Your search keyword '"Agustina Pesce"' showing total 19 results

1. The subduction of the Copiapó aseismic ridge, is the causing of the formation of metallic minerals deposits in north of Chile and Argentina?

Author

Mario Gimenez, Gemma Acosta, Orlando Alvarez, Agustina Pesce, Federico Lince Kinger, and Andres Folguera

Subjects

Geodesy, QB275-343, Geophysics. Cosmic physics, QC801-809

Abstract

The results obtained in this work evince that the metallic mineral deposits located in the northern region of the Chilean-Pampean flat slab (in northern Chile and north-western Argentina), at approximately 27° 30′S, would be related to the subduction of the Copiapó aseismic ridge. The analysis of the gravity anomalies and vertical gravity gradient allows inferring a deflection and truncation of the main trend of the Andean structures at the extrapolated zone of the Copiapó ridge beneath South America. Thus, the general NNE-trend of the Andean structures are rotated locally to an ENE-strike within the area of the Ojos del Salado – San Buena Ventura lineament. We explain that this anomalous behavior of the gravity derived anomalies is related to the deformational effects imprinted by the ridge subduction. Regions with a low subduction angle (

Published

2019

2. Actitudes y Uso del Lenguaje Inclusivo según el Género y la Edad

Author

Agustina Pesce and Edgardo Etchezahar

Subjects

Género, lenguaje inclusivo, edad, actitudes, Social sciences (General), H1-99

Abstract

El objetivo del presente trabajo fue describir la relación entre las actitudes y uso del Lenguaje Inclusivo (LI) con las variables demográficas género y edad. El Lenguaje Inclusivo es aquel uso del lenguaje que no reconoce al género masculino como genérico de la humanidad, buscando reducir los estereotipos y discriminación a través de la comunicación. Para ello, se trabajó con un diseño cuantitativo, ex post facto prospectivo de grupo único, en el se analizaron las respuestas a un cuestionario autoadministrable de 613 participantes, residentes en la Ciudad Autónoma de Buenos Aires, obtenidas a través de un muestreo no probabilístico e intencional. El rango de edades fue de 18 a 70 años; y la distribución de los géneros de 346 participantes femeninas, 256 masculinos y 11 no binariosm, a través de un método ex post facto prospectivo. En los resultados se hallaron diferencias, según el Género, para las actitudes positivas hacia el Lenguaje Inclusivo y para la frecuencia de su uso. Las participantes de género femenino tendrían una mayor valoración positiva del Lenguaje Inclusivo, y lo utilizarían más respecto a aquellos de género masculino. Por otro lado, en la franja etaria más baja (18 a 23 años) y más alta (50 a 70 años), se observaron menores actitudes positivas hacia el Lenguaje Inclusivo, mientras que los grupos de edades intermedias obtuvieron valores más elevados para esta variable. Es necesario continuar estudiando los alcances y límites del Lenguaje Inclusivo en otros factores psicosociales.

Published

2019

3. Mandyoc: A finite element code to simulate thermochemical convection in parallel.

Author

Victor Sacek, Jamison Assunção, Agustina Pesce, and Rafael Monteiro da Silva

Published

2022

4. Granuloma central de células gigantes. Caso clínico y tratamiento quirúrgico Central giant cell granuloma. Clinical case and surgical treatment

Author

Néstor Rubén Consoli, Alejandro Gabriel Berardi, Natalia Verónica Pasquale, María Agustina Pesce, and Chantal de Franceschi

Subjects

diagnóstico, granuloma central de células gigantes, resección en bloque.block resection, central giant cell granuloma, Dentistry, RK1-715, Medicine (General), R5-920

Abstract

Resumen Objetivo: Describir y diagnosticar el granuloma central de células gigantes para poder seleccionar el tratamiento indicado, la enucleación, el curetaje o la resección en bloque de la lesión. Caso clínico: El paciente presentaba un granuloma central de células gigantes en el maxilar inferior derecho. Clínicamente, se observaba un aumento de tamaño y desplazamiento dentario, y radiográficamente, una gran zona radiolúcida compatible con pérdida ósea y piezas dentarias incluidas en el tumor. Se realizó la resección de la lesión en bloque con margen de seguridad, conservando la basal mandibular. Conclusión: El granuloma central de células gigantes requiere de un diagnóstico preciso, a fin de llevar a cabo el tratamiento adecuado. Consideramos que el tratamiento quirúrgico es la mejor opción, ya que minimiza el riesgo de recidiva. Palabras clave: Diagnóstico, granuloma central de células gigantes, resección en bloque. Abstract Aim: To describe and diagnose the central giant cell granuloma in order to select the indicated treatment, enucleation, curettage or block lesion resection. Case report: The patient presented a central giant cell granuloma in the lower jaw right side. An increase in size and dental displacement and a large radiolucent zone compatible with bone loss and dental pieces included in the tumor were clinically and radiographically detected. Resection of the lesion was performed in a block with safety margin preserving the mandibular basal bone. Conclusion: Central giant-cell granuloma requires an accurate diagnosis in order to perform the appropriate treatment. We consider surgical treatment as the best valid option, minimizing the risk of relapse. Key words: Block resection, central giant cell granuloma, diagnosis.

Published

2018

5. The subduction of the Copiapó aseismic ridge, is the causing of the formation of metallic minerals deposits in north of Chile and Argentina?

Author

Andrés Folguera, Mario Gimenez, Gemma Acosta, Federico Lince Kinger, Agustina Pesce, and Orlando Álvarez

Subjects

lcsh:QB275-343, 010504 meteorology & atmospheric sciences, Lineament, Subduction, lcsh:Geodesy, lcsh:QC801-809, Geochemistry, Anomalous behavior, 010502 geochemistry & geophysics, 01 natural sciences, Gravity gradient, Gravity anomaly, lcsh:Geophysics. Cosmic physics, Geophysics, Computers in Earth Sciences, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The results obtained in this work evince that the metallic mineral deposits located in the northern region of the Chilean-Pampean flat slab (in northern Chile and north-western Argentina), at approximately 27° 30′S, would be related to the subduction of the Copiapó aseismic ridge. The analysis of the gravity anomalies and vertical gravity gradient allows inferring a deflection and truncation of the main trend of the Andean structures at the extrapolated zone of the Copiapó ridge beneath South America. Thus, the general NNE-trend of the Andean structures are rotated locally to an ENE-strike within the area of the Ojos del Salado – San Buena Ventura lineament. We explain that this anomalous behavior of the gravity derived anomalies is related to the deformational effects imprinted by the ridge subduction. Regions with a low subduction angle (

Published

2019

6. Harmonica and Boule: Modern Python tools for geophysical gravimetry

Author

Agustina Pesce, Leonardo Uieda, Santiago Rubén Soler, Lorenzo Perozzi, and Mark A. Wieczorek

Subjects

Boule, Computer graphics (images), ddc:550, Gravimetry, Python (programming language), computer, Geology, computer.programming_language

Abstract

Gravimetry is a routine part of the geophysicists toolset, historically used in geophysics following the geodetic definitions of gravity anomalies and their related “reductions”. Several authors have shown that the geodetic concept of a gravity anomaly does not align with goals of gravimetry in geophysics (the investigation of anomalous density distributions). Much of this confusion likely stems from the lack of widely available tools for performing the corrections needed to arrive at a geophysically meaningful gravity disturbance. For example, free-air corrections are completely unnecessary since analytical expressions for theoretical gravity at any point have existed for over a decade. Since this is not easily done in a spreadsheet or short script, modern tools for processing and modelling gravity data for geophysics are needed. These tools must be trustworthy (i.e., extensively tested) and designed with software development and geophysical best practices in mind.We present the Python libraries Harmonica and Boule, which are part of the Fatiando a Terra project (https://www.fatiando.org). Both tools are open-source under the permissive BSD license and are developed in the open by a community of geoscientists and programmers.Harmonica provides tools for processing, forward modelling, and inversion of gravity and magnetic data. The first release of Harmonica was focused on implementing methods for processing and interpolation with the equivalent source technique, as well as forward modelling with right-rectangular prisms, point sources, and tesseroids. Current work is directed towards implementing a processing pipeline for gravity data, including topographic corrections in Cartesian and spherical coordinates, atmospheric corrections, and more. The software is still in early stages of development and design and would benefit greatly from community involvement and feedback.Boule implements reference ellipsoids (including oblate ellipsoids, spheres, and soon triaxial ellipsoids), conversions between ellipsoidal and geocentric spherical coordinates, and normal gravity calculations using analytical solutions for gravity fields at any point outside of the ellipsoid. It includes ellipsoids for the Earth as well as other planetary bodies in the solar system, like Mars, the Moon, Venus, and Mercury. This enables the calculation of gravity disturbances for Earth and planetary data without the need for free-air corrections. Boule was created out of the shared needs of Harmonica, SHTools (https://github.com/SHTOOLS), and pygeoid (https://github.com/ioshchepkov/pygeoid) and is developed with input from developers of these projects.We welcome participation from the wider geophysical community, irrespective of programming skill level and experience, and are actively searching for interested developers and users to get involved in shaping the future of these projects.

Published

2021

7. Evaluation of the presence of a weak layer in the numerical simulation of lithospheric subduction

Author

Agustina Pesce and Victor Sacek

Subjects

Computer simulation, Subduction, Lithosphere, Petrology, Layer (electronics), Geology

Abstract

One challenge to numerically simulate the subduction of cold oceanic lithosphere under continental lithosphere is the preservation of the decoupling between the subducting and upper plates for tens of millions of years. One strategy to simulate the persistence of the decoupling is the continuous entrainment of a weak layer (i.e. with low effective viscosity) at the top of the oceanic plate, representing a lubrication between both plates. However, variations on the thickness and rheological structure of this weak layer affect the geodynamic evolution of the subducting plate, modifying the geometry and degree of interactions between the lithospheric plates. In the present work we evaluated how the variation of the geometry, viscosity and density of the weak layer, relative to the surrounding lithosphere, can affect the lubrication between the two lithospheric plates. We performed a series of 2D numerical simulations using a finite element code for thermochemical convection. The code solves the Stokes flow for a fluid using the Boussinesq approximation in a Cartesian coordinate system, considering that the viscosity varies exponentially as a function of the temperature. In the present visco-plastic approach, the effective viscosity is determined by the combined effect of a viscous component, assuming the Frank-Kamenetskii rheology, and plastic deformation, following the Byerlee's friction law. In our numerical scenarios, the subduction is produced by the negative buoyancy of the cold oceanic lithosphere, without the imposition of an external velocity as boundary conditions. The time range of the simulation is of the order of 50 million years. In the initial simulation, a weak zone is imposed in the region between the two plates. This zone presents low viscosity and density relative to the surrounding lithosphere. As the oceanic slab is subducted, the weak zone is deformed and dragged. This removes the lubrication until utterly coupling the lithospheric plates, generating the thickening of the continental lithosphere below the trench region. To preserve the decoupling along all the simulation time, an extra continuous weak layer on top of the oceanic plate is added with low density and viscosity. In this scenario, the first weak zone is still dragged by the subducting plate, but the additional weak layer keeps a lubrication zone between the plates, preventing the coupling of the two lithospheric plates. Therefore, adding a continuous weak layer on top of the oceanic crust together with a weak zone prevents the coupling of the subducting and overriding plates when the effective viscosity of the weak layer is smaller than ~1019 Pa s. These numerical scenarios are used to analyse the subduction pattern of the Nazca plate observed in the southeastern portion of South America, using as constraints the slab geometry of the subducting oceanic plate derived from the Slab2 model.

Published

2020

8. Plume Subduction Beneath the Neuquén Basin and the Last Mountain Building Stage of the Southern Central Andes

Author

Andrés Folguera, Agustina Pesce, Guido M. Gianni, Héctor P.A. García, Silvina Nacif, Marianela Lupari, and Sebastián Correa-Otto

Subjects

Tectonics, Paleontology, geography, Mountain formation, geography.geographical_feature_category, Subduction, Fold and thrust belt, Intraplate earthquake, Fold (geology), Neogene, Mantle (geology), Geology

Abstract

The occurrence of a Neogene shallow subduction stage, as well as, a Pliocene slab-tearing, and steepening of the Nazca plate in the southern Central Andes are well established. However, a satisfactory explanation for the origin and connection between these complex processes is still elusive. In this contribution, we revise the late Cenozoic tectonic and magmatic evolution of the southern Central Andes between 35° and 38° S and discuss different proposals for the Miocene slab shallowing and its Pliocene destabilization. Recent plate kinematic reconstructions show that Neogene arc-front expansion linked to slab shallowing, fold belt reactivation in the main cordillera and intraplate contraction in the San Rafael Block correlates with the subduction of the ancient Payenia plume, a deep mantle anomaly potentially rooted in the lower mantle. Also, the Nazca slab tear determined from tomographic analyses and subsequent slab steepening may also be a direct consequence of this plume subduction process. Considering the westward drift of South America and the presence of several neighbor hotspots over the Nazca plate, the Payenia plume overriding could be the first of future episodes of plume–trench interaction in the Andes.

Published

2020

9. Actitudes y uso del lenguaje inclusivo según el género y la edad

Author

Edgardo Etchezahar and Agustina Pesce

Subjects

Research design, edad, Age and gender, CIENCIAS SOCIALES, Age groups, Edad, lcsh:Social sciences (General), Male gender, purl.org/becyt/ford/5.1 [https], General Environmental Science, lenguaje inclusivo, actitudes, attitudes, purl.org/becyt/ford/5 [https], Gender distribution, Gender, Psicología, Actitudes, age, Lenguaje inclusivo, inclusive language, General Earth and Planetary Sciences, lcsh:H1-99, Género, Prospective research, Psychology, Psychosocial, Demography

Abstract

El objetivo del presente trabajo fue describir la relación entre las actitudes y uso del Lenguaje Inclusivo (LI) con las variables demográficas género y edad. El Lenguaje Inclusivo es aquel uso del lenguaje que no reconoce al género masculino como genérico de la humanidad, buscando reducir los estereotipos y discriminación a través de la comunicación. Para ello, se trabajó con un diseño cuantitativo, ex post facto prospectivo de grupo único, en el se analizaron las respuestas a un cuestionario autoadministrable de 613 participantes, residentes en la Ciudad Autónoma de Buenos Aires, obtenidas a través de un muestreo no probabilístico e intencional. El rango de edades fue de 18 a 70 años; y la distribución de los géneros de 346 participantes femeninas, 256 masculinos y 11 no binariosm, a través de un método ex post facto prospectivo. En los resultados se hallaron diferencias, según el Género, para las actitudes positivas hacia el Lenguaje Inclusivo y para la frecuencia de su uso. Las participantes de género femenino tendrían una mayor valoración positiva del Lenguaje Inclusivo, y lo utilizarían más respecto a aquellos de género masculino. Por otro lado, en la franja etaria más baja (18 a 23 años) y más alta (50 a 70 años), se observaron menores actitudes positivas hacia el Lenguaje Inclusivo, mientras que los grupos de edades intermedias obtuvieron valores más elevados para esta variable. Es necesario continuar estudiando los alcances y límites del Lenguaje Inclusivo en otros factores psicosociales. The objective of this paper was to describe the relationship between attitudes and use of Inclusive Language (LI) with the demographic variables Gender and Age. Inclusive Language is that use of language that does not recognize the male gender as a generic of humanity, seeking to reduce stereotypes and discrimination through communication. For this, we work whit a cuantitative research design ex post facto and prospective research whit one group design and the responses to a self-administered questionnaire of 613 participants, residents of the city of Buenos Aires, obtained through a nonprobabilistic and intentional sampling were analyzed. The age range was 18 to 70 years; and gender distribution of 346 female, 256 male and 11 non-binary participants, through a prospective ex post facto method. In the results, differences were found, according to gender, for positive attitudes towards Inclusive Language and for the frequency of its use. Female participants would have a higher positive assessment of Inclusive Language, and would use it more than those of male gender. On the other hand, in the lowest age range (18 to 23 years old) and highest (50 to 70 years old), lower positive attitudes towards Inclusive Language were observed, while the intermediate age groups obtained higher values for this variable. It is necessary to continue studying the scope and limits of Inclusive Language in other psychosocial factors. Fil: Pesce, Agustina. Universidad de Buenos Aires; Argentina Fil: Etchezahar, Edgardo Daniel. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Saavedra 15. Centro Interdisciplinario de Investigaciones en Psicología Matemática y Experimental Dr. Horacio J. A. Rimoldi; Argentina

Published

2019

10. Gravitational field calculation in spherical coordinates using variable densities in depth

Author

Santiago Rubén Soler, Agustina Pesce, Mario Gimenez, and Leonardo Uieda

Subjects

Linear density, bepress|Physical Sciences and Mathematics, 010504 meteorology & atmospheric sciences, Discretization, Mathematical analysis, Spherical coordinate system, bepress|Physical Sciences and Mathematics|Earth Sciences, Probability density function, Function (mathematics), EarthArXiv|Physical Sciences and Mathematics|Earth Sciences, 010502 geochemistry & geophysics, 01 natural sciences, Exponential function, EarthArXiv|Physical Sciences and Mathematics, Gravitational potential, Geophysics, Gravitational field, bepress|Physical Sciences and Mathematics|Earth Sciences|Geophysics and Seismology, Geochemistry and Petrology, EarthArXiv|Physical Sciences and Mathematics|Earth Sciences|Geophysics and Seismology, 0105 earth and related environmental sciences, Mathematics

Abstract

SUMMARY We present a new methodology to compute the gravitational fields generated by tesseroids (spherical prisms) whose density varies with depth according to an arbitrary continuous function. It approximates the gravitational fields through the Gauss–Legendre Quadrature along with two discretization algorithms that automatically control its accuracy by adaptively dividing the tesseroid into smaller ones. The first one is a preexisting 2-D adaptive discretization algorithm that reduces the errors due to the distance between the tesseroid and the computation point. The second is a new density-based discretization algorithm that decreases the errors introduced by the variation of the density function with depth. The amount of divisions made by each algorithm is indirectly controlled by two parameters: the distance-size ratio and the delta ratio. We have obtained analytical solutions for a spherical shell with radially variable density and compared them to the results of the numerical model for linear, exponential, and sinusoidal density functions. The heavily oscillating density functions are intended only to test the algorithm to its limits and not to emulate a real world case. These comparisons allowed us to obtain optimal values for the distance-size and delta ratios that yield an accuracy of 0.1 per cent of the analytical solutions. The resulting optimal values of distance-size ratio for the gravitational potential and its gradient are 1 and 2.5, respectively. The density-based discretization algorithm produces no discretizations in the linear density case, but a delta ratio of 0.1 is needed for the exponential and most sinusoidal density functions. These values can be extrapolated to cover most common use cases, which are simpler than oscillating density profiles. However, the distance-size and delta ratios can be configured by the user to increase the accuracy of the results at the expense of computational speed. Finally, we apply this new methodology to model the Neuquén Basin, a foreland basin in Argentina with a maximum depth of over 5000 m, using an exponential density function.

Published

2019

11. Crustal structure in the southern Andes, adjacent foreland, and Atlantic passive margin delineated by satellite gravimetric models

Author

Sebastián Correa Otto, Federico Lince Klinger, Andrés Folguera, Orlando Álvarez, Agustina Pesce, Santiago Rubén Soler, Mario Gimenez, María Alejandra Arecco, and Stefanie Pechuan

Subjects

geography, Tectonics, Craton, Basement, Paleontology, geography.geographical_feature_category, Passive margin, Transition zone, Massif, Foreland basin, Geology, Gravity anomaly

Abstract

Combined models from satellite gravity measurements and terrestrial observations provide a model of Earth’s gravity field with high spatial resolution and accuracy. In this work, we used the combined EIGEN-6C4 model and satellite-only GOCE data, both corrected for topography, to study the crustal structure of the transition zone between the Southern Central Andes and Patagonian Andes, adjacent foreland zone and Atlantic passive margin. We calculated gravity anomalies and vertical gravity gradients for mapping crustal density heterogeneities with the aim of validating and discussing previously proposed crustal models. This work provides additional geophysical constraints for several crustal structures that were discussed and proposed on the basis of geological evidence, such as the Pampean-Pan-African boundary that borders the western edge of the Rio de la Plata craton or the Famatinian paleogeographic boundary that juxtaposes the Laurentia-derived Cuyania and Pampean basement blocks. However, other gravimetric contrasts need to be further evaluated in relation to their tectonic significance, including the Malvinas Fault Zone through the Atlantic passive margin and the internal structure of the North Patagonian Massif. In this work, we highlight that new gravity field models are useful for identifying and mapping with high-precision crustal-order features, providing an innovative tool in geophysical exploration and development of tectonic and paleogeographic models.

Published

2019

12. Contributors

Author

Gemma Acosta, Ariel Almendral, Orlando Álvarez, Inés Aramendía, María Alejandra Arecco, Juan P. Ariza, C. Arriagada, Pedro Arriola, Pilar Ávila, Patrice Baby, Vanesa Barberón, Stéphanie Brichau, Ysabel Calderon, Mauricio Calderón, Gabriela Beatriz Franco Camelio, Horacio N. Canelo, Victor Carlotto, Barbara Carrapa, Ryan Cochrane, Gilda Collo, Eduardo Contreras-Reyes, Peter Copeland, Christian Creixell, Edward Cuipa, Federico M. Dávila, Peter G. DeCelles, Juan Díaz-Alvarado, A. Echaurren, Sebastián Echeverri, A. Encinas, Adrien Eude, Miguel Ezpeleta, Lucía Fernández Paz, D. Figueroa, Andrés Folguera, Gonzalo Galaz, Héctor P.A. García, Carmala N. Garzione, Sarah W.M. George, Matías C. Ghiglione, P. Giampaoli, Guido M. Gianni, Mario Gimenez, Johannes Glodny, E. Gobbo, Marcelo A. Gonzalez, E. Gabriela Gutiérrez, Camilo Higuera, Brian K. Horton, Sofía Iannelli, Lily J. Jackson, James N. Kellogg, Keith A. Klepeis, Federico Lince Klinger, Cullen Kortyna, Thomas J. Lapen, F. Lince-Klinger, Vanesa D. Litvak, C. López, Melanie Louterbach, Leonard Luzieux, Federico Martina, Myriam P. Martinez, F. Martínez, Joseph Martinod, Ezequiel García Morabito, Héctor Mora-Páez, Federico Moreno, Francisco Sánchez Nassif, C. Navarrete, Julieta C. Nóbile, Paul O’Sullivan, Soty Odoh, Verónica Oliveros, G. Olivieri, Sebastián Correa Otto, Mauricio Parra, Ana María Patiño, A. Paul, Mark Pecha, Stefanie Pechuan, Agustina Pesce, Stella Poma, Alice Prudhomme, Juan Carlos Ramírez, Miguel E. Ramos, Alexandra Robert, E. Rocha, E.A. Rojas Vera, Christian Romero, Gonzalo Ronda, Marcos A. Sánchez, Joel E. Saylor, Edward R. Sobel, Santiago R. Soler, Richard A. Spikings, Rodrigo J. Suárez, Christian Sue, Kurt Sundell, Tonny B. Thomsen, Jonathan Tobal, Cristian Vallejo, Roelant Van der Lelij, D. Villagomez, Laura E. Webb, Wilfried Winkler, and Gonzalo Zamora

Published

2019

13. Along-strike segmentation of the Farallon-Phoenix midocean ridge: Insights from the Paleogene tectonic evolution of the Patagonian Andes between 45° and 46°30′S

Author

Andrés Folguera, Alfonso Encinas, Agustina Pesce, Andrés Echaurren, Guido M. Gianni, Santiago Rubén Soler, Héctor P.A. García, César Navarrete, and Marcos Sánchez

Subjects

geography, Paleontology, Tectonics, geography.geographical_feature_category, Subduction, Ridge, Triple junction, Slab window, Magmatism, Mid-ocean ridge, Paleogene, Geology

Abstract

The kinematics of the Farallon-Phoenix-South America triple junction during the Cretaceous and Paleogene periods remain incompletely resolved. Geological studies have interpreted Paleocene-Eocene ridge subduction beneath Patagonia based on the documentation of slab window magmatism and shut-off of the Andean arc. Nevertheless, a new regional synthesis of studies assessing the Paleogene tectonic evolution of Patagonia, focused on a key Andean segment between 45°S and 46°30′S, shows inconsistencies in this interpretation. In particular, the presence of two separate areas with simultaneous slab window-related magmatism and an intervening sector that registered plate-wide contraction, along with a spatiotemporal mismatch between magmatism location and ridge kinematics, preclude a single ridge-trench interaction. As reviewed here, it is likely that the oblique collision of a segmented ridge accounts for the latitudinally variable tectonomagmatic evolution in Paleogene times. Finally, this study highlights the potential of the geological record for decoding the complex configurations of midoceanic ridges during subduction.

Published

2019

14. Oligocene to present shallow subduction beneath the southern Puna plateau

Author

M. González, Guido M. Gianni, Marianela Lupari, Agustina Pesce, Laura Giambiagi, and Héctor P.A. García

Subjects

geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Subduction, Bedrock, 010502 geochemistry & geophysics, 01 natural sciences, Latitude, Paleontology, Tectonics, Geophysics, Trench, Intraplate earthquake, Cenozoic, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The southern Puna plateau is a conspicuous example of a high-elevation orogenic plateau in a non-collisional setting. This orogenic sector is currently located above an anomalously shallow subduction segment, in which timing and relation to upper-plate tectonics have been widely overlooked. This subduction segment, here referred to as the southern Puna shallow subduction (SPSS), is characterized by a ~200 km wide shallow area located at ~300 km from the trench at a depth of ~100–120 km and dipping 10–12° to the east. To determine the onset of the SPSS and its link to the tectonic and magmatic activity in this region, we analyzed the tectonomagmatic record of the southern Puna plateau from preexisting datasets. Also, we present a new approach based on global subduction data that provides a straightforward methodology to extract potential paleo-slab angles from the bedrock arc record. This analysis reveals that a pronounced eastward arc-front migration and magmatic broadening took place at ~26 Ma and was preceded by ~4 Ma of reduced magmatic activity, which we link to the inception of the SPSS. As expected in shallow subduction settings, a change to basement-cored distributed deformation south of 25°S in the southern Puna plateau coincides with the beginning of shallow subduction. Also, the SPSS is coincident with the enigmatic post-Eocene intraplate deformation of the Otumpa Hills located at ~950 km from the trench. We suggest that this succession of events is not fortuitous and that the development of the SPSS impacted directly the overriding plate since the Oligocene contributing to the building of one of the largest topographies (>3 km) and thickest orogenic crusts (~70–60 km) on Earth. The shallow subduction would have acted jointly with Cenozoic changes in plate kinematics and climate enhancing Andean orogenesis at studied latitudes.

Published

2020

15. Transient plate contraction between two simultaneous slab windows: Insights from Paleogene tectonics of the Patagonian Andes

Author

Santiago Rubén Soler, Agustina Pesce, and Guido M. Gianni

Subjects

010504 meteorology & atmospheric sciences, INTRAPLATE CONTRACTION, 010502 geochemistry & geophysics, 01 natural sciences, Ciencias de la Tierra y relacionadas con el Medio Ambiente, purl.org/becyt/ford/1 [https], Paleontology, purl.org/becyt/ford/1.5 [https], SLAB-WINDOW, MIDOCEAN RIDGE-TRENCH INTERACTION, Geología, 0105 earth and related environmental sciences, Earth-Surface Processes, geography, geography.geographical_feature_category, Subduction, Cretaceous, Tectonics, Geophysics, Ridge, INTRAPLATE MAGMATISM, Magmatism, Slab window, Slab, Paleogene, Geology, CIENCIAS NATURALES Y EXACTAS

Abstract

Plate kinematic reconstructions show that the Farallon-Phoenix (Aluk) spreading center subducted under South America sometime between the Late Cretaceous and the Paleogene periods. Geological studies have supported a ridge-trench interaction in Patagonia during Paleocene to Eocene times mostly based on the documentation of slab window magmatism and Andean arc-quiescence. However, a revision of most recent works dealing with the Paleogene tectonic evolution of Central Patagonia between 39 °S to 50 °S highlights inconsistencies in this model. Particularly, the existence of two discrete areas with simultaneous slab window-related magmatism separated by a sector with plate-wide contraction, along with a spatio-temporal mismatch between magmatism location and ridge kinematics, preclude a single ridge-trench interaction. With the purpose to better understand this complex tectonic setting, we integrated this updated geological evolution into a plate kinematic model. We propose that the oblique collision of a segmented Farallon-Phoenix/Aluk mid-ocean ridge would explain the latitudinally variable tectonomagmatic evolution of Patagonia during early Paleogene times. Finally, this work adds resolution to geodynamic processes in active margins where complex midocean ridge-trench interactions take place. Fil: Gianni, Guido Martin. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Juan; Argentina Fil: Pesce, Agustina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Juan; Argentina. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina Fil: Soler, Santiago Rubén. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Juan; Argentina

Published

2018

16. Intraplate seismicity recorded by a local network in the Neuquén Basin, Argentina

Author

Sebastián Correa-Otto, Renzo Furlani, Andrés Nacif, Ruiz Francisco, Silvina Nacif, Agustina Pesce, Mario Gimenez, and Guido M. Gianni

Subjects

010504 meteorology & atmospheric sciences, NEUQUÉN BASIN, ANDEAN STRESS-FIELD, Otras Ciencias de la Tierra y relacionadas con el Medio Ambiente, Geology, Structural basin, Induced seismicity, 010502 geochemistry & geophysics, 01 natural sciences, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Intraplate earthquake, HUMAN INDUCED, HUINCUL SYSTEM, Geomorphology, INTRAPLATE SEISMICITY, CIENCIAS NATURALES Y EXACTAS, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Intraplate seismicity in the Southern Central Andes has been mostly documented to the north of 35°S, while similar phenomenon south of these latitudes is not known so far. In order to contribute to this issue, we analysed seismicity in the Andean back-arc region between 38°S and 39°S through a seismological experiment using a local broadband seismic network in the Neuquén Basin. In this study, we aim to determine the background (base) seismicity of the region, and integrate the results with gravimetric data and previous geological knowledge to identify potential sources of the seismic activity. In addition to low-grade seismicity we recorded a Ml = 3.78 strike-slip earthquake ∼ 100 km west of Neuquén city on November 19, 2015. Seismicity location could be controlled by thermo-mechanical properties of the lithosphere linked to the previous tectonic evolution. On the other hand, the triggering factor could be related to E-W Andean stress-field or to human-induced activity. Fil: Correa Otto, Sebastian Ariel. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Nacif Suvire, Silvina Valeria. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Pesce, Agustina. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Nacif, Andres Antonio. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina Fil: Gianni, Guido Martin. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Furlani, Renzo. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Gimenez, Mario Ernesto. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Ruiz, Juan Francisco. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina

Published

2018

17. Plume overriding triggers shallow subduction and orogeny in the southern Central Andes

Author

Héctor P.A. García, Agustina Pesce, Andrés Folguera, Marianela Lupari, and Guido M. Gianni

Subjects

geography, geography.geographical_feature_category, PLUME-SUBDUCTION ZONE, 010504 meteorology & atmospheric sciences, Subduction, Geology, Orogeny, 010502 geochemistry & geophysics, 01 natural sciences, Mantle plume, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Plate tectonics, Paleontology, Continental drift, FOLD AND THRUST BELT, Lithosphere, Fold and thrust belt, FLAT-SLAB, Intraplate earthquake, PLUME-MODIFIED OROGENESIS, Meteorología y Ciencias Atmosféricas, Seismology, CIENCIAS NATURALES Y EXACTAS, 0105 earth and related environmental sciences

Abstract

Plate tectonic theory implies that mantle plumes may be eventually overridden by lithosphere during continental drift. These events have particular tectonomagmatic consequences for active margins and hence related orogenic processes. Since the first documentation of plume overriding and the definition of the plume-modified orogeny concept, only few examples have been recognized in the geologic record. In this study, we analyze the Neogene tectonic evolution of the Southern Central Andes between 35° and 38°S and its potential relation to the subduction of the Payenia plume as a recent analogue of this process. Through a series of tectonic reconstructions we show that progressive Payenia plume overriding correlates with Neogene arc-front migrations linked to slab shallowing, fold belt reactivation in the Main Cordillera and intraplate contraction in the San Rafael block. Additionally, Nazca slab tear determined from tomographic analyses and subsequent diachronous steepening of the subducted plate may also be an aftermath of plume subduction as often described in the final stages of plume-modified orogeny. Finally, we propose a modern analogue for processes previously described, dating back to the Mesoproterozoic, which provides further insights into these complex settings. Fil: Gianni, Guido Martin. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Garcia, Hector Pedro Antonio. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Lupari, Marianela Nadia. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Pesce, Agustina. Universidad Nacional de San Juan. Facultad de Ciencias Exactas, Físicas y Naturales. Instituto Geofísico Sismológico Volponi; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Folguera Telichevsky, Andres. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Estudios Andinos "Don Pablo Groeber". Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Estudios Andinos "Don Pablo Groeber"; Argentina

Published

2017

18. Analysis of the Illapel Mw = 8.3 Thrust Earthquake Rupture Zone Using GOCE-Derived Gradients

Author

Orlando Álvarez, Agustina Pesce, Mario Gimenez, Andres Folguera, Santiago Soler, and Wenjin Chen

Published

2017

19. A preliminary 3D effective susceptibility model of the Tromen volcano,Modelo preliminar 3-D de susceptibilidad magnética del volcán Tromen

Author

Agustina Pesce, Lupari, M., Gianni, G., Nacif, S., and Gimenez, M.