional

Published

2021

25. Extending the Pampean orogen in western Argentina: New evidence of Cambrian magmatism and metamorphism within the Ordovician Famatinian belt revealed by new SHRIMP U–Pb ages

Author

Larrovere, Mariano A., primary, Casquet, César, additional, Aciar, R. Hernán, additional, Baldo, Edgardo G., additional, Alasino, Pablo H., additional, and Rapela, Carlos W., additional

Published

2021

26. New SHRIMP U-Pb data from the Famatina Complex : constraining Early-Mid Ordovician Famatinian magmatism in the Sierras Pampeanas, Argentina

Author

Dahlquist, J.A., Pankhurst, R.J., Washington Rapela, Carlos, Galindo, C., Alasino, Pablo, Fanning, Mark, Saavedra, Julio, and Baldo, Edgardo G.

Subjects

Earth Sciences, Magmatism, SHRIMP U-Pb data, Ensialic Basins, Famatina Complex

Abstract

New SHRIMP U-Pb zircon ages are reported for igneous and sedimentary rocks of the Famatina Complex, constraining the age of the magmatism and the ensialic basins. Together with whole-rock and isotope geochemistry for the igneous rocks from the complex, these ages indicate that the voluminous parental magmas of metaluminous composition were derived by partial melting of an older lithosphere without significant asthenospheric contribution. This magmatism was initiated in the Early Ordovician (481 Ma). During the Mid-Late Ordovician, the magmatism ceased (463 Ma), resulting in a short-lived (no more than ~20 Ma) and relatively narrow (~100-150 km) magmatic belt, in contrast to the long-lived cordilleran magmatism of the Andes. The exhumation rate of the Famatina Complex was considerably high and the erosional stripping and deposition of Ordovician sediments occurred soon after of the emplacement of the igneous source rocks during the Early to mid-Ordovician. During the upper Mid Ordovician the clastic contribution was mainly derived from plutonic rocks. Magmatism was completely extinguished in the Mid Ordovician and the sedimentary basins closed in the early Late Ordovician.

Published

2021

27. The Maz Metasedimentary Series (Western Sierras Pampeanas, Argentina). A relict basin of the Columbia supercontinent?

Author

Ramacciotti, Carlos, Casquet Martín, César, Baldo, Edgardo G., Pankhurst, R.J., Verdecchia, Sebastián, Fanning, C.M., Murra, Juan Alberto, Ramacciotti, Carlos, Casquet Martín, César, Baldo, Edgardo G., Pankhurst, R.J., Verdecchia, Sebastián, Fanning, C.M., and Murra, Juan Alberto

Abstract

The Maz Metasedimentary Series is part of the Maz Complex that crops out in the sierras of Maz and Espinal (Western Sierras Pampeanas) and in the Sierra de Umango (Andean Frontal Cordillera), northwestern Argentina. The Maz Complex is found within a thrust stack of Silurian age, which later underwent open folding. The Maz Metasedimentary Series mainly consists of medium-grade garnet–staurolite–kyanite–sillimanite schists and quartzites, with minor amounts of marble and calc-silicate rocks. Transposed metadacite dykes have been recognized along with amphibolites, metagabbros, metadiorites and orthogneisses. Schist, quartzite and metadacite samples were analysed for SHRIMP U–Pb zircon dating. The Maz Metasedimentary Series is polymetamorphic and records probably three metamorphic events during the Grenvillian orogeny, at c. 1235, 1155 and 1035 Ma, and a younger metamorphism at c. 440–420 Ma resulting from reactivation during the Famatinian orogeny. The sedimentary protoliths were deposited between 1.86 and 1.33–1.26 Ga (the age of the Andean-type Grenvillian magmatism recorded in the Maz Complex), and probably before 1.75 Ga. The main source areas correspond to Palaeoproterozoic and, to a lesser magnitude, Meso-Neoarchaean rocks. The probable depositional age and the detrital zircon age pattern suggest that the Maz Metasedimentary Series was laid down in a basin of the Columbia supercontinent, mainly accreted between 2.1 and 1.8 Ga. The sedimentary sources were diverse, and we hypothesize that deposition took place before Columbia broke up. The Rio Apa block, and the Río de la Plata, Amazonia and proto-Kalahari cratons, which have nearby locations in the palaeogeographic reconstructions, were probably the main blocks that supplied sediments to this basin., Ministerio de Economía y Competitividad (MINECO), Ministerio de Ciencia e Innovación (MICINN), Universidad Complutense de Madrid/Banco de Santander, CONICET, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2021

28. Extending the Pampean orogen in western Argentina: New evidence of Cambrian magmatism and metamorphism within the Ordovician Famatinian belt revealed by new SHRIMP U–Pb ages

Author

Larrovere, Mariano Alexis, Casquet Martín, César, Aciar, R. Hernán, Baldo, Edgardo G., Alasino, Pablo H., Rapela, Carlos W., Larrovere, Mariano Alexis, Casquet Martín, César, Aciar, R. Hernán, Baldo, Edgardo G., Alasino, Pablo H., and Rapela, Carlos W.

Abstract

New SHRIMP U–Pb zircon and monazite ages from the Sierra de Fiambalá (Sierras Pampeanas, NW Argentina) record coeval granitoid peraluminous magmatism and high-grade metamorphism at ca. 525 Ma (Lower Cambrian) that resulted from the collisional Pampean orogeny. The Sierra de Fiambalá, however, is well within the Ordovician accretionary Famatinian orogenic belt and west of what is commonly regarded as the Pampean orogenic belt in the Eastern Sierras Pampeanas (ESP). It is thus an inlier that can be correlated chronologically and stratigraphically with the Pampean high-grade metamorphic domain in the Sierras de Córdoba (ESP). Moreover, in the Fiambalá inlier, Ediacaran to early Cambrian meta-sedimentary rocks of the Ancaján Series, of an alleged Laurentian source, predominate relative to the Puncoviscana Formation of Gondwanan provenance. Two tectonic interpretations are proposed for the origin of the Fiambalá inlier: (1) it is a Pampean basement thrusted westward during the Famatinian orogeny or (2) it was rifted away from the main Pampean orogenic belt sometime between the end of the Pampean orogeny and the start of the Famatinian orogeny and later reworked by the latter in coincidence with the proposal by Weinberg et al. (2018). The evidence given here confirms that rocks of the Pampean orogen extend far westward of the main Pampean belt (≥300 km)., Ministerio de Economía y Competitividad (MINECO), Universidad Nacional de La Rioja, Universidad Nacional de Córdoba, Ministry of Science, Technology and Innovation, Argentine National Scientific and Technical Research Council, Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2021

29. The Faja Eruptiva of the Eastern Puna and the Sierra de Calalaste, NW Argentina: U–Pb zircon chronology of the early Famatinan orogeny

Author

Casquet Martín, César, Alasino, Pablo H., Galindo Francisco, María Del Carmen, Dahlquist, Juan A., Baldo, Edgardo G., Ramacciotti, Carlos, Verdecchia, Sebastián, Larrovere, Mariano Alexis, Rapela, Carlos W., Recio, C., Casquet Martín, César, Alasino, Pablo H., Galindo Francisco, María Del Carmen, Dahlquist, Juan A., Baldo, Edgardo G., Ramacciotti, Carlos, Verdecchia, Sebastián, Larrovere, Mariano Alexis, Rapela, Carlos W., and Recio, C.

Abstract

The Famatinian is a segment of the Ordovician Terra Australis accretionary orogen that stretched along the SW Margin of Gondwana from Australia to Colombia. The present knowledge of this orogenic segment still is incomplete. We present geochemistry and U–Pb SHRIMP zircon geochronology of igneous and metamorphic rocks from the Central Famatinian Domain, one of the several domains recognized by Rapela et al. (Earth Sci Rev 187: 259–285. https://doi.org/10.1016/j.earscirev.2018.10.006) that includes the northern Sierras Pampeanas and the southern Puna of North West Argentina. Six samples of igneous rocks (peraluminous granitoids, mafic and felsic rocks, volcanic/subvolcanic rocks) and six samples of associated meta-sedimentary rocks, all from the Puna were dated and chemically analysed. The results indicate that the Central Famatinian Domain is in turn a composite domain that includes a Cordilleran-type magmatic arc (ca. 470 Ma) and a yuxtaposed fault-bounded older terrain formed in an extensional setting at the very start of the Famatinian orogeny, between 480 and 485 Ma, i.e., shortly after the SW Gondwana margin switched from passive to active. This short period of extension with related sedimentation, volcanism and mainly granitoid plutonism has not been previously recognised. It occurred before the Cordilleran-type magmatic arc -that resulted from a magmatic flare-up between ca. 473 and 468 Ma-, set up coincident with a contractional phase. The evidence confirms that accretionary orogeny results from tectonic switching (pull–push orogeny) and that the extensional and contractional phases are of relatively short duration., El cinturón Famatiniano es un segmento del orógeno acreccionario ordovícico Terra Australis, que se extendía a lo largo del margen SW de Gondwana desde Australia hasta Colombia. El conocimiento de este cinturón es todavía muy incompleto. En este trabajo se ha realizado geoquímica y geocronología U-Pb SHRIMP en circón en rocas ígneas y metamórficas del Dominio Famatiniano Central (Rapela et al., 2016) en el norte de las Sierras Pampeanas y el sur de la Puna en el noroeste de Argentina. Se han datado y analizado químicamente seis muestras de rocas ígneas (granitoides peraluminosos y rocas volcánicas/subvolcánicas maficas y felsicas) y seis muestras de rocas metasedimentarias asociadas, de la Puna meridional, principalmente. Los resultados indican que el Dominio Famatiniano Central es un dominio compuesto, que incluye un arco magmático de tipo Cordillerano con magmatismo de tipo I (ca. 470 Ma) y un terreno más antiguo, yuxtapuestos en la actualidad mediante fallas ándicas. Este último se formó en un contexto de extensión al comienzo de la orogénesis Famatiniana, entre ca. 480 y 485 Ma., en el margen SO de Gondwana, poco después de que cambiara de pasivo a activo. Este breve período de extensión, con sedimentación relacionada, vulcanismo y, principalmente, plutonismo granitoide, no había sido reconocido previamente y tuvo lugar antes de que se instalara el arco magmático de tipo Cordillerano como resultado de un flare-up magmático entre 473 y 468 Ma, coincidente, a su vez, con una fase de contracción. Esta evidencia confirma que la orogénesis acreccionaria es el resultado de la permutación tectónica (tectonic switching) entre fases de extensión y contracción (pull-push orogeny) y que estas son de duración relativamente corta., Ministerio de Economía y Competitividad (MINECO), Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2021

30. The Rinconada phase: A regional tectono-metamorphic event of Silurian age in the pre-Andean basement of Argentina

Author

Casquet Martín, César, Ramacciotti, Carlos, Larrovere, Mariano Alexis, Verdecchia, Sebastián, Murra, Juan Alberto, Baldo, Edgardo G., Pankhurst, R.J., Rapela, Carlos W., Casquet Martín, César, Ramacciotti, Carlos, Larrovere, Mariano Alexis, Verdecchia, Sebastián, Murra, Juan Alberto, Baldo, Edgardo G., Pankhurst, R.J., and Rapela, Carlos W.

Abstract

CRUE-CSIC (Acuerdos Transformativos 2021), A Silurian regional tectonometamorphic event has been widely recorded by different geochronological methods in the Sierras Pampeanas, NW Argentina and the Precordillera. It took place between ca. 445 and 420 Ma after the regional Hirnantian (late Ordovician) glaciogenic sedimentation. Three domains are recognized. 1) The eastern Sierras Pampeanas and the Puna mainly record focused westward ductile thrusting and heating. 2) In the westernmost Sierras Pampeanas (Maz, Espinal, and Umango) garnet-amphibolite facies metamorphism, penetrative foliation development and westward ductile thrusting (nappes) took place. 3) In the Precordillera, the Rinconada formation of Silurian age consisting of chaotic olistoliths of Ordovician and Cambrian age correlates with this event. The three domains correspond to the hinterland, the internal hot and thickened metamorphic core, and the foreland respectively of an orogenic belt. Remarkably no Cordilleran-type magmatism of this age has been recorded. The regional importance of this event was overlooked so far., Ministerio de Economía y Competitividad (MINECO), Depto. de Mineralogía y Petrología, Fac. de Ciencias Geológicas, TRUE, pub

Published

2021

31. Crystallization Conditions and Petrogenetic Characterization of Metaluminous to Peraluminous Calc-Alkaline Orogenic Granitoids from Mineralogical Systematics: The Case of the Cambrian Magmatism from the Sierra de Guasayán (Argentina)

Author

Zandomeni, Priscila S., primary, Moreno, Juan A., additional, Verdecchia, Sebastián O., additional, Baldo, Edgardo G., additional, Dahlquist, Juan A., additional, Morales Cámera, Matías M., additional, Balbis, Catalina, additional, Benítez, Manuela, additional, Serra-Varela, Samanta, additional, and Lembo Wuest, Carlos I., additional

Published

2021

32. Early Ordovician magmatism in the Sierra de Ancaján, Sierras Pampeanas (Argentina): implications for the early evolution of the proto-Andean margin of Gondwana

Author

Zandomeni, Priscila S., primary, Verdecchia, Sebastián O., additional, Baldo, Edgardo G., additional, Galindo, Carmen, additional, Moreno, Juan A., additional, Dahlquist, Juan A., additional, Casquet, César, additional, Cámera, Matías M. Morales, additional, Basei, Miguel A. S., additional, and Ramacciotti, Carlos D., additional

Published

2020

33. S3. Monazite standard analyses. Mid-crustal deformation in a continental margin orogen: structural evolution and timing of the Famatinian Orogeny, NW Argentina

Author

Larrovere, Mariano A., Hoyos, Camilo R. De Los, Willner, Arne P., Verdecchia, Sebastián O., Baldo, Edgardo G., Casquet, César, Basei, Miguel A., Hollanda, Maria H., Rocher, Sebastián, Alasino, Pablo H., and Moreno, Gabriel G.

Abstract

S3. Supplementary material. Monazite standard analyses.

Published

2019

34. O - Sr - Nd isotope constraints on the origin of intermediate magmas in the Famatinian arc, NW Argentina

Author

Alasino, Pablo H., Casquet, César, Galindo, Carmen, Rapela, Carlos W., Pankhurst, Robert J., Dahlquist, J., Recio, Clemente, and Baldo, Edgardo G.

Abstract

Trabajo presentado en el XV Congreso Geológico Chileno, celebrado en Concepción (Chile), del 18 al 23 de Noviembre de 2018, The origin of Early Ordovician Famatinian intermediate igneous rocks is controversial and has been ascribed to either (i) partial melting of a Proterozoic crust-lithospheric mantle section, or (ii) interaction between mafic magmas and supracrustal materials. We explore the new geochemical evidence from 35 bulk rock O-Sr-Nd isotope compositions from three crustal sections of the arc, a relatively deep one (LC) represented by the Sierra de Valle Fértil, a mid-crustal section (MC) in the Western Sierra de Famatina and SW Sierra de Velasco, and an upper crustal section (UC) in the Sierra de Los Llanos, central Sierra de Famatina and Sierra de Narváez. δ18O values allow us to distinguish four main groups: G1 represented by two meta-gabbros with low δ18O values (ca. +5.3‰), one from LC and one from MC; G2 comprising a wide range of rocks (10 meta-gabbros/gabbros, eight diorite-tonalitegranodiorite samples, three granites and two rhyolites) of all levels with δ18O values from +6.6 to +10‰; G3 consists of two hybrids of MC with δ18O values of +8.7 and +9.9‰ formed by interaction between partially molten country rocks and metaluminous tonalitic magmas; and G4 formed by five Ordovician metasedimentary rocks and three Crd-bearing granites of the three levels with the highest δ18O values (+10.6 to +13.8‰). There is no major difference in isotope composition between mafic G2 rocks thought to be derived from a metasomatized sub-arc mantle (δ18O= +7.4 to +9.4‰, 87Sr/ 86Sri= 0.706 to 0.709 and εNdi = 3.7 to 5.8) and intermediate rocks of the same group (δ18O= +6.6 to +9‰, 87Sr/86Sri = 0.705 to 0.709 and εNdi = 0.5 to 4.4, except for two LC samples with values about +9.5‰, 0.711 and 5). G2 granites and rhyolites show higher values of δ18O (+8.5 to +10‰) but similar 87Sr/86Sri (0.706 to 0.709) and εNdi (ca. 3.5). Remarkably, the range of δ18O values from +6.6 to +10‰ for most G2 samples does not correlate with aluminum saturation index (ASI). Except for some G2 tonalite samples of LC and G3 hybrids from thermal aureoles, the ASI values remain unchanged within each group of rocks. Generation of the G2 intermediate rocks cannot be related to the bulk assimilation of partially melted metasedimentary rocks of G4 through partial melting by mafic intrusions. We conclude that sub-arc mantle melting was the main process involved in the formation of the metaluminous G2 intermediate rocks with restricted contamination (≤ 20%) by continental crust melts.

Published

2018

35. The Famatinian cordilleran magmatism in southern South America resulting from lithosphere reworking?

Author

Rapela, Carlos W., Pankhurst, Robert J., Casquet, César, Dahlquist, J., Fanning, M., Baldo, Edgardo G., Galindo, Carmen, Alasino, Pablo H., Ramacciotti, Carlos D., Verdecchia, Sebastián O., Murra, J. A., and Basei, Miguel A. S.

Abstract

Trabajo presentado en el XV Congreso Geológico Chileno, celebrado en Concepción (Chile), del 18 al 23 de Noviembre de 2018, Along the proto-Pacific margin of Gondwana, from Venezuela to northeastern Patagonia, the Early–Middle Ordovician Famatinian orogeny was the first orogenic event following assembly of the supercontinent. Magmatism is mostly restricted to the interval 463±4 to 486±7 Ma, with the most intense period of emplacement between 468 and 472 Ma constituting a magmatic flare-up. Granitoid emplacement in both northeastern Patagonia and the Cordon de Lila (Puna Altiplano, Chile) was effectively synchronous with that in the Sierras Pampeanas, defining a continuous belt. Combined geochemical and isotopic data (whole-rock Sr, Nd; Hf, O in zircon) indicate that the source of calcic metaluminous suites is the subcontinental lithosphere –both mantle and mafic lower crust– with variable contamination by the Early Paleozoic metasedimentary country rocks. The lithospheric mantle involved is assumed to underlie the outcropping 1330–1030 Ma Grenville-age basement of the Western Domain, which exhibits tectonic characteristics of active continental margin in the north and oceanic arc-back arc in the south. The latter sector is the potential source of some minor Famatinian igneous rocks with less evolved isotopic compositions, although a restricted asthenospheric addition cannot be discarded in this case. Minor peraluminous granites are spatially associated with the metaluminous sequence, but major highly peraluminous batholiths occur on the eastern flank of the Central Domain. Field relations and geochemical/isotopic evidence indicate that the most obvious source of these crustal melts was the very thick post-early Cambrian metasedimentary sequence comprising the host country rocks. Although asthenospheric mantle was a necessary heat source for lithospheric melting, its material contribution to the growth of Early Paleozoic crust was apparently very minor. Recycling of Mesoproterozoic lithosphere, including the subcontinental mantle, coupled with crustal melting of Early Paleozoic metasedimentary sequences, accounts for most of the Famatinian orogenic magmatism. Consistent results from the Central Andes and East Antarctica confirm that the early stages of the Terra Australis orogen in SW Gondwana were dominated by lithospheric reworking processes.

Published

2018

36. Mid-crustal deformation in a continental margin orogen: structural evolution and timing of the Famatinian Orogeny, NW Argentina

Author

Larrovere, Mariano A., primary, de los Hoyos, Camilo R., additional, Willner, Arne P., additional, Verdecchia, Sebastián O., additional, Baldo, Edgardo G., additional, Casquet, César, additional, Basei, Miguel A., additional, Hollanda, Maria H., additional, Rocher, Sebastián, additional, Alasino, Pablo H., additional, and Moreno, Gabriel G., additional

Published

2019

37. Late Cambrian – Early Ordovician magmatism in the Sierra de Pie de Palo, Sierras Pampeanas (Argentina): implications for the early evolution of the proto-Andean margin of Gondwana

Author

Ramacciotti, Carlos D., primary, Casquet, César, additional, Baldo, Edgardo G., additional, Alasino, Pablo H., additional, Galindo, Carmen, additional, and Dahlquist, Juan A., additional

Published

2019

38. A review of the Famatinian Ordovician magmatism in southern South America: evidence of lithosphere reworking and continental subduction in the early proto-Andean margin of Gondwana

Author

Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Rapela, Carlos W., Pankhurst, Robert J., Casquet, César, Dahlquist, J., Fanning, M., Baldo, Edgardo G., Galindo, Carmen, Alasino, Pablo H., Ramacciotti, Carlos D., Verdecchia, Sebastián O., Murra, J. A., Basei, Miguel A. S., Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Rapela, Carlos W., Pankhurst, Robert J., Casquet, César, Dahlquist, J., Fanning, M., Baldo, Edgardo G., Galindo, Carmen, Alasino, Pablo H., Ramacciotti, Carlos D., Verdecchia, Sebastián O., Murra, J. A., and Basei, Miguel A. S.

Abstract

Along the proto-Pacific margin of Gondwana, from Venezuela to northeastern Patagonia, the Early–Middle Ordovician Famatinian orogeny was the first orogenic event following assembly of the supercontinent. Previous isotope studies of the igneous and (meta-)sedimentary rocks of southwestern Gondwana yield ambiguous implications for the role of juvenile mantle addition during the early crustal growth at the supercontinental margin. To interpret the geological and tectonic evolution of the orogen and the magma sources in different episodes we look at evidence from a large area of southern South America, including the 700 × 600 km type sector of the orogen in the Sierras Pampeanas (27°–33°S), the Precordillera, and northeastern Patagonia. Previous geological, geochemical and geochronological results are reviewed together with new U—Pb SHRIMP crystallization ages, 177Hf/176Hf and 18O/16O data for dated zircon, and whole-rock Sr and Nd isotope compositions., Four geological domains are recognized in the Sierras Pampeanas (Western, Central, Eastern and Foreland Famatinian domains). Magmatism is mostly restricted to the interval 463 ± 4 to 486 ± 7 Ma, with the most intense period of emplacement between 468 and 472 Ma constituting a magmatic flare-up. Granitoid emplacement in both northeastern Patagonia and the Cordon de Lila (Puna Altiplano, Chile) was effectively synchronous with that in the Sierras Pampeanas, defining a continuous belt. Combined geochemical and isotopic data (whole-rock Sr, Nd; Hf, O in zircon) indicate that the source of calcic metaluminous suites is the subcontinental lithosphere – both mantle and mafic lower crust – with variable contamination by the Early Paleozoic metasedimentary country rocks. The lithospheric mantle involved is assumed to underlie the outcropping 1330–1030 Ma age basement of the Western Domain, which exhibits tectonic characteristics of active continental margin in the north and oceanic arc-back arc in the south. The latter sector is the potential source of some minor Famatinian igneous rocks with less evolved isotopic compositions, although a restricted asthenospheric addition cannot be discarded in this case. Minor peraluminous granites are spatially associated with the metaluminous sequence, but major highly-peraluminous batholiths occur on the eastern flank of the Central Domain. Field relations and geochemical/isotopic evidence indicate that the most obvious source of these crustal melts was the very thick post-early Cambrian metasedimentary sequence comprising the host country rocks., Episodic tectono-magmatic evolution of the Famatinian magmatic belt in two overlapping stages is invoked to explain different characteristics in the four recognized domains in the type sector: • ca. 474–486? Ma, roll-back stage. This is a mainly extensional interval involving asthenospheric upwelling and thinning of the subcontinental mantle; full development of the marine ensialic basins and early emplacement of both metaluminous granites and highly-peraluminous batholiths in the Central and Eastern Famatinian domains. Trondhjemite plutons with an adakitic signature were emplaced in the Foreland Domain • ca. 468–472 Ma, slab break-off stage. Steepening of the oceanic slab and arc migration to the southwest ended with slab break-off due to subduction of continental crust during continental collision with the Precordillera terrane. This stage produced voluminous metaluminous magmatism at the western edge of the Central Domain (the flare-up episode), K-bentonites in the Precordillera, leucogranites in the Western Domain and scattered metaluminous and peraluminous plutons in all Famatinian domains. Both slab roll-back and break-off stages developed during a high-T regime typical of hot orogens. Although asthenospheric mantle was a necessary heat source for lithospheric melting, its material contribution to the growth of Early Paleozoic crust was apparently very minor. Recycling of Mesoproterozoic lithosphere, including the subcontinental mantle, coupled with crustal melting of Early Paleozoic metasedimentary sequences, accounts for most Famatinian magmatism. Comparable results from the Central Andes and East Antarctica confirm that the early stages of the Terra Australis orogen in SW Gondwana were dominated by lithospheric reworking processes.

Published

2018

39. A Cambrian mixed carbonate–siliciclastic platform in SW Gondwana: evidence from the Western Sierras Pampeanas (Argentina) and implications for the early Paleozoic paleogeography of the proto-Andean margin

Author

Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Secretaría de Ciencia y Técnica de la Nación (Argentina), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Ramacciotti, Carlos D., Casquet, César, Baldo, Edgardo G., Galindo, Carmen, Pankhurst, Robert J., Verdecchia, Sebastián O., Rapela, Carlos W., Fanning, M., Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Secretaría de Ciencia y Técnica de la Nación (Argentina), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Ramacciotti, Carlos D., Casquet, César, Baldo, Edgardo G., Galindo, Carmen, Pankhurst, Robert J., Verdecchia, Sebastián O., Rapela, Carlos W., and Fanning, M.

Abstract

The Western Sierras Pampeanas (WSP) of Argentina record a protracted geological history from the Mesoproterozoic assembly of the Rodinia supercontinent to the early Paleozoic tectonic evolution of SW Gondwana. Two well-known orogenies took place at the proto-Andean margin of Gondwana in the Cambrian and the Ordovician, i.e., the Pampean (545–520 Ma) and Famatinian (490–440 Ma) orogenies, respectively. Between them, an extensive continental platform was developed, where mixed carbonate–siliciclastic sedimentation occurred. This platform was later involved in the Famatinian orogeny when it underwent penetrative deformation and metamorphism. The platform apparently extended from Patagonia to northwestern Argentina and the Eastern Sierras Pampeanas, and has probable equivalents in SW Africa, Peru, and Bolivia. The WSP record the outer (deepest) part of the platform, where carbonates were deposited in addition to siliciclastic sediments. Detrital zircon U–Pb SHRIMP ages from clastic metasedimentary successions and Sr-isotope compositions of marbles from the WSP suggest depositional ages between ca. 525 and 490 Ma. The detrital zircon age patterns further suggest that clastic sedimentation took place in two stages. The first was sourced mainly from re-working of the underlying Neoproterozoic metasedimentary rocks and the uplifted core of the early Cambrian Pampean orogen, without input from the Paleoproterozoic Río de la Plata craton. Sediments of the second stage resulted from the erosion of the still emerged Pampean belt and the Neoproterozoic Brasiliano orogen in the NE with some contribution from the Río de la Plata craton. An important conclusion is that the WSP basement was already part of SW Gondwana in the early Cambrian, and not part of the exotic Precordillera/Cuyania terrane, as was previously thought.

Published

2018

40. Review of the Cambrian Pampean orogeny of Argentina; a displaced orogen formerly attached to the Saldania Belt of South Africa?

Author

Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Casquet, César, Dahlquist, J., Verdecchia, Sebastián O., Baldo, Edgardo G., Galindo, Carmen, Rapela, Carlos W., Pankhurst, Robert J., Morales Cámera, Matías M., Murra, J. A., Fanning, M., Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Casquet, César, Dahlquist, J., Verdecchia, Sebastián O., Baldo, Edgardo G., Galindo, Carmen, Rapela, Carlos W., Pankhurst, Robert J., Morales Cámera, Matías M., Murra, J. A., and Fanning, M.

Abstract

The Pampean orogeny of northern Argentina resulted from Early Cambrian oblique collision of the Paleoproterozoic-Mesoproterozoic MARA block, formerly attached to Laurentia, with the Gondwanan Kalahari and Rio de la Plata cratons. The orogen is partially preserved because it is bounded by the younger Córdoba Fault on the east and by the Los Túneles-Guacha Corral Ordovician shear zone on the west. In this review we correlate the Pampean Belt with the Saldania orogenic belt of South Africa and argue that both formed at an active continental margin fed with sediments coming mainly from the erosion of the Brasiliano–Pan-African and East African–Antarctica orogens between ca. 570 and 537 Ma (Puncoviscana Formation) and between 557 and 552 Ma (Malmesbury Group) respectively. Magmatic arcs (I-type and S-type granitoids) formed at the margin between ca. 552 and 530 Ma. Further right-lateral oblique collision of MARA between ca. 530 and 520 Ma produced a westward verging thickened belt. This involved an upper plate with high P/T metamorphism and a lower plate with high-grade intermediate to high P/T metamorphism probably resulting from crustal delamination or root foundering. The Neoproterozoic to Early Cambrian sedimentary cover of MARA that was part of the lower plate is only recognized in the high-grade domain along with a dismembered mafic–ultramafic ophiolite probably obducted in the early stages of collision. Uplift was fast in the upper plate and slower in the lower plate. Eventually the Saldania and Pampean belts detached from each other along the right-lateral Córdoba Fault, juxtaposing the Rio de la Plata craton against the internal high-grade zone of the Pampean belt.

Published

2018

41. Late Cambrian – Early Ordovician magmatism in the Sierra de Pie de Palo, Sierras Pampeanas (Argentina): implications for the early evolution of the proto-Andean margin of Gondwana.

Author

Ramacciotti, Carlos D., Casquet, César, Baldo, Edgardo G., Alasino, Pablo H., Galindo, Carmen, and Dahlquist, Juan A.

Subjects

GONDWANA (Continent), MAGMATISM, MAFIC rocks, PIES, ORDOVICIAN Period, SHEAR zones, GABBRO, SUBDUCTION

Abstract

The Sierra de Pie de Palo, in the Argentinean Sierras Pampeanas (Andean foreland), consists of a Mesoproterozoic basement and an Ediacaran – upper Cambrian sedimentary cover that underwent folding, thrusting and metamorphism during the Ordovician Famatinian orogeny. Mafic rocks and granitoids of the easternmost Sierra de Pie de Palo provide information about the magmatic activity at the proto-Andean margin of Gondwana during late Cambrian – Early Ordovician time. Magmatic activity began in the Sierra de Pie de Palo as dykes, sills and small intrusions of tholeiitic gabbros between 490 and 470 Ma, before shortening and regional metamorphism. Variable mantle sources (Nd depleted mantle age, T DM between 1.7 and 1.3 Ga) were involved in the mafic magmatism. Nd-isotope signatures were probably inherited from a Mesoproterozoic subcontinental mantle. Mafic magmatism was coincident with collapse of a Cambrian carbonate-siliciclastic platform that extended along SW Gondwana, and was probably coeval with the beginning of subduction. After mafic magmatism, peraluminous granitoids were emplaced in the Sierra de Pie de Palo along ductile shear zones during a contractional tectonic phase, coeval with moderate to high P/T metamorphism, and with the Cordilleran-type magmatic arc that resulted from a flare-up at c. 470 Ma. Granitoids resulted mainly from partial melting of metasedimentary rocks, although some hybridization with juvenile magmas and/or rocks cannot be ruled out. The evidence shown here further implies that the Pie de Palo block was part of the continental upper plate during the Famatinian subduction, and not an exotic block that collided with the Gondwana margin. [ABSTRACT FROM AUTHOR]

Published

2020

42. Early Cambrian U-Pb zircon age and Hf-isotope data from the Guasayán pluton, Sierras Pampeanas, Argentina: implications for the northwestern boundary of the Pampean arc

Author

Dahlquist, Juan A, Verdecchia, Sebastián O, Baldo, Edgardo G, Basei, Miguel A.S, Alasino, Pablo H, Urán, Gimena A, Rapela, Carlos W, Neto, Mario da Costa Campos, and Zandomeni, Priscila S

Subjects

U-Pb Geochronology, Hf isotopes, Isótopos de Hf, Sierra de Guasayan, Sierra de Guasayán, Pampean granites, Geocronología U-Pb, Granitos pampeanos

Abstract

An Early Cambrian pluton, known as the Guasayan pluton, has been identified in the central area of Sierra de Guasayan, northwestern Argentina. A U-Pb zircon Concordia age of 533±4 Ma was obtained by LA-MC-ICP-MS and represents the first report of robustly dated Early Cambrian magmatism for the northwestern Sierras Pampeanas. The pluton was emplaced in low-grade metasedimentary rocks and its magmatic assemblage consists of K-feldspar (phenocrysts)+plagioclase+quartz+biotite, with zircon, apatite, ilmenite, magnetite and monazite as accessory minerals. Geochemically, the granitic rock is a metaluminous subalkaline felsic granodiorite with SiO2=69.24%, Na2O+K2O=7.08%, CaO=2.45%, Na2O/ K2O=0.71 and FeO/MgO=3.58%. Rare earth element patterns show moderate slope (LaN/YbN=8.05) with a slightly negative Eu anomalies (Eu/Eu*=0.76). We report the first in situ Hf isotopes data (εHft=-0.12 to -4.76) from crystallized zircons in the Early Cambrian granites of the Sierras Pampeanas, helping to constrain the magma source and enabling comparison with other Pampean granites. The Guasayan pluton might provide a link between Early Cambrian magmatism of the central Sierras Pampeanas and that of the Eastern Cordillera, contributing to define the western boundary of the Pampean paleo-arc. Un plutón de edad Cámbrica temprana, conocido como plutón Guasayán, ha sido identificado en el área central de la sierra de Guasayán, noroeste de Argentina. Una edad U-Pb en concordia de 533±4 Ma fue obtenida en circones mediante LA-MC-ICP-MS. Esta edad representa el primer reporte de magmatismo Cámbrico temprano para el noroeste de las Sierras Pampeanas. El mismo está emplazado en rocas metasedimentarias de bajo grado y se caracteriza por una asociación magmática de K-feldespato (fenocristales)+plagioclasa+cuarzo+biotita, con circón, apatita, ilmenita, magnetita y monacita como minerales accesorios. Geoquímicamente, la roca granítica se clasifica como una granodiorita félsica metaluminosa subalcalina con contenidos de SiO2=69,24%, Na2O+K2O=7,08%, CaO=2,45% y relaciones de Na2O/ K2O=0,71 y FeO/MgO=3,58%. Los patrones de elementos de tierras rara muestran una pendiente moderada (LaN/YbN=8,05) con una ligera anomalía negativa de Eu (Eu/Eu*=0,76). Nosotros reportamos los primeros datos in situ de isótopos de Hf (εHft=-0,12 a -4,76) para circones cristalizados en granitos del Cámbrico temprano de Sierras Pampeanas, lo que aporta información crítica sobre la fuente de los magmas, permitiendo la comparación con otros granitos pampeanos. El plutón Guasayán podría proveer el enlace entre el magmatismo del Cámbrico temprano del sector central de las Sierras Pampeanas y aquel de la cordillera Oriental, contribuyendio a definir el límite occidental del paleoarco Pampeano.

Published

2016

43. The continental assembly of SW Gondwana (Ediacaran to Cambrian): a synthesis

Author

Casquet, César, Rapela, Carlos W., Pankhurst, Robert J., Baldo, Edgardo G., Galindo, Carmen, Dahlquist, J., Verdecchia, Sebastián O., Murra, J. A., and Fanning, M.

Abstract

SW Gondwana resulted from complex interplay between continental amalgamation and dispersal between ~ 650 and 490 Ma. The main cratons involved were Laurentia, Amazonia– MARA (Proterozoic Maz–Arequipa–Rio Apa, Casquet et al., 2012), Kalahari, Rio de la Plata (RPC), Congo and East Antarctica (Mawson block). Several collisional orogenic belts resulted, notably the East Africa–Antarctica, Brasiliano–Panafrican, Pampean–Saldania, and Ross– Delamerian orogens. East-Antarctica broke away from the western margin of Laurentia in Rodinia. After a long drift and counter-clockwise rotation (Dalziel, 2013) it collided with Congo and Kalahari to produce the southern part of the left-lateral transpressional East Africa–Antarctica orogen between 580 and 550 Ma, completing the amalgamation of East Gondwana. The Trans-Antarctic margin became an active one in the Ediacaran and subduction of the Pacific Ocean lithosphere occurred throughout the Paleozoic, forming a tract of the Terra Australis orogen. NW–SE directed compression in Late Cryogenian and Early Ediacaran times promoted closure of the Adamastor Ocean, resulting in the left-lateral transpressional Brasiliano–Pan African orogeny between 650 and 570 Ma. The Pampean orogenic belt to the west of the RPC resulted from right-lateral collision between Laurentia and its eastern extension MARA on the one hand and Kalahari–RPC on the other. Ocean opening started at ~ 630 Ma and subduction and further collision took place between 540 and 520 Ma, coeval with the northward drift of Laurentia (~ 540 Ma) away from MARA and the consequent formation of the proto-Andean margin of Gondwana. The margins of the intervening Puncoviscana ocean were covered by Laurentia-derived siliciclastic sediments and carbonates on the MARA side between 630 and ~ 540 Ma (Rapela et al, 2014; this symposium), and by the marine siliciclastic Puncoviscana Formation on the other. The latter formation, deposited between a 570 and ~530 Ma, received input from large alluvial fans descending from juvenile Mesoproterozoic and Neproterozoic sources (new Hf isotope evidence) largely located in the southern East Africa–Antarctica orogen. The Pampean orogen extended into the Saldania–Gariep orogen of southern South Africa (545–520 Ma) and was apparently discordant to the earlier Brasiliano–Pan African orogen. In late-Early to late Cambrian times the Pampean–Saldania realm evolved into a passive margin with siliciclastic platform sedimentation. The Pampean-Saldania realm was separated from the active Trans-Antarctic margin of East Antarctica by an inferred transform fault in Ediacaran to Cambrian times. Regional NW–SW shortening in the Ediacaran became N–S directed in the Cambrian, suggesting a major plate reorganization at this time.

Published

2015

44. Mid-crustal deformation in a continental margin orogen: structural evolution and timing of the Famatinian Orogeny, NW Argentina.

Author

Larrovere, Mariano A., de los Hoyos, Camilo R., Willner, Arne P., Verdecchia, Sebastián O., Baldo, Edgardo G., Casquet, César, Basei, Miguel A., Hollanda, Maria H., Rocher, Sebastián, Alasino, Pablo H., and Moreno, Gabriel G.

Subjects

OROGENIC belts, CONTINENTAL margins, OROGENY, SHEAR zones, ELECTRON probe microanalysis, TIME measurements, MONAZITE

Abstract

New structural data from a mid-crustal segment in the Eastern Sierras Pampeanas, coupled with geochronological methods and P–T estimates, reveal polyphase contractional deformation and metamorphism during the Famatinian Orogeny over a long period of time. Peaks of metamorphic monazite and zircon ages are recorded at c. 500 Ma, between 484 and 465 Ma and at c. 440 Ma. Between 484 and 465 Ma the region attained high-temperature (HT) low-pressure (LP) conditions that resulted in widespread partial melting (peak at c. 470 Ma). A contractional phase occurred during this event, as suggested by syn-anatectic structures, as well as folding at subsolidus conditions. Renewed contraction under subsolidus conditions is evidenced by reverse ductile shearing and folding at c. 440 Ma. Thrusting along the La Chilca Shear Zone caused metamorphic inversion. The consistent orientation of folds in the Quebrada del Molle Metamorphic Complex, El Portezuelo Metamorphic–Igneous Complex and the La Chilca Shear Zone as well as WSW-directed thrusting at the later shear zone indicate uniform WSW–ENE-directed shortening. This late deformation records the Ocloyic tectonic phase and brought the Famatinian Orogeny to an end in the Late Ordovician to Early Silurian. Supplementary material: Analytical methods, methods and description of the calculated P–T pseudosection diagrams, bulk compositions, and electron microprobe, U–Pb and 40Ar–39Ar data are available at https://doi.org/10.6084/m9.figshare.c.4697189 [ABSTRACT FROM AUTHOR]

Published

2020

45. Identifying Laurentian and SW Gondwana sources in the Neoproterozoic to Early Paleozoic metasedimentary rocks of the Sierras Pampeanas: Paleogeographic and tectonic implications

Author

Rapela, Carlos W., Verdecchia, Sebastian O., Casquet, Cesar, Pankhurst, Robert J., Baldo, Edgardo G., Galindo, Carmen, Murra, Juan A., Dahlquist, Juan A., Fanning, C. Mark, Rapela, Carlos W., Verdecchia, Sebastian O., Casquet, Cesar, Pankhurst, Robert J., Baldo, Edgardo G., Galindo, Carmen, Murra, Juan A., Dahlquist, Juan A., and Fanning, C. Mark

Abstract

The provenance of Neoproterozoic to Early Paleozoic sedimentary rocks in the Sierras Pampeanas has been established using U–Pb SHRIMP age determination of detrital zircons in twelve metasedimentary samples, with supplementary Hf and O isotope analyses of selected samples. The detrital zircon age patterns show that the western and eastern sectors of the Sierras Pampeanas are derived from different sources, and were juxtaposed during the Early Cambrian ‘Pampean’ collision orogeny, thus defining initiation of the supercontinent stage of southwestern Gondwana. The Western Sierras Pampeanas (WSP), which extend northwards to the southern Puna (Antofalla) and the Arequipa Massif (Peru), constitute a single large continental basement of Paleoproterozoic age — the MARA block — that was reworked during the Grenvillian orogeny. The MARA block probably extends eastwards to include the Río Apa block (southern Brazil), but in this case without a Mesoproterozoic overprint. Detrital zircons from the WSP and Antofalla yield age peaks between 1330 and 1030 Ma, remarkably similar to the range of ages in the Grenville province of eastern Laurentia. The WSP Neoproterozoic sedimentary cover to this basement shows the same 1330–1030 component, but also includes important 1430–1380 Ma zircons whose juvenile Hf and O isotopic signatures strongly suggest derivation from the Grenville and the Southern Granite–Rhyolite provinces of eastern Laurentia. In contrast the Eastern Sierras Pampeanas metasedimentary rocks have a typically bimodal detrital zircon pattern with peaks at ca. 1000 and 600 Ma, which respectively indicate sources in the Natal–Namaqua belt and the East African orogen and/or the Dom Feliciano belt of SE Brazil and Uruguay. Sedimentary rocks in the Eastern Sierras Pampeanas and Patagonia deposited during the Late Early Cambrian–Early Ordovician interval, after the Pampean orogeny, have detrital patterns common to many sectors along the Terra Australis orogen, reflecting increasi

Published

2016

46. Isotope (Sr, C) and U–Pb SHRIMP zircon geochronology of marble-bearing sedimentary series in the Eastern Sierras Pampeanas, Argentina. Constraining the SW Gondwana margin in Ediacaran to early Cambrian times

Author

Secretaría de Ciencia y Técnica de la Nación (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Ministerio de Ciencia e Innovación (España), Universidad Complutense de Madrid, Banco Santander, Murra, J. A., Casquet, César, Locati, Francisco, Galindo, Carmen, Baldo, Edgardo G., Pankhurst, Robert J., Rapela, Carlos W., Secretaría de Ciencia y Técnica de la Nación (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Ministerio de Ciencia e Innovación (España), Universidad Complutense de Madrid, Banco Santander, Murra, J. A., Casquet, César, Locati, Francisco, Galindo, Carmen, Baldo, Edgardo G., Pankhurst, Robert J., and Rapela, Carlos W.

Abstract

The Sierras de Córdoba Metasedimentary Series consists of marbles and metasiliciclastic rocks of Ediacaran to early Cambrian age (ca. 630 and 540 Ma) that underwent high-grade metamorphism during the collisional Pampean orogeny in the early Cambrian. The ages of the marbles were determined from the Sr-isotope composition (blind dating) of screened samples of almost pure calcite marble and were further constrained with C- and O-isotope data and U–Pb SHRIMP detrital zircon ages of an interbedded paragneiss. Two groups of samples are recognised with Sr-isotope composition ca. 0.7075 and 0.7085 that are considered stratigraphically significant. The first is inferred early Ediacaran, the second late Ediacaran to early Cambrian. The Sierras de Córdoba Metasedimentary Series is correlated for the first time with marble-bearing metasedimentary series in several sierras to the west and north of Sierras de Córdoba (e.g., the Difunta Correa Sedimentary Sequence and the Ancaján Series), implying that all were probably parts of an originally extensive sedimentary cover. These series bear evidence of sedimentary sources in the Mesoproterozoic (and Paleoproterozoic) basement of the Western Sierras Pampeanas (part of the large MARA continental block) and farther west (Laurentia?). In terms of the age of limestones/marbles and detrital zircon patterns, the Sierras de Córdoba Metasedimentary Series differs strongly from the older section of late Ediacaran to early Cambrian Puncoviscana Formation of northwestern Argentina, which mostly outcrops in northern Sierra Chica and Sierra Norte, with sedimentary input from western Gondwana sources. The Sierras de Córdoba Metasedimentary Series and the Puncoviscana Formation were probably juxtaposed during the Pampean orogeny along a complex suture zone that was further folded and/or imbricated at mid-crustal depths. The peak of metamorphism was attained at 527 ± 2 Ma. According to the evidence found here most of the Sierras Pampeanas to the we

Published

2016

47. Mafic rocks of the Ordovician Famatinian magmatic arc (NW Argentina): New insights into the mantle contribution

Author

Ministerio de Ciencia, Tecnología e Innovación Productiva (Argentina), Ministerio de Economía y Competitividad (España), Alasino, Pablo H., Casquet, César, Pankhurst, Robert J., Rapela, Carlos W., Dahlquist, J., Galindo, Carmen, Larrovere, M. A., Recio, Clemente, Paterson, S. R., Colombo, F., Baldo, Edgardo G., Ministerio de Ciencia, Tecnología e Innovación Productiva (Argentina), Ministerio de Economía y Competitividad (España), Alasino, Pablo H., Casquet, César, Pankhurst, Robert J., Rapela, Carlos W., Dahlquist, J., Galindo, Carmen, Larrovere, M. A., Recio, Clemente, Paterson, S. R., Colombo, F., and Baldo, Edgardo G.

Abstract

We studied the petrogenesis of mafic igneous rocks in the Famatinian arc in the western Sierra Famatina (NW Argentina), an Early Ordovician middle-crustal section in the proto-Andean margin of Gondwana. Mafic rock types consist of amphibolite, metagabbro, and gabbro, as well as pod- and dike-like bodies of gabbro to diorite composition. Field relations together with geochemical and isotopic data for the mafic rocks of the western Sierra de Famatina (at 29°S) define two contrasting suites, which can be correlated with similar assemblages noted in other parts of the orogen. Amphibolite, metagabbro, and gabbro bodies are mostly the oldest intrusive rocks (older than 480 Ma), with the host tonalite and post-tonalite mafic dikes being slightly younger. The older mafic suite is tholeiitic to calc-alkaline and isotopically evolved, except for most of the amphibolite samples. The younger suite is calc-alkaline, typically displaying subduction-related geochemical signatures, and it is isotopically more juvenile. Whole-rock chemical composition and isotopic analyses are compatible with a progressive mixing of different isotopic reservoirs. Pyroxenite (±garnet) was likely the dominant source of the older gabbroic magmas, whereas peridotite dominated in the source of the younger suite, implying that the mafic magma experienced a progressive shift toward more juvenile compositions though time (over 20 m.y.). Pyroxenite-derived melts could have been generated by lithospheric foundering followed by upwelling of primitive melts by adiabatic decompression of mantle wedge peridotite.

Published

2016

48. Identifying Laurentian and SW Gondwana sources in the Neoproterozoic to Early Paleozoic metasedimentary rocks of the Sierras Pampeanas: Paleogeographic and tectonic implications

Author

Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Rapela, Carlos W., Verdecchia, Sebastián O., Casquet, César, Pankhurst, Robert J., Baldo, Edgardo G., Galindo, Carmen, Murra, J. A., Dahlquist, J., Fanning, M., Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Ministerio de Economía y Competitividad (España), Universidad Complutense de Madrid, Banco Santander, Rapela, Carlos W., Verdecchia, Sebastián O., Casquet, César, Pankhurst, Robert J., Baldo, Edgardo G., Galindo, Carmen, Murra, J. A., Dahlquist, J., and Fanning, M.

Abstract

The provenance of Neoproterozoic to Early Paleozoic sedimentary rocks in the Sierras Pampeanas has been established using U–Pb SHRIMP age determination of detrital zircons in twelve metasedimentary samples, with supplementary Hf and O isotope analyses of selected samples. The detrital zircon age patterns show that the western and eastern sectors of the Sierras Pampeanas are derived from different sources, and were juxtaposed during the Early Cambrian ‘Pampean’ collision orogeny, thus defining initiation of the supercontinent stage of southwestern Gondwana. The Western Sierras Pampeanas (WSP), which extend northwards to the southern Puna (Antofalla) and the Arequipa Massif (Peru), constitute a single large continental basement of Paleoproterozoic age — the MARA block — that was reworked during the Grenvillian orogeny. The MARA block probably extends eastwards to include the Río Apa block (southern Brazil), but in this case without a Mesoproterozoic overprint. Detrital zircons from the WSP and Antofalla yield age peaks between 1330 and 1030 Ma, remarkably similar to the range of ages in the Grenville province of eastern Laurentia. The WSP Neoproterozoic sedimentary cover to this basement shows the same 1330–1030 component, but also includes important 1430–1380 Ma zircons whose juvenile Hf and O isotopic signatures strongly suggest derivation from the Grenville and the Southern Granite–Rhyolite provinces of eastern Laurentia. In contrast the Eastern Sierras Pampeanas metasedimentary rocks have a typically bimodal detrital zircon pattern with peaks at ca. 1000 and 600 Ma, which respectively indicate sources in the Natal–Namaqua belt and the East African orogen and/or the Dom Feliciano belt of SE Brazil and Uruguay. Sedimentary rocks in the Eastern Sierras Pampeanas and Patagonia deposited during the Late Early Cambrian–Early Ordovician interval, after the Pampean orogeny, have detrital patterns common to many sectors along the Terra Australis orogen, reflecting increasi

Published

2016

49. Comments on Bahlburg (2021), A Silurian-Devonian active margin in the proto- Andes –new data on an old conundrum: International Geology Review doi.org/10.1080/00206814.2021.2012719.

Author

Dahlquist, Juan A., Morales Cámera, Matías M., Alasino, Pablo H., Pankhurst, Robert J., Rapela, Carlos W., Moreno, Juan A., Baldo, Edgardo G., and Rocher, Sebastián

Subjects

GEOLOGY, MAGMATISM, DEVONIAN Period, SUBDUCTION

Abstract

We clarify some statements on our works included by Bahlburg (2021), which we think are confusing and misleading. Clarification is highly necessary to interpreting the evolution of the Devonian proto-Andean margin of Argentina and Chile, and in this work, we show that this clarification is appropriated and should be considered. [ABSTRACT FROM AUTHOR]

Published

2023

50. Identifying Laurentian and SW Gondwana sources in the Neoproterozoic to Early Paleozoic metasedimentary rocks of the Sierras Pampeanas: Paleogeographic and tectonic implications

Author

Rapela, Carlos W., primary, Verdecchia, Sebastian O., additional, Casquet, Cesar, additional, Pankhurst, Robert J., additional, Baldo, Edgardo G., additional, Galindo, Carmen, additional, Murra, Juan A., additional, Dahlquist, Juan A., additional, and Fanning, C. Mark, additional

Published

2016