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The Andes : active subduction orogeny (2006)

Oncken, Onno ; Chong, Guillermo ; Franz, Gerhard ; [et al.]

Cambridge, Mass. [u. a.] : Blackwell Science [u. a.]

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Call number: 4/M 06.0525 ; M 07.0232 ; M 17.88858 ; M 17.88858/2.Ex.

In: Frontiers in earth sciences

Description / Table of Contents: Contents: The big picture.- Elements of the subduction system.- Tectonics and surface processes - Responses to change.- The system at depth: Images and models.- The Andean information system: Data, maps and movies.

Type of Medium: Monograph available for loan

Pages: 568 S. + 1 DVD

Edition: 1. ed

ISBN: 3540243291

Series Statement: Frontiers in earth sciences

Location: Reading room

Location: Upper compact magazine

Branch Library: GFZ Library

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Alexander von Humboldt : Multiperspective Approaches (2022)

Falk, Gregor C. [editor.] ; Strecker, Manfred R. [editor.] ; Schneider, Simon. [editor.]

Cham :Springer International Publishing :

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Keywords: Human geography. ; Environment. ; Physical geography. ; Earth sciences. ; Human Geography. ; Environmental Sciences. ; Earth System Sciences. ; Earth Sciences.

Description / Table of Contents: Part 1: Humboldt’s integrative scientific approach: Pioneering modern Earth system sciences -- “Through a country we never intended to see”. Revisiting The Humboldt renaissance -- Alexander Von Humboldt and earth system science -- Part 2: Humboldt’s influence on bio-geo-sciences -- Humboldt, biogeography, and the dimension of time -- Revisiting the Chimborazo Volcano – Cradle of plant geography -- Part 3: Humboldt, the Earth scientist -- Humboldt's interpretation of the Andean geology -- Part 4: Humboldt, his relevance for contemporary education strategies and the political discourse -- “Should Alexander Von Humboldt be part of contemporary geography education?” -- Alexander Von Humboldt, a liberal ecologist. An essay -- Part 5: Humboldt: Empathic patron, consultant and communicator of science -- The Humboldt paradox: Science communication and mythology -- Indigenous knowledge – Humboldt´S idea of intercultural understanding -- Humboldt’s journey to Russia and Siberia in 1829 – His dual role as consultant and explorer -- Part 6: An epilogue -- Alexander Von Humboldt: Dilletante of natural history or Oracle of modern science?.

Abstract: This book aims to view and to understand Alexander von Humboldt from different perspectives and in varying disciplinary contexts. His contributions addressed numerous topics in the earth but also life sciences—spanning from geo-botany, climatology, paleontology, oceanography, mineralogy, resources, and hydrogeology to links between the environmental impact of humans, erosion, and climate change. From the very beginning, he paved the way for a modern, integrated earth system science approach to decipher, characterize, and model the different forcing factors and their feedback mechanisms. It becomes obvious that Humboldt’s holistic approach is far beyond simple description and empiric data collection. As documented and analyzed in the different texts of this volume, he combines observation and analysis with emotions and subjective perceptions in a very affectionate way. However, this publication does not intend to add another encyclopedic text compilation but to observe and critically analyze this unique personality´s relevance in a modern context, particularly in discussing environmental and social key issues in the twenty-first century.

Type of Medium: Online Resource

Pages: XIV, 231 p. 36 illus., 26 illus. in color. , online resource.

Edition: 1st ed. 2022.

ISBN: 9783030940089

URL: https://doi.org/10.1007/978-3-030-94008-9

DOI: 10.1007/978-3-030-94008-9

DDC: 304.2

Language: English

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Cenozoic Exhumation and Deformation of the Intermontane Pastos Chicos Basin in the Southern Central Andes: Implications for the Tectonic Evolution of the Andean Plateau (Puna) and the Eastern Cordillera Between 23° and 24°S, NW Argentina (2023)

Pingel, Heiko ; Deeken, Anke ; Coutand, Isabelle ; [et al.]

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Publication Date: 2023-07-04

Description: The Andean Plateau of north‐western Argentina (Puna) at a mean elevation of ca. 4.2 km constitutes the southern continuation of the Altiplano; it is a compressional basin‐and‐range province comprising fault‐bounded, high‐elevation mountain ranges and largely internally drained basins with often thick sedimentary and volcaniclastic fill. Growing sedimentological and structural evidence supports the notion that the north‐western Argentine Andes between 22° and 26°S developed from an initial extensive broken‐foreland system that extended across the present‐day eastern Andean flank during the early to middle Eocene. However, compelling evidence of the tectonic history of this region is still missing. Here, we present new apatite fission track and zircon (U–Th)/He thermochronological data and U–Pb zircon ages from intercalated volcanic ash deposits from the Pastos Chicos Basin (23.5°S, 66.5°W) to constrain basin formation and the timing of major crustal deformation in the northern Puna. Inverse thermal modeling of the thermochronological data provides further temporal constraints on the late Cenozoic cooling history of the crust in this region and, by inference, on the timing of upper‐crustal shortening, range uplift, and basin formation in the northern sector of the present‐day Puna Plateau. Specifically, we argue for plateau‐wide distributed deformation in the Eocene between 23° and 24°S, followed by spatially disparate and diachronous deformation (Oligocene to Pliocene).

Description: Plain Language Summary: The Argentine Puna Plateau is a mountainous region in the Central Andes of South America. It is the result of the tectonic convergence between the oceanic Nazca Plate and the continental South American Plate. However, the detailed tectonic evolution of this region is yet unknown. We present new thermochronologic data from the Puna Plateau that allow inferences about crustal deformation and mountain range uplift. Combined with previous studies, our results suggest deformation distributed over the entire plateau during the Eocene. Thereafter, local deformation occurred spatially non‐systematic, possibly related to zones of weakness in the crust.

Description: Key Points: Thermal modeling of apatite fission track and (U‐Th)/He zircon data from the Pastos Chicos Basin shows Oligo‐Miocene onset of exhumation. Regional compilation of spatio‐temporal deformation at 23°–24°S suggests out‐of‐sequence deformation related to basement heterogeneities. Mio‐Pliocene U–Pb zircon ages of volcanic ash deposits refine the chronostratigraphy of the Pastos Chicos Basin.

Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Description: Brandenburg Ministry of Sciences, Research and Cultural Affairs, Germany

Description: Blaustein Fund

Description: Fulbright Foundation

Description: France‐Stanford Center for Interdisciplinary Studies

Description: https://doi.org/10.6084/m9.figshare.20209865.v1

Keywords: ddc:551.8 ; Puna Plateau ; NW Argentina ; thermochronology ; U–Pb zircon geochronology ; mountain range uplift ; Tectonics

Language: English

Type: doc-type:article

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Lithospheric density structure of the southern Central Andes constrained by 3D data-integrative gravity modelling (2020)

Rodriguez Piceda, Constanza ; Scheck Wenderoth, Magdalena ; Gomez Dacal, Maria Laura ; [et al.]

Springer Berlin Heidelberg

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Publication Date: 2023-06-16

Description: The southern Central Andes (SCA) (between 27° S and 40° S) is bordered to the west by the convergent margin between the continental South American Plate and the oceanic Nazca Plate. The subduction angle along this margin is variable, as is the deformation of the upper plate. Between 33° S and 35° S, the subduction angle of the Nazca plate increases from sub-horizontal (〈 5°) in the north to relatively steep (~ 30°) in the south. The SCA contain inherited lithological and structural heterogeneities within the crust that have been reactivated and overprinted since the onset of subduction and associated Cenozoic deformation within the Andean orogen. The distribution of the deformation within the SCA has often been attributed to the variations in the subduction angle and the reactivation of these inherited heterogeneities. However, the possible influence that the thickness and composition of the continental crust have had on both short-term and long-term deformation of the SCA is yet to be thoroughly investigated. For our investigations, we have derived density distributions and thicknesses for various layers that make up the lithosphere and evaluated their relationships with tectonic events that occurred over the history of the Andean orogeny and, in particular, investigated the short- and long-term nature of the present-day deformation processes. We established a 3D model of lithosphere beneath the orogen and its foreland (29° S–39° S) that is consistent with currently available geological and geophysical data, including the gravity data. The modelled crustal configuration and density distribution reveal spatial relationships with different tectonic domains: the crystalline crust in the orogen (the magmatic arc and the main orogenic wedge) is thicker (~ 55 km) and less dense (~ 2900 kg/m3) than in the forearc (~ 35 km, ~ 2975 kg/m3) and foreland (~ 30 km, ~ 3000 kg/m3). Crustal thickening in the orogen probably occurred as a result of stacking of low-density domains, while density and thickness variations beneath the forearc and foreland most likely reflect differences in the tectonic evolution of each area following crustal accretion. No clear spatial relationship exists between the density distribution within the lithosphere and previously proposed boundaries of crustal terranes accreted during the early Paleozoic. Areas with ongoing deformation show a spatial correlation with those areas that have the highest topographic gradients and where there are abrupt changes in the average crustal-density contrast. This suggests that the short-term deformation within the interior of the Andean orogen and its foreland is fundamentally influenced by the crustal composition and the relative thickness of different crustal layers. A thicker, denser, and potentially stronger lithosphere beneath the northern part of the SCA foreland is interpreted to have favoured a strong coupling between the Nazca and South American plates, facilitating the development of a sub-horizontal slab.

Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Description: Federal State of Brandenburg

Description: Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum - GFZ (4217)

Keywords: ddc:551.1 ; Central andes ; Lithospheric structure ; Crustal density ; Gravity modelling ; Subduction

Language: English

Type: doc-type:article

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Late Miocene Exhumation of the Western Cordillera, Ecuador, Driven by Increased Coupling Between the Subducting Carnegie Ridge and the South American Continent (2023)

Margirier, Audrey ; Strecker, Manfred R. ; Reiners, Peter W. ; [et al.]

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Publication Date: 2023-07-20

Description: The subduction of bathymetric highs, such as aseismic ridges, leads to far‐reaching changes in the dynamics of subduction zones with increased plate coupling and deformation in the upper plate. Subduction of the submarine Carnegie Ridge on the Nazca Plate has fundamentally impacted late Cenozoic magmatism and tectonic activity in the northern Andes. However, the timing of onset of Carnegie Ridge subduction has been a matter of debate. Time‐temperature inverse modeling of new thermochronological data from the Western Cordillera of Ecuador reveals two phases of cooling separated by isothermal conditions. The first cooling phase postdates early and middle Miocene magmatism in the Western Cordillera and is attributed to post‐magmatic thermal relaxation. The second cooling phase started after 6 Ma. Inferred to record the onset of tectonically controlled rock uplift and exhumation in the Western Cordillera, this phase is coeval with the last cooling phase recorded in the Eastern Cordillera. Based on these findings, we suggest that the onset of subduction of the Carnegie Ridge at ∼6–5 Ma increased plate coupling at the subduction interface, promoting shortening, regional rock uplift, and exhumation in the northern Andes. Overall, our results highlight the essential role of bathymetric highs in driving regional upper‐plate deformation at non‐collisional convergent plate margins.

Description: Plain Language Summary: Topographic growth and morphology of the Andes have been influenced by subduction processes, tectonic inheritance, and climate. Here, we investigate the role of subduction of high topography on the ocean floor in driving deformation in the upper plate at the Nazca‐South America ocean‐continent plate margin. The subduction of the Carnegie Ridge, a linear, topographically high sector on the Nazca Plate, has impacted magmatism and deformation processes in the Ecuadorian Andes. However, the timing of onset of ridge subduction is debated. We employed radioisotopic dating techniques to evaluate the uplift of the Andes. These techniques record the cooling of rocks as mountain ranges are uplifted and eroded. The thermal histories of rocks from the Western Cordillera in Ecuador reveal two distinct cooling phases. The first cooling phase occurred shortly after Miocene magmatic bodies were emplaced in the Western Cordillera. The second cooling phase began at ∼6–5 Ma, coeval with the last cooling phase in the Eastern Cordillera. We attribute this cooling phase to the onset of uplift and erosion in the Western Cordillera. Based on these findings, we suggest that the onset of subduction of the Carnegie Ridge increased plate coupling and promoted shortening and rock uplift in the northern Andes.

Description: Key Points: Thermochronological data reveal two cooling phases in the Western Cordillera of Ecuador, during the Miocene and after 6 Ma. The onset of cooling at 6 Ma was associated with shortening, rock uplift, and exhumation in the Western Cordillera. Mio‐Pliocene exhumation was related to stronger coupling of the subduction interface due to the initial subduction of the Carnegie Ridge.

Description: Deutscher Akademischer Austauschdienst http://dx.doi.org/10.13039/501100001655

Description: Potsdam University Graduate School

Description: Yachay Tech University

Description: Arizona LaserChron Center

Description: https://zenodo.org/record/7311529#Y4YTYYLMITU

Keywords: ddc:551.8 ; aseismic ridge subduction ; topographic growth ; zircon U‐Pb geochronology ; apatite and zircon (U‐Th)/He and apatite fission‐track thermochronology ; Carnegie ridge ; northern Andes

Language: English

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From Proterozoic tectonics to Quaternary climate variability: Earth system science studies in Latin America (2021)

Riller, Ulrich ; Giambiagi, Laura ; Strecker, Manfred R. ; [et al.]

Springer Berlin Heidelberg

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Publication Date: 2023-07-19

Description: This paper is the editoral of a Special Issue of International Journal of Earth Sciences, that features a selection of scientific contributions presented at the 25th Latin-American Colloquium. According to the Earth System Science format of the Colloquium, the contributions embrace a large temporal and topical spectrum of geological processes and their effects on the individual components of the Earth System. More specifically, the processes address intraplate and plate boundary dynamics related to the architecture of Gondwana and the Cenozoic Andes as well as paleo-environmental, exploration and impact geological studies.

Description: Universität Hamburg (1037)

Keywords: ddc:558 ; Geology ; Geophysics/Geodesy ; Sedimentology ; Structural Geology ; Mineral Resources ; Geochemistry ; Latin America

Language: English

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Turbidite recognition and radiocarbon ages of marine sediment cores along the continental margin of Chile (2015)

Bernhardt, Anne ; Melnick, Daniel ; Hebbeln, Dierk ; [et al.]

PANGAEA

In: Supplement to: Bernhardt, Anne; Melnick, Daniel; Hebbeln, Dierk; Lückge, Andreas; Strecker, Manfred R (2015): Turbidite paleoseismology along the active continental margin of Chile – Feasible or not? Quaternary Science Reviews, 120, 71-92, https://doi.org/10.1016/j.quascirev.2015.04.001

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Publication Date: 2023-03-03

Description: Much progress has been made in estimating recurrence intervals of great and giant subduction earthquakes using terrestrial, lacustrine, and marine paleoseismic archives. Recent detailed records suggest these earthquakes may have variable recurrence periods and magnitudes forming supercycles. Understanding seismic supercycles requires long paleoseismic archives that record timing and magnitude of such events. Turbidite paleoseismic archives may potentially extend past earthquake records to the Pleistocene and can thus complement commonly shorter-term terrestrial archives. However, in order to unambiguously establish recurring seismicity as a trigger mechanism for turbidity currents, synchronous deposition of turbidites in widely spaced, isolated depocenters has to be ascertained. Furthermore, characteristics that predispose a seismically active continental margin to turbidite paleoseismology and the correct sample site selection have to be taken into account. Here we analyze 8 marine sediment cores along 950 km of the Chile margin to test for the feasibility of compiling detailed and continuous paleoseismic records based on turbidites. Our results suggest that the deposition of areally widespread, synchronous turbidites triggered by seismicity is largely controlled by sediment supply and, hence, the climatic and geomorphic conditions of the adjacent subaerial setting. The feasibility of compiling a turbidite paleoseismic record depends on the delicate balance between sufficient sediment supply providing material to fail frequently during seismic shaking and sufficiently low sedimentation rates to allow for coeval accumulation of planktonic foraminifera for high-resolution radiocarbon dating. We conclude that offshore northern central Chile (29-32.5°S) Holocene turbidite paleoseismology is not feasible, because sediment supply from the semi-arid mainland is low and almost no Holocene turbidity-current deposits are found in the cores. In contrast, in the humid region between 36 and 38°S frequent Holocene turbidite deposition may generally correspond to paleoseismic events. However, high terrigenous sedimentation rates prevent high-resolution radiocarbon dating. The climatic transition region between 32.5 and 36°S appears to be best suited for turbidite paleoseismology.

Keywords: BGR; Bundesanstalt für Geowissenschaften und Rohstoffe, Hannover; Center for Marine Environmental Sciences; MARUM

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Format: application/zip, 2 datasets

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Age model and stable isotopes of sediment cores from north-central Chile and south-central Chile (2016)

Bernhardt, Anne ; Hebbeln, Dierk ; Regenberg, Marcus ; [et al.]

PANGAEA

In: Supplement to: Bernhardt, Anne; Hebbeln, Dierk; Regenberg, Marcus; Lückge, Andreas; Strecker, Manfred R (2016): Shelfal sediment transport by an undercurrent forces turbidity-current activity during high sea level along the Chile continental margin. Geology, 44(4), 295-298, https://doi.org/10.1130/G37594.1

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Publication Date: 2023-03-03

Description: Terrigenous sediment supply, marine transport, and depositional processes along tectonically active margins are key to decoding turbidite successions as potential archives of climatic and seismic forcings. Sequence stratigraphic models predict coarse-grained sediment delivery to deep-marine sites mainly during sea-level fall and lowstand. Marine siliciclastic deposition during transgressions and highstands has been attributed to sustained connectivity between terrigenous sources and marine sinks facilitated by narrow shelves. To decipher the controls on Holocene highstand turbidite deposition, we analyzed 12 sediment cores from spatially discrete, coeval turbidite systems along the Chile margin (29° - 40°S) with changing climatic and geomorphic characteristics but uniform changes in sea level. Sediment cores from intraslope basins in north-central Chile (29° - 33°S) offshore a narrow to absent shelf record a shut-off of turbidite deposition during the Holocene due to postglacial aridification. In contrast, core sites in south-central Chile (36° - 40°S) offshore a wide shelf record frequent turbidite deposition during highstand conditions. Two core sites are linked to the Biobío river-canyon system and receive sediment directly from the river mouth. However, intraslope basins are not connected via canyons to fluvial systems but yield even higher turbidite frequencies. High sediment supply combined with a wide shelf and an undercurrent moving sediment toward the shelf edge appear to control Holocene turbidite sedimentation and distribution. Shelf undercurrents may play an important role in lateral sediment transport and supply to the deep sea and need to be accounted for in sediment-mass balances.

Keywords: Center for Marine Environmental Sciences; MARUM

Type: Dataset

Format: application/zip, 7 datasets

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Age models of turbidite cores and a humidity index of sediment cores from the Chilean continental margin (2017)

Bernhardt, Anne ; Schwanghart, Wolfgang ; Hebbeln, Dierk ; [et al.]

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In: Supplement to: Bernhardt, Anne; Schwanghart, Wolfgang; Hebbeln, Dierk; Stuut, Jan-Berend W; Strecker, Manfred R (2017): Immediate propagation of deglacial environmental change to deep-marine turbidite systems along the Chile convergent margin. Earth and Planetary Science Letters, 473, 190-204, https://doi.org/10.1016/j.epsl.2017.05.017

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Publication Date: 2023-03-03

Description: Understanding how Earth-surface processes respond to past climatic perturbations is crucial for making informed predictions about future impacts of climate change on sediment fluxes. Sedimentary records provide the archives for inferring these processes, but their interpretation is compromised by our incomplete understanding of how sediment-routing systems respond to millennial-scale climate cycles. We analyzed seven sediment cores recovered from marine turbidite depositional sites along the Chile continental margin. The sites span a pronounced arid-to-humid gradient with variable relief and related sediment connectivity of terrestrial and marine environments. These sites allowed us to study event-related depositional processes in different climatic and geomorphic settings from the Last Glacial Maximum to the present day. The three sites reveal a steep decline of turbidite deposition during deglaciation. High rates of sea-level rise postdate the decline in turbidite deposition. Comparison with paleoclimate proxies documents that the spatio-temporal sedimentary pattern rather mirrors the deglacial humidity decrease and concomitant warming with no resolvable lag times. Our results let us infer that declining deglacial humidity decreased fluvial sediment supply. This signal propagated rapidly through the highly connected systems into the marine sink in north-central Chile. In contrast, in south-central Chile, connectivity between the Andean erosional zone and the fluvial transfer zone probably decreased abruptly by sediment trapping in piedmont lakes related to deglaciation, resulting in a sudden decrease of sediment supply to the ocean. Additionally, reduced moisture supply may have contributed to the rapid decline of turbidite deposition. These different causes result in similar depositional patterns in the marine sinks. We conclude that turbiditic strata may constitute reliable recorders of climate change across a wide range of climatic zones and geomorphic conditions. However, the underlying causes for similar signal manifestations in the sinks may differ, ranging from maintained high system connectivity to abrupt connectivity loss.

Keywords: Center for Marine Environmental Sciences; MARUM

Type: Dataset

Format: application/zip, 8 datasets

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