TY - JOUR A1 - Guzman, S. A1 - Petrinovic, I. A. A1 - Brod, J. A. A1 - Hongn, Fernando D. A1 - Seggiaro, R. E. A1 - Montero, C. A1 - Carniel, Roberto A1 - Dantas, E. L. A1 - Sudo, Masafumi T1 - Petrology of the Luingo caldera (SE margin of the Puna plateau) a middle Miocene window of the arc-back arc configuration JF - Journal of volcanology and geothermal research N2 - We describe the petrographic characteristics, whole-rock geochemistry and mineral chemistry of rocks from the Pucarilla-Cerro Tipillas Volcanic Complex with emphasis on the rocks belonging to the middle Miocene Luingo caldera, located in the south-eastern portion of the Central Volcanic Zone (CVZ) of the Andes. We modelled the petrogenesis of the Luingo caldera rocks as a mixture of ca. 20% crustal magmas and 80% of mantle magmas by AFC with recharge processes. A comparison of Luingo geochemical data with the composition of Miocene-Pliocene volcanic rocks from the broad area, points to major thickening events during the middle Miocene for the western portion and during the upper Miocene for the eastern portion of the Southern CVZ. In the eastern sector (similar to 66 degrees W) the mantle source appears to change from a spinel-lherzolite type for the middle Miocene to a garnet-lherzolite type for the upper Miocene-Pliocene magmas. The areal distribution of the volcanic products led to the recognition of approximately equivalent areas covered by volcanic rocks both in the eastern and in the western Puna borders. This indicates a broad arc, which was structurally controlled at the proto-Puna/Puna margins, whose geochemical differences are related with variations in crustal thicknesses and heterogeneous mantle sources from west to east. KW - Luingo caldera KW - Central Andes KW - Miocene volcanism KW - Southern Central Volcanic Zone KW - crustal thickness Y1 - 2011 U6 - https://doi.org/10.1016/j.jvolgeores.2010.12.008 SN - 0377-0273 VL - 200 IS - 3-4 SP - 171 EP - 191 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Noury, M. A1 - Bernet, M. A1 - Schildgen, Taylor F. A1 - Simon-Labric, T. A1 - Philippon, M. A1 - Sempere, T. T1 - Crustal-scale block tilting during Andean trench-parallel extension: Structural and geo-thermochronological insights JF - Tectonics N2 - Despite a long history of plate convergence at the western margin of the South American plate that has been ongoing since at least the Early Paleozoic, the southern Peruvian fore-arc displays little to no evidence of shortening. In the light of this observation, we assess the deformation history of the southern Peruvian fore-arc and its geodynamic implications. To accomplish this, we present a new structural and geo-thermochronological data set (zircon U-Pb, mica Ar-40/Ar-39, apatite and zircon fission-track and zircon (U-Th)/He analyses) for samples collected along a 400km long transect parallel to the trench. Our results show that the Mesoproterozoic gneissic basement was mainly at temperatures 350 degrees C since the Neoproterozoic and was later intruded by Jurassic volcanic arc plutons. Along the coast, a peculiar apatite fission-track age pattern, coupled with field observations and a synthesis of available geological maps, allows us to identify crustal-scale tilted blocks that span the coastal Peruvian fore-arc. These blocks, bounded by normal faults that are orthogonal to the trench, suggest post-60Ma trench-parallel extension that potentially accommodated oroclinal bending in this region. Block tilting is consistent with the observed and previously described switch in the location of sedimentary sources in the fore-arc basin. Our data set allows us to estimate the cumulative slip on these faults to be less than 2km and questions the large amount of trench-parallel extension suggested to have accommodated this bending. KW - Central Andes KW - Peruvian fore arc KW - thermochronology KW - trench-parallel extension KW - oroclinal bending Y1 - 2016 U6 - https://doi.org/10.1002/2016TC004231 SN - 0278-7407 SN - 1944-9194 VL - 35 SP - 2052 EP - 2069 PB - American Geophysical Union CY - Washington ER - TY - THES A1 - Castino, Fabiana T1 - Climate variability and extreme hydro-meteorological events in the Southern Central Andes, NW Argentina T1 - Klimavariabilität und extreme hydro-meteorologische Ereignisse in den südlichen Zentralanden, NW Argentinien N2 - Extreme hydro-meteorological events, such as severe droughts or heavy rainstorms, constitute primary manifestations of climate variability and exert a critical impact on the natural environment and human society. This is particularly true for high-mountain areas, such as the eastern flank of the southern Central Andes of NW Argentina, a region impacted by deep convection processes that form the basis of extreme events, often resulting in floods, a variety of mass movements, and hillslope processes. This region is characterized by pronounced E-W gradients in topography, precipitation, and vegetation cover, spanning low to medium-elevation, humid and densely vegetated areas to high-elevation, arid and sparsely vegetated environments. This strong E-W gradient is mirrored by differences in the efficiency of surface processes, which mobilize and transport large amounts of sediment through the fluvial system, from the steep hillslopes to the intermontane basins and further to the foreland. In a highly sensitive high-mountain environment like this, even small changes in the spatiotemporal distribution, magnitude and rates of extreme events may strongly impact environmental conditions, anthropogenic activity, and the well-being of mountain communities and beyond. However, although the NW Argentine Andes comprise the catchments for the La Plata river that traverses one of the most populated and economically relevant areas of South America, there are only few detailed investigations of climate variability and extreme hydro-meteorological events. In this thesis, I focus on deciphering the spatiotemporal variability of rainfall and river discharge, with particular emphasis on extreme hydro-meteorological events in the subtropical southern Central Andes of NW Argentina during the past seven decades. I employ various methods to assess and quantify statistically significant trend patterns of rainfall and river discharge, integrating high-quality daily time series from gauging stations (40 rainfall and 8 river discharge stations) with gridded datasets (CPC-uni and TRMM 3B42 V7), for the period between 1940 and 2015. Evidence for a general intensification of the hydrological cycle at intermediate elevations (~ 0.5 – 3 km asl) at the eastern flank of the southern Central Andes is found both from rainfall and river-discharge time-series analysis during the period from 1940 to 2015. This intensification is associated with the increase of the annual total amount of rainfall and the mean annual discharge. However, most pronounced trends are found at high percentiles, i.e. extreme hydro-meteorological events, particularly during the wet season from December to February.An important outcome of my studies is the recognition of a rapid increase in the amount of river discharge during the period between 1971 and 1977, most likely linked to the 1976-77 global climate shift, which is associated with the North Pacific Ocean sea surface temperature variability. Interestingly, after this rapid increase, both rainfall and river discharge decreased at low and intermediate elevations along the eastern flank of the Andes. In contrast, during the same time interval, at high elevations, extensive areas on the arid Puna de Atacama plateau have recorded increasing annual rainfall totals. This has been associated with more intense extreme hydro-meteorological events from 1979 to 2014. This part of the study reveals that low-, intermediate, and high-elevation sectors in the Andes of NW Argentina respond differently to changing climate conditions. Possible forcing mechanisms of the pronounced hydro-meteorological variability observed in the study area are also investigated. For the period between 1940 and 2015, I analyzed modes of oscillation of river discharge from small to medium drainage basins (102 to 104 km2), located on the eastern flank of the orogen. First, I decomposed the relevant monthly time series using the Hilbert-Huang Transform, which is particularly appropriate for non-stationary time series that result from non-linear natural processes. I observed that in the study region discharge variability can be described by five quasi-periodic oscillatory modes on timescales varying from 1 to ~20 years. Secondly, I tested the link between river-discharge variations and large-scale climate modes of variability, using different climate indices, such as the BEST ENSO (Bivariate El Niño-Southern Oscillation Time-series) index. This analysis reveals that, although most of the variance on the annual timescale is associated with the South American Monsoon System, a relatively large part of river-discharge variability is linked to Pacific Ocean variability (PDO phases) at multi-decadal timescales (~20 years). To a lesser degree, river discharge variability is also linked to the Tropical South Atlantic (TSA) sea surface temperature anomaly at multi-annual timescales (~2-5 years). Taken together, these findings exemplify the high degree of sensitivity of high-mountain environments with respect to climatic variability and change. This is particularly true for the topographic transitions between the humid, low-moderate elevations and the semi-arid to arid highlands of the southern Central Andes. Even subtle changes in the hydro-meteorological regime of these areas of the mountain belt react with major impacts on erosional hillslope processes and generate mass movements that fundamentally impact the transport capacity of mountain streams. Despite more severe storms in these areas, the fluvial system is characterized by pronounced variability of the stream power on different timescales, leading to cycles of sediment aggradation, the loss of agriculturally used land and severe impacts on infrastructure. N2 - Extreme hydro-meteorologische Ereignisse, wie langanhaltende Dürren oder Starkregen, gelten als Haupterscheinungsform der Klimavariabilität und haben einen entscheidenden Einfluss auf Umwelt und Gesellschaft. Dies gilt im Besonderen für die großen Gebirgsregionen dieser Erde. In einer extrem sensiblen Hochgebirgsregion wie den NW argentinischen Anden haben selbst geringe Veränderungen in der Intensität solcher Extremereignisse, sowie deren Häufigkeit und räumliche Verteilung, nicht nur einen großen Einfluss auf die Landschaftsentwicklung; flussabwärtsliegende Gemeinden sind zudem wirtschaftlich als auch humanitär einem hohen Risiko ausgesetzt. Die vorliegende Arbeit befasst sich im Wesentlichen mit der räumlich-zeitlichen Verteilung von Niederschlags- und Abflussmengen über den Zeitraum der letzten sieben Jahrzente, mit besonderem Fokus auf extreme hydro-meteorologische Ereignisse der subtropischen Zentralanden NW-Argentiniens. Um räumliche und zeitliche statistisch signifikante Trends der Niederschlags- und Abflussmengen bestimmen und quantifizieren zu können, finden in dieser Arbeit verschiedene Methoden Anwendung, in denen hochaufgelöste Zeitreihen von Niederschlags- und Abflussmengenstationen mit diversen Rasterdatensätzen von 1940 bis 2015 kombiniert werden. Über den betrachteten Zeitraum hinweg lässt sich eine allgemeine Intensivierung des hydrologischen Kreislaufes auf mittleren Höhen (500 - 3.000 m ü. NN) belegen. Diese Intensivierung steht einerseits im Zusammenhang mit dem Ansteigen von Extremwetterereignissen, besonders während der Regenzeit von Dezember bis Februar. Der beobachtete Anstieg in der Intensität dieser Wetterlagen deutet auf einen Zusammenhang der schweren Regenstürme und der Verlandung der Abflussbecken in der untersuchten, intermontanen Region hin. Ein rapider Anstieg in der Abflussmenge in Flüssen um bis zu 40% ist für den Zeitraum zwischen 1971 und 1977 dokumentiert. Dieser steht höchstwahrscheinlich mit der globalen Klimaverschiebung von 1976-77 in Zusammenhang, welche wiederum durch die Variabilität der Oberflächentemperatur des Pazifischen Ozeans beeinflusst wird. Nach diesem starken Anstieg können jedoch abnehmende Trends in Niederschlags- wie auch Abflussmengen auf niedrigen und mittleren Höhen der Ostflanken der Anden beobachtet werden. Im Gegensatz dazu belegen ein Anstieg der jährlichen Gesamtniederschlagsmenge sowie der Magnitude von extremen hydro-meterologischen Ereignissen in hohen Höhenlagen der trockenen Puna de Atacama Plateaus, dass niedrige, mittlere und hohe Sektoren der NW argentinischen Anden unterschiedlich auf Änderungen des Klimas reagieren. Schlussendlich kann die in der Region beobachtete, stark ausgeprägte Variabilität in der Hydro-meteorologie über jährliche Zeiträume zum größten Teil mit dem Südamerikanischen Monsunsystem erklärt werden. Jedoch sind große Anteile in der Variabilität der Abflussmenge auch stark an die Pazifische Dekaden-Oszillation (PDO) in Zeiträumen über mehrereJahrzehnte (~20 Jahre) gekoppelt und zu einem geringeren Anteil auch an die Meeresoberflächentemperatur-Anomalie des tropischen Südatlantiks (TSA) über mehrjährige Zeiträume hinweg (~2-5 Jahre). Interessanterweise wurden nur weniger stark ausgeprägte Zusammenhänge zwischen der Abflussvariabilität und El Niño-Southern Oscillation in unserem Untersuchungsgebiet gefunden. KW - climate variability KW - extreme hydrometeorological events KW - Central Andes KW - Klimavariabilität KW - extreme hydro-meteorologische Ereignisse KW - Zentralanden Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-396815 ER - TY - JOUR A1 - Castino, Fabiana A1 - Bookhagen, Bodo A1 - Strecker, Manfred T1 - Rainfall variability and trends of the past six decades (1950-2014) in the subtropical NW Argentine Andes JF - Climate dynamics : observational, theoretical and computational research on the climate system N2 - The eastern flanks of the Central Andes are characterized by deep convection, exposing them to hydrometeorological extreme events, often resulting in floods and a variety of mass movements. We assessed the spatiotemporal pattern of rainfall trends and the changes in the magnitude and frequency of extreme events (ae95th percentile) along an E-W traverse across the southern Central Andes using rain-gauge and high-resolution gridded datasets (CPC-uni and TRMM 3B42 V7). We generated different climate indices and made three key observations: (1) an increase of the annual rainfall has occurred at the transition between low (< 0.5 km) and intermediate (0.5-3 km) elevations between 1950 and 2014. Also, rainfall increases during the wet season and, to a lesser degree, decreases during the dry season. Increasing trends in annual total amounts characterize the period 1979-2014 in the arid, high-elevation southern Andean Plateau, whereas trend reversals with decreasing annual total amounts were found at low elevations. (2) For all analyzed periods, we observed small or no changes in the median values of the rainfall-frequency distribution, but significant trends with intensification or attenuation in the 95th percentile. (3) In the southern Andean Plateau, extreme rainfall events exhibit trends towards increasing magnitude and, to a lesser degree, frequency during the wet season, at least since 1979. Our analysis revealed that low (< 0.5 km), intermediate (0.5-3 km), and high-elevation (> 3 km) areas respond differently to changing climate conditions, and the transition zone between low and intermediate elevations is characterized by the most significant changes. KW - Extreme rainfall KW - South American Monsoon System KW - Central Andes KW - Quantile regression KW - Rain gauges KW - CPC-uni KW - TRMM KW - Orographic barrier Y1 - 2017 U6 - https://doi.org/10.1007/s00382-016-3127-2 SN - 0930-7575 SN - 1432-0894 VL - 48 SP - 1049 EP - 1067 PB - Springer CY - New York ER - TY - JOUR A1 - Castino, Fabiana A1 - Bookhagen, Bodo A1 - Strecker, Manfred T1 - Oscillations and trends of river discharge in the southern Central Andes and linkages with climate variability JF - Journal of hydrology N2 - This study analyzes the discharge variability of small to medium drainage basins (10(2)-10(4) km(2)) in the southern Central Andes of NW Argentina. The Hilbert-Huang Transform (HHT) was applied to evaluate non-stationary oscillatory modes of variability and trends, based on four time series of monthly normalized discharge anomaly between 1940 and 2015. Statistically significant trends reveal increasing discharge during the past decades and document an intensification of the hydrological cycle during this period. An Ensemble Empirical Mode Decomposition (EEMD) analysis revealed that discharge variability in this region can be best described by five quasi-periodic statistically significant oscillatory modes, with mean periods varying from 1 to 20 y. Moreover, we show that discharge variability is most likely linked to the phases of the Pacific Decadal Oscillation (PDO) at multi-decadal timescales (similar to 20 y) and, to a lesser degree, to the Tropical South Atlantic SST anomaly (TSA) variability at shorter timescales (similar to 2-5 y). Previous studies highlighted a rapid increase in discharge in the southern Central Andes during the 1970s, inferred to have been associated with the global 1976-77 climate shift. Our results suggest that the rapid discharge increase in the NW Argentine Andes coincides with the periodic enhancement of discharge, which is mainly linked to a negative to positive transition of the PDO phase and TSA variability associated with a long-term increasing trend. We therefore suggest that variations in discharge in this region are largely driven by both natural variability and the effects of global climate change. We furthermore posit that the links between atmospheric and hydrologic processes result from a combination of forcings that operate on different spatiotemporal scales. (C) 2017 Elsevier B.V. All rights reserved. KW - River discharge KW - Central Andes KW - Empirical Mode Decomposition KW - PDO KW - Climate variability KW - Global climate change Y1 - 2017 U6 - https://doi.org/10.1016/j.jhydrol.2017.10.001 SN - 0022-1694 SN - 1879-2707 VL - 555 SP - 108 EP - 124 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Ibarra, Federico A1 - Liu, Sibiao A1 - Meeßen, Christian A1 - Prezzi, Claudia Beatriz A1 - Bott, Judith A1 - Scheck-Wenderoth, Magdalena A1 - Sobolev, Stephan Vladimir A1 - Strecker, Manfred T1 - 3D data-derived lithospheric structure of the Central Andes and its implications for deformation: Insights from gravity and geodynamic modelling JF - Tectonophysics : international journal of geotectonics and the geology and physics of the interior of the earth N2 - We present a new three-dimensional density model of the Central Andes characterizing the structure and composition of the lithosphere together with a geodynamic simulation subjected to continental intraplate shortening. The principal aim of this study is to assess the link between heterogeneities in the lithosphere and different deformation patterns and styles along the orogen-foreland system of the Central Andes. First, we performed a 3D integration of new geological and geophysical data with previous models through forward modelling of Bouguer anomalies. Subsequently, a geodynamic model was set-up and parametrized from the previously obtained 3D structure and composition. We do not find a unambigous correlation between the resulting density configuration and terrane boundaries proposed by other authors. Our models reproduce the observed Bouguer anomaly and deformation patterns in the foreland. We find that thin-skinned deformation in the Subandean fold-and thrust belt is controlled by a thick sedimentary layer and coeval underthrusting of thin crust of the foreland beneath the thick crust of the Andean Plateau. In the adjacent thick-skinned deformation province of the inverted Cretaceous extensional Santa Barbara System sedimentary strata are much thinner and crustal thickness transitions from greater values in the Andean to a more reduced thickness in the foreland. Our results show that deformation processes occur where the highest gradients of lithospheric strength are present between the orogen and the foreland, thus suggesting a spatial correlation between deformation and lithospheric strength. KW - Central Andes KW - Lithospheric structure KW - Gravity modelling KW - Geodynamic modelling KW - Deformation Y1 - 2019 U6 - https://doi.org/10.1016/j.tecto.2019.06.025 SN - 0040-1951 SN - 1879-3266 VL - 766 SP - 453 EP - 468 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Araya Vargas, Jaime Andrés A1 - Meqbel, Naser M. A1 - Ritter, Oliver A1 - Brasse, H. A1 - Weckmann, Ute A1 - Yanez, Gonzalo A1 - Godoy, B. T1 - Fluid Distribution in the Central Andes Subduction Zone Imaged With Magnetotellurics JF - Journal of geophysical research : Solid earth N2 - We present a model of the electrical resistivity structure of the lithosphere in the Central Andes between 20 degrees and 24 degrees S from 3-D inversion of 56 long-period magnetotelluric sites. Our model shows a complex resistivity structure with significant variability parallel and perpendicular to the trench direction. The continental forearc is characterized mainly by high electrical resistivity (>1,000m), suggesting overall low volumes of fluids. However, low resistivity zones (LRZs, <5m) were found in the continental forearc below areas where major trench-parallel faults systems intersect NW-SE transverse faults. Forearc LRZs indicate circulation and accumulation of fluids in highly permeable fault zones. The continental crust along the arc shows three distinctive resistivity domains, which coincide with segmentation in the distribution of volcanoes. The northern domain (20 degrees-20.5 degrees S) is characterized by resistivities >1,000m and the absence of active volcanism, suggesting the presence of a low-permeability block in the continental crust. The central domain (20.5 degrees-23 degrees S) exhibits a number of LRZs at varying depths, indicating different levels of a magmatic plumbing system. The southern domain (23 degrees-24 degrees S) is characterized by resistivities >1,000m, suggesting the absence of large magma reservoirs below the volcanic chain at crustal depths. Magma reservoirs located below the base of the crust or in the backarc may fed active volcanism in the southern domain. In the subcontinental mantle, the model exhibits LRZs in the forearc mantle wedge and above clusters of intermediate-depth seismicity, likely related to fluids produced by serpentinization of the mantle and eclogitization of the slab, respectively. KW - Subduction Zone KW - Central Andes KW - Magnetotellurics KW - Seismotectonic segmentation KW - Fluid processes Y1 - 2019 U6 - https://doi.org/10.1029/2018JB016933 SN - 2169-9313 SN - 2169-9356 VL - 124 IS - 4 SP - 4017 EP - 4034 PB - American Geophysical Union CY - Washington ER - TY - THES A1 - Liu, Sibiao T1 - Controls of foreland-deformation patterns in the orogen-foreland shortening system N2 - The Andean Plateau (Altiplano-Puna Plateau) of the southern Central Andes is the second-highest orogenic plateau on our planet after Tibet. The Andean Plateau and its foreland exhibit a pronounced segmentation from north to south regarding the style and magnitude of deformation. In the Altiplano (northern segment), more than 300 km of tectonic shortening has been recorded, which started during the Eocene. A well-developed thin-skinned thrust wedge located at the eastern flank of the plateau (Subandes) indicates a simple-shear shortening mode. In contrast, the Puna (southern segment) records approximately half of the shortening of the Altiplano - and the shortening started later. The tectonic style in the Puna foreland switches to a thick-skinned mode, which is related to pure-shear shortening. In this study, carried out in the framework of the StRATEGy project, high-resolution 2D thermomechanical models were developed to systematically investigate controls of deformation patterns in the orogen-foreland pair. The 2D and 3D models were subsequently applied to study the evolution of foreland deformation and surface topography in the Altiplano-Puna Plateau. The models demonstrate that three principal factors control the foreland-deformation patterns: (i) strength differences in the upper lithosphere between the orogen and its foreland, rather than a strength difference in the entire lithosphere; (ii) gravitational potential energy of the orogen (GPE) controlled by crustal and lithospheric thicknesses, and (iii) the strength and thickness of foreland-basin sediments. The high-resolution 2D models are constrained by observations and successfully reproduce deformation structures and surface topography of different segments of the Altiplano-Puna plateau and its foreland. The developed 3D models confirm these results and suggest that a relatively high shortening rate in the Altiplano foreland (Subandean foreland fold-and-thrust belt) is due to simple-shear shortening facilitated by thick and mechanically weak sediments, a process which requires a much lower driving force than the pure-shear shortening deformation mode in the adjacent broken foreland of the Puna, where these thick sedimentary basin fills are absent. Lower shortening rate in the Puna foreland is likely accommodated in the forearc by the slab retreat. N2 - Das Andenplateau (Altiplano-Puna-Plateau) in den südlichen Zentralanden ist nach Tibet das zweithöchste orogene Plateau auf unserem Planeten. Dieses Plateau und sein Vorland weisen eine ausgeprägte Segmentierung von Nord nach Süd hinsichtlich Art und Ausmaß der Verformung auf. Im Altiplano (nördliches Segment) wird seit der im Eozän stattfindenden Deformation mehr als 300 km tektonische Verkürzung dokumentiert. Ein gut entwickelter sedimentärer Schubkeil bzw. Vorland-Überschiebungsgürtel (Subandin) an der Ostflanke des Plateaus (thin-skinned foreland deformation) deutet in dieser Region des Vorlandes auf Prozesse einfacher Scherung hin (simple-shear modus). Im Gegensatz dazu weist die Puna (südliches Plateausegment) ungefähr die Hälfte der Verkürzung des Altiplano auf - und die Verkürzung begann später. Außerdem geht der tektonische Stil im Puna-Vorland zu einem zerbrochenen Vorland mit Kristallinblöcken (thick-skinned foreland) über, der mit der Verkürzung durch reine Scherung (pure-shear modus) erklärt werden kann. In dieser Studie, die im Rahmen des StRATEGy-Projekts durchgeführt wurde, wurden hochauflösende thermomechanische 2D-Modelle entwickelt, um systematisch die Kontrolle von Verformungsmustern im Orogen-Vorland-Paar zu untersuchen. Die 2D- und 3D-Modelle wurden anschließend angewendet, um die Entwicklung der Vorlanddeformation und der Oberflächentopographie im Altiplano-Puna-Plateau zu verstehen. Die Modelle zeigen, dass drei Hauptfaktoren die Deformationsmuster des Vorlandes steuern: (i) Festigkeitsunterschiede in der oberen Lithosphäre zwischen dem Orogen und seinem Vorland - und nicht Festigkeitsunterschiede in der gesamten Lithosphäre; (ii) die gravitationsbezogene potentielle Energie des Orogens (GPE), die durch die Krusten- und Lithosphärenmächtigkeit gesteuert wird und (iii) die Festigkeit sowie Mächtigkeiten der Vorlandbeckensedimente. Die hochauflösenden 2D-Modelle sind auf tatsächliche Daten aus Beobachtungen beschränkt und reproduzieren erfolgreich Deformationsstrukturen sowie die topographischen Verhältnisse der verschiedenen Segmente des Altiplano-Puna-Plateaus und seines Vorlandes. Die entwickelten 3D-Modelle bestätigen diese Ergebnisse und legen nahe, dass die relativ hohe Verkürzungsrate im Altiplano-Vorland (Subandin) bei den vorhandenen mächtigen Sedimentabfolgen geringer mechanischer Festigkeit weniger Kraftaufwand erfordert als die Deformation des Puna-Vorlandes, wo diese Sedimente weitgehend fehlen. Die geringeren Verkürzungsbeträge im Puna-Vorland werden wahrscheinlich durch das Zurückweichen der Subduktionszone im Forearc-Bereich ausgeglichen. KW - geodynamics KW - numerical modeling KW - Central Andes KW - foreland deformation KW - geophysics KW - Geodynamik KW - numerische Modellierung KW - Zentralanden KW - Vorlanddeformation KW - Geophysik Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-445730 ER - TY - JOUR A1 - Liu, Sibiao A1 - Sobolev, Stephan A1 - Babeyko, Andrey A1 - Pons, Michaël T1 - Controls of the foreland deformation pattern in the orogen-foreland shortening system BT - constraints from high-resolution geodynamic models JF - Tectonics N2 - Controls on the deformation pattern (shortening mode and tectonic style) of orogenic forelands during lithospheric shortening remain poorly understood. Here, we use high-resolution 2D thermomechanical models to demonstrate that orogenic crustal thickness and foreland lithospheric thickness significantly control the shortening mode in the foreland. Pure-shear shortening occurs when the orogenic crust is not thicker than the foreland crust or thick, but the foreland lithosphere is thin (<70-80 km, as in the Puna foreland case). Conversely, simple-shear shortening, characterized by foreland underthrusting beneath the orogen, arises when the orogenic crust is much thicker. This thickened crust results in high gravitational potential energy in the orogen, which triggers the migration of deformation to the foreland under further shortening. Our models present fully thick-skinned, fully thin-skinned, and intermediate tectonic styles in the foreland. The first tectonics forms in a pure-shear shortening mode whereas the others require a simple-shear mode and the presence of thick (>similar to 4 km) sediments that are mechanically weak (friction coefficient = 6 crustal earthquakes since the first historically recorded event in 1692. One of these events corresponds to the Anta earthquake on 25 August 1948, with epicenter in the Santa Barbara System causing three deaths and severe damage in Salta and Jujuy provinces with maximum Modified Mercalli seismic intensities (MMI) of IX. We collected and digitized analog seismograms of this earthquake from worldwide seismic observatories in order to perform first-motion analysis and modeling of long-period teleseismic P-waveforms. Our results indicate a simple seismic source of M0 = 2.85 x 1019 N m consistent with a moment magnitude Mw = 6.9. We have also tested for the focal depth determining a shallow source at 8 km with a reverse focal mechanism solution with a minor dextral strike-slip component (strike 20 degrees, dip 30 degrees, rake 120 degrees) from the best fit of waveforms. Using magnitude size empirical relationships, the comparison of the obtained Mw 6.9 magnitude value and the ca. 10,000 km2 area of MMI >= IX from our seismic intensity map, which was obtained from newspaper and many historical reports, indicates a rupture length of 42 +/- 8 km for the Anta earthquake. We show our results in a 3D geological model around the epicentral area, which integrates modern seismicity, geological data, and information of a previously studied east-west cross section located a few kilometers south of the 1948 epicenter. The integration of all available information provides evidence of the re-activation of the Pie de la Sierra del Gallo fault during the 1948 Mw 6.9 shallow earthquake; this thrust fault bounds the Santa Barbara System along its western foothill. KW - Active tectonics KW - Analog historical seismograms KW - Andean back-arc; KW - Thick-skinned tectonics KW - Central Andes Y1 - 2022 U6 - https://doi.org/10.1016/j.jsames.2022.103822 SN - 0895-9811 SN - 1873-0647 VL - 116 PB - Elsevier CY - Oxford ER -