TY - JOUR A1 - Altenberger, Uwe A1 - Cisterna, Clara A1 - Günter, Christina A1 - Gutiérrez, Adolfo Antonio A1 - Rosales, J. T1 - Tectono-metamorphic evolution of the proto-Andean margin of Gondwana BT - Evidence of internal high-grade metamorphism along the northern portion of the Famatinian orogen, Sierra de Aconquija, Sierras Pampeanas Orientales, Argentina JF - Journal of South American earth sciences N2 - The present work gives a detailed analysis of the metamorphic and structural evolution of the back-arc portion of the Famatinian Orogen exposed in the southern Sierra de Aconquija (Cuesta de La Chilca segment) in the Sierras Pampeanas Orientales (Eastern Pampean Sierras). The Pampeanas Orientales include from north to south the Aconquija, Ambato and Ancasti mountains. They are mainly composed of middle to high grade metasedimentary units and magmatic rocks. At the south end of the Sierra de Aconquija, along an east to west segment extending over nearly 10 km (Cuesta de La Chilca), large volumes of metasedimentary rocks crop out. The eastern metasediments were defined as members of the El Portezuelo Metamorphic-Igneous Complex (EPMIC) or Eastern block and the western ones relate to the Quebrada del Molle Metamorphic Complex (QMMC) or Western block. The two blocks are divided by the La Chilca Shear Zone, which is reactivated as the Rio Chanarito fault. The EPMIC, forming the hanging wall, is composed of schists, gneisses and rare amphibolites, calc- silicate schists, marbles and migmatites. The rocks underwent multiple episodes of deformation and a late high strain-rate episode with gradually increasing mylonitization to the west. Metamorphism progrades from a M-1 phase to the peak M-3, characterized by the reactions: Qtz + Pl + Bt +/- Ms -> Grt + Bt(2) + Pl(2) +/- Sil +/- Kfs, Qtz + Bt + Sil -> Crd + Kfs and Qtz + Grt + Sil -> Crd. The M-3 assemblage is coeval with the dominant foliation related to a third deformational phase (D-3). The QMMC, forming the foot wall, is made up of fine-grained banded quartz - biotite schists with quartz veins and quartz-feldspar-rich pegmatites. To the east, schists are also overprinted by mylonitization. The M-3 peak assemblage is quartz + biotite + plagioclase +/- garnet +/- sillimanite +/- muscovite +/- ilmenite +/- magnetite +/- apatite. The studied segment suffered multiphase deformation and metamorphism. Some of these phases can be correlated between both blocks. D-1 is locally preserved in scarce outcrops in the EPMIC but is the dominant in the QMMC, where S-1 is nearly parallel to S-0. In the EPMIC, D-2 is represented by the S-2 foliation, related to the F-2 folding that overprints S-1, with dominant strike NNW - SSE and high angles dip to the E. D-3 in the EPMIC have F-3 folds with axis oblique to S-2; the S-3 foliation has striking NW - SE dipping steeply to the E or W and develops interference patterns. In the QMMC, S-2 (D-2) is a discontinuous cleavage oblique to S-1 and transposed by S-3 (D-3), subparallel to S-1. Such structures in the QMMC developed at subsolidus conditions and could be correlated to those of the EPMIC, which formed under higher P-T conditions. The penetrative deformation D-2 in the EPMIC occurred during a prograde path with syntectonic growth of garnet reaching P-T conditions of 640 degrees C and 0.54 GPa in the EPMIC. This stage was followed by a penetrative deformation D-3 with syn-kinematic growth of garnet, cordierite and plagioclase. Peak P-T conditions calculated for M-3 are 710 degrees C and 0.60 GPa, preserved in the western part of the EPMIC, west of the unnamed fault. The schists from the QMMC suffered the early low grade M-1 metamorphism with minimum PT conditions of ca 400 degrees C and 0.35 GPa, comparable to the fine schists (M-1) outcropping to the east. The D-2 deformation is associated with the prograde M-2 metamorphism. The penetrative D-3 stage is related to a medium grade metamorphism M-3, with peak conditions at ca 590 degrees C and 0.55 GPa. The superimposed stages of deformation and metamorphism reaching high P-T conditions followed by isothermal decompression, defining a clockwise orogenic P-T path. During the Lower Paleozoic, folds were superimposed and recrystallization as well as partial melting at peak conditions occurred. Similar characteristics were described from the basement from other Famatinian-dominated locations of the Sierra de Aconquija and other ranges of the Sierras Pampeanas Orientales. KW - Famatinian KW - Sierras Pampeanas Orientales KW - Cuesta de la chilca KW - PT path Y1 - 2021 U6 - https://doi.org/10.1016/j.jsames.2021.103305 SN - 0895-9811 VL - 110 PB - Elsevier CY - Oxford ER - TY - THES A1 - Arnous, Ahmad T1 - Paleosismología y neotectónica del antepaís fragmentado en el extremo sureste del Sistema Santa Bárbara, Noroeste Argentino T1 - Paleoseismology and neotectonics of the broken foreland in the extreme southeast of the Santa Bárbara System, Northwest Argentina N2 - This thesis constitutes a multidisciplinary study of the central sector of the Santa Bárbara System geological province, the tectonically active broken foreland of the central Andes of north-western Argentina. The study is based on a tectono-geomorphic characterization combined with a variety of geophysical and structural studies. The principal focus was on the faulted piedmont regions of the Sierra de La Candelaria and, to a lesser degree, the extreme south of the intermontane Metán basin. The study region is located in the border area between the provinces of Salta and Tucumán. The main objective was to characterize and analyze evidence of Quaternary tectonic activity in the region, in order to increase the available information on neotectonic structures and their seismogenic potential. To this end, several methods were applied and integrated, such as the interpretation of seismic reflection lines, the creation of structural sections and kinematic modeling, as well as near-surface geophysical methods, in order to explore the geometry of faults observed at the surface and to assess the behavior of potential blind faults. In a first step, a geomorphic and structural survey of the study area was carried out using LANDSAT and SENTINEL 2 multispectral satellite images, which allowed to recognize different levels of Quaternary alluvial fans and fluvial terraces that are important strain markers in the field. In a second step, different morphometric indexes were determined from digital elevation models (DEM) and combined with field observations; it was possible to identify evidence of tectonic deformation related to four neotectonic faults. In a third step, three structures (Arias, El Quemado and Copo Quile faults) were selected for more detailed studies involving Electrical Resistive Tomography (ERT) and Seismic Refraction Tomography (SRT). This part of the study enabled me to define the geometry of faults at depth, helped to infer geometric and kinematic characteristics, and confirmed the extent of recent deformation. The Arias and El Quemado faults were interpreted as reverse faults related to layer-parallel, flexuralslip faulting, while the Copo Quile fault was interpreted as a blind reverse fault. Subsequently, a joint interpretation of seismic reflection lines and well-logs from the Choromoro and Metán basins was carried out, to decipher the principal structures and their influence on the deformation of the different sedimentary units in the intermontane basins. The obtained information was integrated into a kinematic model. This model suggests that the recent deformation is driven by a blind, deep-seated reverse fault, located under the Sierra de La Candelaria and Cantero anticline. The corresponding shortening involves the sedimentary strata of the Salta and Orán groups in the adjacent basins, which was accommodated by faults that moved along stratal boundaries, thus bending and folding the Quaternary deposits at the surface. The kinematic model enabled identifying the approximate location of the important detachment horizons that control the overall crustal deformation style in this region. The shallowest detachment horizon is located at 4 km depth and controls deformation in a thin-skinned manner. In addition, the horizon of the thick-skinned style of deformation was identified at 21 km depth. Finally, from the integration of all the results obtained, the seismogenic potential of the faults in the study area was evaluated. The first-order faults that control deformation in the area are responsible for the large earthquakes. While, Quaternary flexural-slip faults affecting only the sedimentary cover are secondary structures that accommodate deformation and were activated very low magnitude earthquakes and/or aseismic movements. In conclusion, the results of this study allow to demonstrate that the regional fault system of intrabasinal faults in the Santa Bárbara System constitutes a potential seismogenic source in the region, where numerous towns and extensive civilian infrastructure are located. In addition, the derived kinematic model requires the existence of numerous blind structures. Only for a small number of these their presence can be unambiguously detected at the surface by geomorphic analysis, which emphasizes the need of conducting this type of studies in tectonically active regions such as the Santa Bárbara System. N2 - En el presente trabajo se realizó una investigación multidisciplinaria combinando métodos de geomorfología tectónica con estudios geofisicos y estructurales, focalizados principalmente en la caracterización neotectónica de ambos faldeos de la sierra de La Candelaria y del extremo sur de la cuenca de Metán. La zona de estudio se encuentra ubicada en la región limítrofe entre las provincias de Salta y Tucumán y pertenece a la provincia geológica del Sistema Santa Bárbara. El principal objetivo consistió en contextualizar las evidencias de actividad tectónica cuaternaria de la región mediante la propuesta de un modelo estructural novedoso, con el propósito de incrementar la información disponible sobre estructuras neotectónicas y su potencial sismogénico. Con este fin, se aplicaron e integraron diversas técnicas tales como la interpretación de líneas sísmicas de reflexión, construcción de secciones estructurales balanceadas, y métodos geofísicos someros, para constatar el comportamiento en profundidad tanto de las estructuras geológicas identificadas en superficie como de las posibles fallas ciegas corticales involucradas. En primer lugar, se realizó un relevamiento regional del área de estudio empleando imágenes satelitales multiespectrales LANDSAT y SENTINEL 2, que permitieron reconocer diferentes niveles de abanicos aluviales y terrazas fluviales cuaternarios. Mediante la determinación de diferentes indicadores morfométricos en modelos de elevación digital (MED), junto con observaciones de campo, fue posible identificar evidencias de deformación sobre dichos niveles cuaternarios que han sido relacionadas genéticamente con cuatro fallas neotectónicas. Tres de ellas (fallas Arias, El Quemado y Copo Quile) fueron seleccionadas para efectuar estudios de mayor detalle por medio de la aplicación de métodos de geofísica somera (tomografía eléctrica resistiva (ERT) y tomografía sísmica de refracción Sísmica (SRT)), que permitieron corroborar su existencia en profundidad, realizar inferencias geométricas y cinemáticas, y estimar la magnitud de la deformación reciente. Las fallas Arias y El Quemado fueron interpretadas como fallas inversas relacionadas con deslizamiento flexural interstratal, mientras que la falla Copo Quile se interpretó como una falla inversa ciega de bajo ángulo.También se realizó una interpretación conjunta de líneas sísmicas de reflexión y pozos exploratorios pertenecientes a áreas hidrocarburíferas de las cuencas de Choromoro y Metán con el fin de contextualizar las principales estructuras reconocidas en el marco estratigráfico y tectónico regional. Toda la información fue integrada en una sección estructural balanceada mediante técnicas de modelado cinemático. Dicho modelo permite inferir que la deformación cuaternaria reconocida está relacionada al desplazamiento del basamento a lo largo de un corrimiento ciego, responsable del levantamiento de la sierra de La Candelaria y el cerr Cantero. Asimismo, el modelo cinemático permite interpretar la ubicación aproximada de los principales niveles de despegue que controlan el estilo de deformación. El nivel de despegue más somero, que controla la deformación de la cobertura sedimentaria se encuentra a 4 km de profundidad, a 21 km se estima la presencia de otra zona de cizalla subhorizontal dentro del basamento. Finalmente, a partir de la integración de todos los resultados obtenidos, se evaluó el potencial sismogénico de las fallas en la zona de estudio. Las fallas de primer orden que controlan la deformación en la zona son las responsables de los grandes terremotos. Mientras, las fallas Cuaternarias flexodeslizantes e inversas afectan solamente a la cobertura sedimentaria y serían estructuras de segundo orden que acomodan la deformación y fueron activadas durante el cuaternario con movimientos asísmicos y/o sísmicos de muy baja magnitud. Estos resultados permiten inferir que el corrimiento La Candelaria constituye una fuente sismogénica potencial de importancia para la región, donde se ubican numerosas poblaciones y obras civiles de envergadura. Por otra parte, la sección estructural balanceada implica la presencia de otras fallas ciegas de distinto orden de magnitud que podrían ser posibles fuentes sismogénicas profundas adicionales, marcando la necesidad de continuar con el desarrollo de este tipo de estudios en esta región tectónicamente activa. N2 - In der vorliegenden Arbeit wurde eine interdisziplinäre Untersuchung im nordwestargentinischen Vorland ausgeführt, in der eine morphotektonische Charakterisierung mit geophysikalischen und strukturgeologischen Methoden kombiniert wurde. Der Schwerpunkt lag dabei auf dem Piedmontbereich der Sierra de la Candelaria sowie im südlichen Teil des intermontanen Metán-Beckens. Diese Region liegt in der Grenzregion zwischen den Provinzen Salta und Tucumán, inmitten der morphotektonischen Provinz des Sistema Santa Bárbara, einem Teilgebiet des zerbrochenen andinen Vorlandes in NW-Argentinien. Diese Forschungsarbeit legt das Hauptaugenmerk auf die Analyse von Manifestationen tektonischer Aktivität während des Quartärs, um die vorhandene Datenlage zu neotektonischen Strukturen und ihrem Gefährdungspotential bezüglich zukünftiger Erdbeben zu verbessern. Auf dieser Grundlage wurde eine Studie konzipiert, in der verschiedene methodische Ansätze angewendet wurden, wie zum Beispiel aus den Bereichen der Tektonischen Geomorphologie, Strukturgeologie und Geophysik. Die Nutzung diverser Methoden beinhaltete u.a. die Interpretation reflexionseismischer Daten, die Erstellung eines kinematischen Modells und die Anwendung oberflächennaher Geophysik-Untersuchungen. Mithilfe dieses interdisziplinären Ansatzes sollte auch die Beschaffenheit der zuvor identifizierten geologischen Strukturen im tieferen Untergrund bewertet werden, die mitunter keinerlei erkennbaren geomorphologischen Auswirkungen ihrer Aktivität an der Erdoberfläche zeigen (z.B. blinde Überschiebungen). Zunächst wurde eine fernerkundliche Untersuchung auf Grundlage multispektraler Satellitenaufnahmen (z.B. LANDSAT, SENTINEL 2) ausgeführt, wodurch eine große Bandbreite an Schwemmfächern und Flussterrassen ausfindig gemacht werden konnte, die als mögliche Deformationshorizonte verwendet werden können. Dieser Ansatz wurde mit Hilfe der Analyse verschiedener morphometrischer Indikatoren auf Basis digitaler Geländemodelle (DEMs) und Geländerarbeiten vor Ort komplettiert. Daraus ergab sich eine detaillierte Liste von 14 Störungen, von denen einige Hinweise auf Deformation der Erdoberfläche während des Quartärs lieferten und die auf verschiedene Mechanismen im Untergrund zurückzuführen sind. Detaillierte Untersuchungen wurden anschließend an drei ausgewählten Störungen mit Hilfe von Methoden der Oberflächennahen Geophysik durchgeführt. Dabei konnten die Methoden der Angewandten Geoelektrik und der Seismischen Refraktion die Existenz junger Strukturen im Untergrund verifizieren. Die Strukturen im westlichen Piedmont der Sierra de la Candelaria, in erster Linie die Arias und El Quemado-Störungen, wurden im Kontext der lagenparallelen Biegegleitfaltung interpretiert, während die Copo Quile-Störung auf der Ostseite als blinde Aufschiebung interpretiert werden kann. Anschließend wurde eine gemeinsame Bewertung der zur Verfügung stehenden seismischen Reflexions- und Bohrlochdaten aus den Metán und Choromoro-Becken vorgenommen, um die geologischen Hauptstrukturen sowie ihren Einfluss bei der Deformation auf die umliegenden Sedimenteinheiten in den Becken zu erkunden. Die daraus gewonnenen Erkenntnisse flossen in die Erstellung eines kinematischen Modells ein. Dieses Modell zeigt, dass die Deformation des Candelaria-Blockes durch eine tiefliegende, blinde Struktur unter der Sierra de la Candelaria und cerro Cantero angetrieben wird. Die damit verbundene Deformation der sedimentären Einheiten der über den Sockelgesteinen liegenden tertiären Gesteinen der Salta und Orán sedimentabflogen wurde durch Störungen entlang der internen Schichtgrenzen ermöglicht, deren Bewegung wiederum die quartären Ablagerungen an der Erdoberfläche verbogen und aufschoben. Das kinematische Modell ermöglichte außerdem, die Tiefenlage der hierfür notwendigen Abscherhorizonte abzuschätzen. Der flachste Abscherhorizont in 4 km Tiefe befindet sich in den leicht deformierbaren Sedimenteinheiten, wohingegen zwei weitere Absherhorizonte in 21 km Tiefe in den Sockelgesteinen existieren. Aus der Integration aller gewonnenen Ergebnisse wurde schließlich das seismogene Potenzial der Störungen im Untersuchungsgebiet bewertet. Die Verwerfungen erster Ordnung, die die Verformung in dem Gebiet kontrollieren, sind für die großen Erdbeben verantwortlich. In der Zwischenzeit wirken sich die quartären störungen und nur auf die Sedimenthülle aus und sind demnach Strukturen zweiter Ordnung, die Verformung aufnehmen und während des Quartärs mit Erdbeben sehr geringer Stärke und / oder aseismischen Bewegungen aktiviert wurden. Aus den gewonnenen Resultaten ist das hohe seismogene Potential (die Möglichkeit Erdbeben zu generieren) des identifizierten Störungsinventars erkennbar, in einer Region, die durch eine Vielzahl an Städten und wichtige Infrastruktur gekennzeichnet ist. Zusätzlich bestätigt das kinematische Modell die Existenz mehrerer blinder Aufschiebungen, von denen nur eine geringe Anzahl an der Erdoberfläche mittels morphotektonischer Analysen zweifelsfrei ableitbar ist. Diese Befunde unterstreichen die Notwendigkeit zur weiteren Durchführung ähnlicher Studien in dieser tektonisch aktiven Region. KW - neotectonics KW - shallow geophysics KW - structural modelling KW - seismic interpretation KW - seismotectonic KW - Neotektonik KW - oberflächennahe Geophysík KW - Strukturmodellierung KW - seismische Interpretation KW - Seismotektonik Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-535274 ER - TY - JOUR A1 - Astudillo-Sotomayor, Luis A1 - Jara Muñoz, Julius A1 - Melnick, Daniel A1 - Cortés‐Aranda, Joaquín A1 - Tassara, Andrés A1 - Strecker, Manfred T1 - Fast Holocene slip and localized strain along the Liquiñe-Ofqui strike-slip fault system, Chile JF - Scientific reports N2 - In active tectonic settings dominated by strike-slip kinematics, slip partitioning across subparallel faults is a common feature; therefore, assessing the degree of partitioning and strain localization is paramount for seismic hazard assessments. Here, we estimate a slip rate of 18.8 +/- 2.0 mm/year over the past 9.0 +/- 0.1 ka for a single strand of the Liquirie-Ofqui Fault System, which straddles the Main Cordillera in Southern Chile. This Holocene rate accounts for similar to 82% of the trench-parallel component of oblique plate convergence and is similar to million-year estimates integrated over the entire fault system. Our results imply that strain localizes on a single fault at millennial time scale but over longer time scales strain localization is not sustained. The fast millennial slip rate in the absence of historical Mw> 6.5 earthquakes along the Liquine-Ofqui Fault System implies either a component of aseismic slip or Mw similar to 7 earthquakes involving multi-trace ruptures and > 150-year repeat times. Our results have implications for the understanding of strike-slip fault system dynamics within volcanic arcs and seismic hazard assessments. KW - Geodynamics KW - Geomorphology KW - Tectonics Y1 - 2021 U6 - https://doi.org/10.1038/s41598-021-85036-5 SN - 2045-2322 VL - 11 IS - 1 PB - Macmillan Publishers Limited, part of Springer Nature CY - London ER - TY - JOUR A1 - Barbot, Sylvain A1 - Weiss, Jonathan R. T1 - Connecting subduction, extension and shear localization across the Aegean Sea and Anatolia JF - Geophysical journal international N2 - The Eastern Mediterranean is the most seismically active region in Europe due to the complex interactions of the Arabian, African, and Eurasian tectonic plates. Deformation is achieved by faulting in the brittle crust, distributed flow in the viscoelastic lower-crust and mantle, and Hellenic subduction, but the long-term partitioning of these mechanisms is still unknown. We exploit an extensive suite of geodetic observations to build a kinematic model connecting strike-slip deformation, extension, subduction, and shear localization across Anatolia and the Aegean Sea by mapping the distribution of slip and strain accumulation on major active geological structures. We find that tectonic escape is facilitated by a plate-boundary-like, translithospheric shear zone extending from the Gulf of Evia to the Turkish-Iranian Plateau that underlies the surface trace of the North Anatolian Fault. Additional deformation in Anatolia is taken up by a series of smaller-scale conjugate shear zones that reach the upper mantle, the largest of which is located beneath the East Anatolian Fault. Rapid north-south extension in the western part of the system, driven primarily by Hellenic Trench retreat, is accommodated by rotation and broadening of the North Anatolian mantle shear zone from the Sea of Marmara across the north Aegean Sea, and by a system of distributed transform faults and rifts including the rapidly extending Gulf of Corinth in central Greece and the active grabens of western Turkey. Africa-Eurasia convergence along the Hellenic Arc occurs at a median rate of 49.8mm yr(-1) in a largely trench-normal direction except near eastern Crete where variably oriented slip on the megathrust coincides with mixed-mode and strike-slip deformation in the overlying accretionary wedge near the Ptolemy-Pliny-Strabo trenches. Our kinematic model illustrates the competing roles the North Anatolian mantle shear zone, Hellenic Trench, overlying mantle wedge, and active crustal faults play in accommodating tectonic indentation, slab rollback and associated Aegean extension. Viscoelastic flow in the lower crust and upper mantle dominate the surface velocity field across much of Anatolia and a clear transition to megathrust-related slab pull occurs in western Turkey, the Aegean Sea and Greece. Crustal scale faults and the Hellenic wedge contribute only a minor amount to the large-scale, regional pattern of Eastern Mediterranean interseismic surface deformation. KW - Seismic cycle KW - Space geodetic surveys KW - Europe KW - Joint inversion KW - Kinematics of crustal and mantle deformation KW - Rheology: crust and KW - lithosphere Y1 - 2021 U6 - https://doi.org/10.1093/gji/ggab078 SN - 0956-540X SN - 1365-246X VL - 226 IS - 1 SP - 422 EP - 445 PB - Blackwell CY - Oxford [u.a.] ER - TY - JOUR A1 - Bastian, Philipp U. A1 - Robel, Nathalie A1 - Schmidt, Peter A1 - Schrumpf, Tim A1 - Günter, Christina A1 - Roddatis, Vladimir A1 - Kumke, Michael U. T1 - Resonance energy transfer to track the motion of lanthanide ions BT - what drives the intermixing in core-shell upconverting nanoparticles? JF - Biosensors : open access journal N2 - The imagination of clearly separated core-shell structures is already outdated by the fact, that the nanoparticle core-shell structures remain in terms of efficiency behind their respective bulk material due to intermixing between core and shell dopant ions. In order to optimize the photoluminescence of core-shell UCNP the intermixing should be as small as possible and therefore, key parameters of this process need to be identified. In the present work the Ln(III) ion migration in the host lattices NaYF4 and NaGdF4 was monitored. These investigations have been performed by laser spectroscopy with help of lanthanide resonance energy transfer (LRET) between Eu(III) as donor and Pr(III) or Nd(III) as acceptor. The LRET is evaluated based on the Forster theory. The findings corroborate the literature and point out the migration of ions in the host lattices. Based on the introduced LRET model, the acceptor concentration in the surrounding of one donor depends clearly on the design of the applied core-shell-shell nanoparticles. In general, thinner intermediate insulating shells lead to higher acceptor concentration, stronger quenching of the Eu(III) donor and subsequently stronger sensitization of the Pr(III) or the Nd(III) acceptors. The choice of the host lattice as well as of the synthesis temperature are parameters to be considered for the intermixing process. KW - upconversion nanoparticles KW - lanthanoid migration KW - lanthanides KW - core-shell KW - energy transfer Y1 - 2021 U6 - https://doi.org/10.3390/bios11120515 SN - 2079-6374 VL - 11 IS - 12 PB - MDPI CY - Basel ER - TY - THES A1 - Bayona Viveros, Jose T1 - Constructing global stationary seismicity models from the long-term balance of interseismic strain measurements and earthquake-catalog data T1 - Erstellung globaler stationärer Seismizitätsmodelle aus der Langzeitbilanz von interseismischen Dehnungsmessungen und Erdbebenkatalogdaten N2 - One third of the world's population lives in areas where earthquakes causing at least slight damage are frequently expected. Thus, the development and testing of global seismicity models is essential to improving seismic hazard estimates and earthquake-preparedness protocols for effective disaster-risk mitigation. Currently, the availability and quality of geodetic data along plate-boundary regions provides the opportunity to construct global models of plate motion and strain rate, which can be translated into global maps of forecasted seismicity. Moreover, the broad coverage of existing earthquake catalogs facilitates in present-day the calibration and testing of global seismicity models. As a result, modern global seismicity models can integrate two independent factors necessary for physics-based, long-term earthquake forecasting, namely interseismic crustal strain accumulation and sudden lithospheric stress release. In this dissertation, I present the construction of and testing results for two global ensemble seismicity models, aimed at providing mean rates of shallow (0-70 km) earthquake activity for seismic hazard assessment. These models depend on the Subduction Megathrust Earthquake Rate Forecast (SMERF2), a stationary seismicity approach for subduction zones, based on the conservation of moment principle and the use of regional "geodesy-to-seismicity" parameters, such as corner magnitudes, seismogenic thicknesses and subduction dip angles. Specifically, this interface-earthquake model combines geodetic strain rates with instrumentally-recorded seismicity to compute long-term rates of seismic and geodetic moment. Based on this, I derive analytical solutions for seismic coupling and earthquake activity, which provide this earthquake model with the initial abilities to properly forecast interface seismicity. Then, I integrate SMERF2 interface-seismicity estimates with earthquake computations in non-subduction zones provided by the Seismic Hazard Inferred From Tectonics based on the second iteration of the Global Strain Rate Map seismicity approach to construct the global Tectonic Earthquake Activity Model (TEAM). Thus, TEAM is designed to reduce number, and potentially spatial, earthquake inconsistencies of its predecessor tectonic earthquake model during the 2015-2017 period. Also, I combine this new geodetic-based earthquake approach with a global smoothed-seismicity model to create the World Hybrid Earthquake Estimates based on Likelihood scores (WHEEL) model. This updated hybrid model serves as an alternative earthquake-rate approach to the Global Earthquake Activity Rate model for forecasting long-term rates of shallow seismicity everywhere on Earth. Global seismicity models provide scientific hypotheses about when and where earthquakes may occur, and how big they might be. Nonetheless, the veracity of these hypotheses can only be either confirmed or rejected after prospective forecast evaluation. Therefore, I finally test the consistency and relative performance of these global seismicity models with independent observations recorded during the 2014-2019 pseudo-prospective evaluation period. As a result, hybrid earthquake models based on both geodesy and seismicity are the most informative seismicity models during the testing time frame, as they obtain higher information scores than their constituent model components. These results support the combination of interseismic strain measurements with earthquake-catalog data for improved seismicity modeling. However, further prospective evaluations are required to more accurately describe the capacities of these global ensemble seismicity models to forecast longer-term earthquake activity. N2 - Ein Drittel der Weltbevölkerung lebt in Gebieten, in denen häufig Erdbeben mit zumindest geringen Schäden zu erwarten sind. Daher ist die Entwicklung und das Testen globaler Seismizitätsmodelle für verbesserte Schätzungen der Erdbebengefährdung und Planungen zur Vorbereitung auf Erdbeben für eine wirksame Minderung des Katastrophenrisikos von entscheidender Bedeutung. Derzeit bietet die Verfügbarkeit und Qualität geodätischer Daten entlang der Plattengrenzregionen die Gelegenheit, um globale Modelle der Plattenbewegung und der Dehnungsrate zu erstellen, die in globale Karten der prognostizierten Seismizität übersetzt werden können. Darüber hinaus erleichtert die breite Abdeckung bestehender Erdbebenkataloge in der heutigen Zeit die Kalibrierung und das Testen globaler Seismizitätsmodelle. Infolgedessen können moderne globale Seismizitätsmodelle zwei unabhängige Faktoren integrieren, die für eine physikbasierte Langzeit-Erdbebenvorhersage erforderlich sind, die Ansammlung interseismischer Krustenverformungen und die plötzliche Freisetzung von lithosphärischem Stress. In dieser Dissertation stelle ich die Konstruktion und die Testergebnisse für zwei globale Ensemble-Seismizitätsmodelle vor, die darauf abzielen, mittlere Raten der Flachbebenaktivität (0-70 km) für die Bewertung der Erdbebengefährdung bereitzustellen. Diese Modelle hängen von dem Subduction Megathrust Earthquake Rate Forecast (SMERF2) ab, einem stationären Seismizitätsmodell für Subduktionszonen, das auf dem Prinzip der Erhaltung des Moments und der Verwendung regionaler "Geodäsie-zu-SeismizitätParameter wie Corner Magnitudes, seismogene Dicken und Subduktionsneigungswinkel basiert. Insbesondere kombiniert dieses Erdbebenmodell geodätische Dehnungsraten mit instrumentell aufgezeichneter Seismizität, um Langzeitraten sowohl des seismischen als auch des geodätischen Moments zu berechnen. Auf dieser Grundlage leite ich analytische Lösungen für die seismische Kopplung und Erdbebenaktivität ab, um mit diesem Erdbebenmodell, die Subduktionseismizität richtig vorherzusagen. Dann integriere ich SMERF2-Schätzungen an Subduktionsrändern mit Erdbebenberechnungen in Nicht-Subduktionszonen, die von dem Modell ßeismic Hazard Inferred From Tectonics based on the second iteration of the Global Strain Rate Mapßur Erstellung des globalen Tectonic Earthquake Activity Model (TEAM) bereitgestellt werden. Daher ist TEAM darauf ausgelegt, die Anzahl und möglicherweise räumliche Vohersageinkonsistenzen seines tektonischen Erdbebenvorgängermodells im Zeitraum 2015-2017 zu reduzieren. Außerdem kombiniere ich dieses neue geodätische Erdbebenmodell mit einem globalen, geglätteten Seismizitätsmodell, um das World Hybrid Earthquake Estimates based on Likelihood Scores (WHEEL)-Modell zu erstellen. Dieses aktualisierte Hybridmodell dient als alternativer Ansatz zum Global Earthquake Activity Rate (GEAR1)-Modell zur Vorhersage langfristiger Raten flacher Seismizität überall auf der Erde. Globale Seismizitätsmodelle liefern wissenschaftliche Hypothesen darüber, wann und wo Erdbeben auftreten können und wie groß sie sein können. Die Richtigkeit dieser Hypothesen kann jedoch erst nach prospektiven Tests bestätigt oder abgelehnt werden. Daher teste ich abschließend die Konsistenz und relative Leistung dieser globalen Seismizitätsmodellen gegen unabhängige Beobachtungen, die während des pseudo-prospektiven Evaluierungszeitraums 2014-2019 aufgezeichnet wurden. Hybride Erdbebenmodelle, die sowohl auf Geodäsie als auch auf Seismizität basieren, sind die informativsten Seismizitätsmodelle während des Testzeitraums, da beide höhere Informationswerte als ihre konstituierenden Modellkomponenten erhalten. Diese Ergebnisse unterstützen die Kombination von interseismischen Dehnungsmessungen mit Erdbebenkatalogdaten für eine verbesserte Seismizitätsmodellierung. Es sind jedoch weitere prospektive Tests erforderlich, um die Kapazitäten dieser globalen Ensemble-Seismizitätsmodelle zur Vorhersage längerfristiger Erdbebenaktivitäten genauer zu bewerten. KW - Statistical seismology KW - Earthquake forecasting KW - Global earthquake data KW - Interseismic strain rates KW - Erdbebenvorhersage KW - Globale Erdbebenkatalogdaten KW - Interseismiche Dehnungsraten KW - Statistische Seismologie Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-509270 ER - TY - JOUR A1 - Ben Dor, Yoav A1 - Flax, Tomer A1 - Levitan, Itamar A1 - Enzel, Yehouda A1 - Brauer, Achim A1 - Erel, Yigal T1 - The paleohydrological implications of aragonite precipitation under contrasting climates in the endorheic Dead Sea and its precursors revealed by experimental investigations JF - Chemical geology : official journal of the European Association for Geochemistry N2 - Carbonate minerals are common in both marine and lacustrine records, and are frequently used for paleoenvironmental reconstructions. The sedimentary sequence of the endorheic Dead Sea and its precursors contain aragonite laminae that provide a detailed sedimentary archive of climatic, hydrologic, limnologic and environmental conditions since the Pleistocene. However, the interpretation of these archives requires a detailed understanding of the constraints and mechanisms affecting CaCO3 precipitation, which are still debated. The implications of aragonite precipitation in the Dead Sea and in its late Pleistocene predecessor (Lake Lisan) were investigated in this study by mixing natural and synthetic brines with a synthetic bicarbonate solution that mimics flash-floods composition, with and without the addition of extracellular polymeric substances (EPS). Aragonite precipitation was monitored, and precipitation rates and carbonate yields were calculated and are discussed with respect to modern aquatic environments. The experimental insights on aragonite precipitation are then integrated with microfacies analyses in order to reconstruct and constrain prevailing limnogeological processes and their hydroclimatic drivers under low (interglacial) and high (glacial) lake level stands. Aragonite precipitation took place within days to several weeks after the mixing of the brines with a synthetic bicarbonate solution. Incubation time was proportional to bicarbonate concentration, and precipitation rates were partially influenced by ionic strength. Additionally, extracellular polymeric substances inhibited aragonite precipitation for several months. As for the lake's water budget, our calculations suggest that the precipitation of a typical aragonite lamina (0.5 mm thick) during high lake stand requires unreasonable freshwater inflow from either surface or subsurface sources. This discrepancy can be resolved by considering one or a combination of the following scenarios; (1) discontinuous aragonite deposition over parts of the lake floor; (2) supply of additional carbonate flux (or fluxes) to the lake from aeolian dust and the remobilization and dissolution of dust deposits at the watershed; (3) carbonate production via oxidation of organic carbon by sulfate-reducing bacteria. Altogether, it is suggested that aragonite laminae thickness cannot be directly interpreted for quantitatively reconstructing the hydrological balance for the entire lake, they may still prove valuable for identifying inherent hydroclimatic periodicities at a single site. KW - Dead Sea KW - Lake Lisan KW - Aragonite KW - Varves KW - Paleolimnology KW - Paleohydrology KW - Dead Sea deep drilling project KW - EPS KW - Extracellular polymeric substances KW - Levant climate KW - Eastern Mediterranean KW - Paleoclimate KW - Lacustrine carbonate Y1 - 2021 U6 - https://doi.org/10.1016/j.chemgeo.2021.120261 SN - 0009-2541 SN - 1872-6836 VL - 576 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Blanchard, Ingrid A1 - Abeykoon, Sumith A1 - Frost, Daniel J. A1 - Rubie, David C. T1 - Sulfur content at sulfide saturation of peridotitic melt at upper mantle conditions JF - American mineralogist : an international journal of earth and planetary materials / Mineralogical Society of America N2 - The concentration of sulfur that can be dissolved in a silicate liquid is of fundamental importance because it is closely associated with several major Earth-related processes. Considerable effort has been made to understand the interplay between the effects of silicate melt composition and its capac-ity to retain sulfur, but the dependence on pressure and temperature is mostly based on experiments performed at pressures and temperatures below 6 GPa and 2073 K. Here we present a study of the effects of pressure and temperature on sulfur content at sulfide saturation of a peridotitic liquid. We performed 14 multi-anvil experiments using a peridotitic starting composition, and we produced 25 new measurements at conditions ranging from 7 to 23 GPa and 2173 to 2623 K. We analyzed the recovered samples using both electron microprobe and laser ablation ICP-MS. We compiled our data together with previously published data that were obtained at lower P-T conditions and with various silicate melt compositions. We present a new model based on this combined data set that encompasses the entire range of upper mantle pressure-temperature conditions, along with the effect of a wide range of silicate melt compositions. Our findings are consistent with earlier work based on extrapolation from lower-pressure and lower-temperature experiments and show a decrease of sulfur content at sulfide saturation (SCSS) with increasing pressure and an increase of SCSS with increasing temperature. We have extrapolated our results to pressure-temperature conditions of the Earth's primitive magma ocean, and show that FeS will exsolve from the molten silicate and can effectively be extracted to the core by a process that has been termed the "Hadean Matte." We also discuss briefly the implications of our results for the lunar magma ocean. KW - Peridotitic melts KW - sulfur solubility KW - high pressure KW - high temperature KW - magma ocean Y1 - 2021 U6 - https://doi.org/10.2138/am-2021-7649 SN - 0003-004X SN - 1945-3027 VL - 106 IS - 11 SP - 1835 EP - 1843 PB - Mineralogical Society of America CY - Washington, DC [u.a.] ER - TY - JOUR A1 - Borchardt, Sven A1 - Trauth, Martin H. T1 - Erratum to: Borchardt, Sven, Trauth, Martin H.: Remotely-sensed evapotranspiration estimates for an improved hydrological modeling of the early Holocene mega-lake Suguta, northern Kenya Rift. - (Palaeogeography, Palaeoclimatology, Palaeoecology. - Volumes 361–362 (2012), S. 14 – 20. - doi.org/10.1016/j.palaeo.2012.07.009) JF - Palaeogeography, palaeoclimatology, palaeoecology : an international journal for the geo-sciences Y1 - 2021 U6 - https://doi.org/10.1016/j.palaeo.2019.109540 SN - 0031-0182 SN - 1872-616X VL - 571 PB - Elsevier CY - Amsterdam ER - TY - GEN A1 - Brendel, Nina A1 - Matzner, Nils A1 - Menzel, Max-Peter T1 - Geographisches Gezwitscher – Analyse von Twitter-Daten als Methode im GW-Unterricht T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Soziale Medien sind ein wesentlicher Bestandteil des Alltags von Schüler*innen und gleichzeitig zunehmend wichtig in Wirtschaft, Politik und Wissenschaft. Am Beispiel von Twitter zeigt dieser Beitrag, dass soziale Medien im Unterricht auch für die Beantwortung geographischer Fragestellungen verwendet werden können. Hierfür eignen sich Twitter-Daten aufgrund ihrer Georeferenzierung und weiterer interessanter Inhalte besonders. Der Beitrag gibt einen Überblick über die Verwendung von Twitter für sozialwissenschaftliche und humangeographische Fragestellungen und reflektiert die Nutzung von Twitter im Unterricht. Für die Unterrichtspraxis werden Beispiele zu den Themen Braunkohle, Flutereignisse und Raumwahrnehmungen sowie Anleitungen zur Auswertung, Anwendung und Reflexion von Twitter-Analysen vorgestellt. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1247 KW - Twitter KW - Soziale Medien KW - Forschungsmethodik KW - Unterrichtsmethoden Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-550614 SN - 1866-8372 SP - 72 EP - 85 PB - Universitätsverlag Potsdam CY - Potsdam ER - TY - JOUR A1 - Brendel, Nina A1 - Matzner, Nils A1 - Menzel, Max-Peter T1 - Geographisches Gezwitscher – Analyse von Twitter-Daten als Methode im GW-Unterricht JF - GW-Unterricht N2 - Soziale Medien sind ein wesentlicher Bestandteil des Alltags von Schüler*innen und gleichzeitig zunehmend wichtig in Wirtschaft, Politik und Wissenschaft. Am Beispiel von Twitter zeigt dieser Beitrag, dass soziale Medien im Unterricht auch für die Beantwortung geographischer Fragestellungen verwendet werden können. Hierfür eignen sich Twitter-Daten aufgrund ihrer Georeferenzierung und weiterer interessanter Inhalte besonders. Der Beitrag gibt einen Überblick über die Verwendung von Twitter für sozialwissenschaftliche und humangeographische Fragestellungen und reflektiert die Nutzung von Twitter im Unterricht. Für die Unterrichtspraxis werden Beispiele zu den Themen Braunkohle, Flutereignisse und Raumwahrnehmungen sowie Anleitungen zur Auswertung, Anwendung und Reflexion von Twitter-Analysen vorgestellt. KW - Twitter KW - Soziale Medien KW - Forschungsmethodik KW - Unterrichtsmethoden Y1 - 2021 U6 - https://doi.org/10.1553/gw-unterricht164s72 SN - 2414-4169 SP - 72 EP - 85 PB - Verlag der Österreichischen Akademie der Wissenschaften CY - Wien ER - TY - JOUR A1 - Büyükakpınar, Pınar A1 - Aktar, Mustafa A1 - Petersen, Gesa Maria A1 - Köseoğlu, Ayşegül T1 - Orientations of broadband stations of the KOERI seismic network (Turkey) from two independent methods BT - P- and Rayleigh-wave polarization JF - Seismological research letters / Seismological Society of America N2 - The correct orientation of seismic sensors is critical for studies such as full moment tensor inversion, receiver function analysis, and shear-wave splitting. Therefore, the orientation of horizontal components needs to be checked and verified systematically. This study relies on two different waveform-based approaches, to assess the sensor orientations of the broadband network of the Kandilli Observatory and Earthquake Research Institute (KOERI). The network is an important backbone for seismological research in the Eastern Mediterranean Region and provides a comprehensive seismic data set for the North Anatolian fault. In recent years, this region became a worldwide field laboratory for continental transform faults. A systematic survey of the sensor orientations of the entire network, as presented here, facilitates related seismic studies. We apply two independent orientation tests, based on the polarization of P waves and Rayleigh waves to 123 broadband seismic stations, covering a period of 15 yr (2004-2018). For 114 stations, we obtain stable results with both methods. Approximately, 80% of the results agree with each other within 10 degrees. Both methods indicate that about 40% of the stations are misoriented by more than 10 degrees. Among these, 20 stations are misoriented by more than 20 degrees. We observe temporal changes of sensor orientation that coincide with maintenance work or instrument replacement. We provide time-dependent sensor misorientation correction values for the KOERI network in the supplemental material. Y1 - 2021 U6 - https://doi.org/10.1785/0220200362 SN - 0895-0695 SN - 1938-2057 VL - 92 IS - 3 SP - 1512 EP - 1521 PB - Seismological Society of America CY - Boulder, Colo. ER - TY - THES A1 - Cheng, Chaojie T1 - Transient permeability in porous and fractured sandstones mediated by fluid-rock interactions T1 - Permeabilitätsveränderungen in porösen und geklüfteten Sandsteinen als Folge von Fluid-Gesteins-Wechselwirkungen N2 - Understanding the fluid transport properties of subsurface rocks is essential for a large number of geotechnical applications, such as hydrocarbon (oil/gas) exploitation, geological storage (CO2/fluids), and geothermal reservoir utilization. To date, the hydromechanically-dependent fluid flow patterns in porous media and single macroscopic rock fractures have received numerous investigations and are relatively well understood. In contrast, fluid-rock interactions, which may permanently affect rock permeability by reshaping the structure and changing connectivity of pore throats or fracture apertures, need to be further elaborated. This is of significant importance for improving the knowledge of the long-term evolution of rock transport properties and evaluating a reservoir’ sustainability. The thesis focuses on geothermal energy utilization, e.g., seasonal heat storage in aquifers and enhanced geothermal systems, where single fluid flow in porous rocks and rock fracture networks under various pressure and temperature conditions dominates. In this experimental study, outcrop samples (i.e., Flechtinger sandstone, an illite-bearing Lower Permian rock, and Fontainebleau sandstone, consisting of pure quartz) were used for flow-through experiments under simulated hydrothermal conditions. The themes of the thesis are (1) the investigation of clay particle migration in intact Flechtinger sandstone and the coincident permeability damage upon cyclic temperature and fluid salinity variations; (2) the determination of hydro-mechanical properties of self-propping fractures in Flechtinger and Fontainebleau sandstones with different fracture features and contrasting mechanical properties; and (3) the investigation of the time-dependent fracture aperture evolution of Fontainebleau sandstone induced by fluid-rock interactions (i.e., predominantly pressure solution). Overall, the thesis aims to unravel the mechanisms of the instantaneous reduction (i.e., direct responses to thermo-hydro-mechanical-chemical (THMC) conditions) and progressively-cumulative changes (i.e., time-dependence) of rock transport properties. Permeability of intact Flechtinger sandstone samples was measured under each constant condition, where temperature (room temperature up to 145 °C) and fluid salinity (NaCl: 0 ~ 2 mol/l) were stepwise changed. Mercury intrusion porosimetry (MIP), electron microprobe analysis (EMPA), and scanning electron microscopy (SEM) were performed to investigate the changes of local porosity, microstructures, and clay element contents before and after the experiments. The results indicate that the permeability of illite-bearing Flechtinger sandstones will be impaired by heating and exposure to low salinity pore fluids. The chemically induced permeability variations prove to be path-dependent concerning the applied succession of fluid salinity changes. The permeability decay induced by a temperature increase and a fluid salinity reduction operates by relatively independent mechanisms, i.e., thermo-mechanical and thermo-chemical effects. Further, the hydro-mechanical investigations of single macroscopic fractures (aligned, mismatched tensile fractures, and smooth saw-cut fractures) illustrate that a relative fracture wall offset could significantly increase fracture aperture and permeability, but the degree of increase depends on fracture surface roughness. X-ray computed tomography (CT) demonstrates that the contact area ratio after the pressure cycles is inversely correlated to the fracture offset. Moreover, rock mechanical properties, determining the strength of contact asperities, are crucial so that relatively harder rock (i.e., Fontainebleau sandstone) would have a higher self-propping potential for sustainable permeability during pressurization. This implies that self-propping rough fractures with a sufficient displacement are efficient pathways for fluid flow if the rock matrix is mechanically strong. Finally, two long-term flow-through experiments with Fontainebleau sandstone samples containing single fractures were conducted with an intermittent flow (~140 days) and continuous flow (~120 days), respectively. Permeability and fluid element concentrations were measured throughout the experiments. Permeability reduction occurred at the beginning stage when the stress was applied, while it converged at later stages, even under stressed conditions. Fluid chemistry and microstructure observations demonstrate that pressure solution governs the long-term fracture aperture deformation, with remarkable effects of the pore fluid (Si) concentration and the structure of contact grain boundaries. The retardation and the cessation of rock fracture deformation are mainly induced by the contact stress decrease due to contact area enlargement and a dissolved mass accumulation within the contact boundaries. This work implies that fracture closure under constant (pressure/stress and temperature) conditions is likely a spontaneous process, especially at the beginning stage after pressurization when the contact area is relatively small. In contrast, a contact area growth yields changes of fracture closure behavior due to the evolution of contact boundaries and concurrent changes in their diffusive properties. Fracture aperture and thus permeability will likely be sustainable in the long term if no other processes (e.g., mineral precipitations in the open void space) occur. N2 - Die Kenntnis von Gesteinstransporteigenschaften und das Verständnis ihrer zeitlichen Veränderungen sind für eine Vielzahl von geotechnischen Anwendungen von herausragender Bedeutung. Als Beispiele seien genannt: die Gewinnung von Kohlenwasserstoffen (Öl/Gas), die stoffliche geologische Speicherung (CO2/Fluide) und die geothermische Energiegewinnung. Die hydromechanischen Strömungseigenschaften von Fluiden in porösen Gesteinen und solchen mit einzelnen, makroskopischen Rissen sind mittlerweile vergleichsweise gut verstanden. Im Gegensatz dazu besteht im Hinblick auf Fluid-Gesteins-Wechselwirkungen, welche durch eine Veränderung der Struktur und Verbundenheit des Porenraums bzw. der Rissöffnungsweiten die Gesteinspermeabilität permanent beeinflussen können, entscheidender Forschungsbedarf. Dies ist insbesondere für eine verbesserte Kenntnis der langzeitlichen Entwicklung der (hydraulischen) Gesteinstransporteigenschaften sowie eine Evaluierung der Nachhaltigkeit einer Nutzung geologischer Reservoire von großer Bedeutung und Gegenstand der vorliegenden Dissertation. Anwendungsaspekt dieser Arbeit ist insbesondere die geothermische Technologieentwicklung, d.h. die saisonale Wärmespeicherung in Aquiferen sowie sogenannte „Enhanced Geothermal Systems“, in der die Nutzung einphasiger Fluide in porösen Gesteinen bzw. Rissnetzwerken im Vordergrund steht. In dieser experimentellen Arbeit wurden mit Gesteinsproben aus Aufschlüssen (unterpermischer, illitreicher Flechtinger Sandstein sowie quarzreicher Fontainebleau Sandstein) Durchflussexperimente bei simulierten hydrothermalen Reservoirbedingungen durchgeführt. Themenschwerpunkte der Dissertation sind hierbei (1) die Untersuchung einer Tonpartikelmigration in intakten Proben des Flechtinger Sandsteins und eine damit verbundene Permeabilitätsschädigung durch zyklische Temperaturveränderungen sowie Variationen der Fluidsalinität, (2) die Bestimmung der hydromechanischen Eigenschaften selbststützender Risse in Flechtinger und Fontainbleau Sandsteinen mit unterschiedlichen Rissmorphologien und mechanischen Kennwerten und (3) die Untersuchung einer zeitlichen Veränderung der Rissöffnungsweiten in Fontainebleau Sandstein, welche durch Fluid-Gesteins-Wechselwirkungen (insbesondere Drucklösung) induziert wird. Zusammenfassend hat diese Dissertation zum Ziel, die Mechanismen sowohl unmittelbarer als auch zeitabhängiger, durch veränderte thermisch-hydraulisch-mechanisch-chemische Bedingungen hervorgerufene, Veränderungen von Gesteinstransporteigenschaften herauszuarbeiten. Die Permeabilität intakter Proben Flechtinger Sandsteins wurde systematisch bei stufenweise veränderten Temperaturen (von Raumtemperatur bis 145 °C) und Fluidsalinitäten (NaCl: 0 ~ 2 mol/l) gemessen. Quecksilberporosimetrie, Elektronenstrahlmikroanalyse und Rasterelektronenmikroskopie wurden angewandt, um Veränderungen der lokalen Porosität, der Gesteinsmikrostruktur sowie des Tongehalts nach Abschluss des Experiments im Vergleich zum Ausgangszustand zu bestimmen. Es zeigte sich, dass die Permeabilität des illitreichen Flechtinger Sandsteins durch eine Temperaturerhöhung sowie eine Verringerung der Salinität des Porenfluids geschädigt wird. Die chemisch induzierten Permeabilitätsveränderungen sind pfadabhängig von der Abfolge der Salinitätsveränderungen. Die Mechanismen einer durch Temperaturerhöhung oder Salinitätsreduktion induzierten Permeabilitätsschädigung arbeiten hierbei weitestgehend unabhängig voneinander, als thermo-mechanische bzw. thermo-chemische Prozesse. Die hydromechanischen Untersuchungen an makroskopischen Einzelrissen (Scherrisse ohne und mit Versatz sowie gesägte Proben) zeigen, dass ein relativer Versatz der beiden Rissflächen eine erhebliche Erhöhung der Rissöffnungsweite und damit der Gesteinspermeabilität bewirken kann, deren Grad aber stark von der Oberflächenrauigkeit abhängt. Computertomographische Aufnahmen des Gesteins zeigen, dass das Kontaktflächenverhältnis nach den erfolgten Druckzyklen invers mit dem Scherversatz korreliert. Darüber hinaus haben die mechanischen Eigenschaften des jeweiligen Gesteins, welche die Festigkeit der Kontaktpunkte innerhalb des Risses bestimmen, einen entscheidenden Einfluss auf die Selbststützungsfähigkeit des Risses bei einer Druckerhöhung. Diese ist damit (höhere Festigkeit) bei Fontainebleau Sandstein gegenüber Flechtinger Sandstein verbessert. Insgesamt stellen selbststützende raue Risse mit ausreichendem Scherversatz in einem Gestein hoher Festigkeit effiziente Fließwege für Geofluide dar. Die zwei Langzeitexperimente an geklüftetem Fontainebleau Sandstein wurden mit intermittierender (~140 Tage) bzw. kontinuierlicher (~120 Tage) Durchströmung durchgeführt und die Permeabilität des Gesteins sowie der Fluidchemismus über die Dauer des jeweiligen Experiments bestimmt. Eine Permeabilitätsreduktion war insbesondere am Anfang der Messung zu beobachten, nachdem die Spannung erstmalig auf das Gestein aufgebracht wurde, und nahm dann im weiteren Verlauf des Experiments progressiv ab. Fluidchemische und mikrostrukturelle Beobachtungen zeigen, dass Drucklösung die langzeitliche Deformation des Risses kontrolliert, wobei die Porenfluidkonzentration (Si) und die Mikrostruktur der Kontaktpunkte eine herausragende Rolle spielen. Die Verlangsamung bzw. das Abklingen der Rissdeformation werden insbesondere durch die Verringerung der Kontaktspannung aufgrund einer Kontaktflächenvergrößerung sowie die Anreicherung gelöster Spezies in den Kontakten bestimmt. Ergebnis dieser Arbeit ist auch die Erkenntnis, dass eine Rissschließung bei konstanten Druck/Spannungs- und Temperaturbedingungen sehr wahrscheinlich ein spontan ablaufender Prozess ist, insbesondere zu Beginn einer Druckbeaufschlagung, wenn die Kontaktfläche noch relativ klein ist. Eine Vergrößerung der Kontaktfläche führt zu einem veränderten Rissschließungsverhalten, da die Kontaktpunkte einer strukturellen Entwicklung unterworfen sind und sich damit ihre diffusiven Eigenschaften ändern. Über längere Zeiträume werden die Rissöffnungsweite und damit die Gesteinspermeabilität in einem geologischen Reservoir insbesondere dann nachhaltig sein, wenn keine zusätzlichen, entgegenwirkenden Prozesse (z.B. Mineralfällung innerhalb des Risses) in dem Gestein ablaufen. KW - permeability KW - rock fracture KW - fluid-rock interactions KW - pressure solution KW - sandstones KW - fluid flow KW - Fluidströmung KW - Fluid-Gesteinswechselwirkungen KW - Permeabilität KW - Riss KW - Sandstein KW - Drucklösungsprozesse Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-510124 ER - TY - JOUR A1 - Cheng, Chaojie A1 - Milsch, Harald T1 - Hydromechanical investigations on the self-propping potential of fractures in tight sandstones JF - Rock mechanics and rock engineering N2 - The hydromechanical properties of single self-propping fractures under stress are of fundamental interest for fractured-rock hydrology and a large number of geotechnical applications. This experimental study investigates fracture closure and hydraulic aperture changes of displaced tensile fractures, aligned tensile fractures, and saw-cut fractures for two types of sandstone (i.e., Flechtinger and Fontainebleau) with contrasting mechanical properties, cycling confining pressure between 5 and 30 MPa. Emphasis is placed on how surface roughness, fracture wall offset, and the mechanical properties of the contact asperities affect the self-propping potential of these fractures under normal stress. A relative fracture wall displacement can significantly increase fracture aperture and hydraulic conductivity, but the degree of increase strongly depends on the fracture surface roughness. For smooth fractures, surface roughness remains scale-independent as long as the fracture area is larger than a roll-off wavelength and thus any further displacement does not affect fracture aperture. For rough tensile fractures, these are self-affine over a larger scale so that an incremental fracture wall offset likely leads to an increase in fracture aperture. X-ray microtomography of the fractures indicates that the contact area ratio of the tensile fractures after the confining pressure cycle inversely correlates with the fracture wall offset yielding values in the range of about 3-25%, depending, first, on the respective surface roughness and, second, on the strength of the asperities in contact. Moreover, the contact asperities mainly occur isolated and tend to be preferentially oriented in the direction perpendicular to the fracture wall displacement which, in turn, may induce flow anisotropy. This, overall, implies that relatively harder sedimentary rocks have a higher self-propping potential for sustainable fluid flow through fractures in comparison to relatively soft rocks when specific conditions regarding surface roughness and fracture wall offset are met. KW - Self-propping fracture KW - Mechanical aperture KW - Hydraulic aperture KW - Normal KW - stress KW - Fracture wall offset KW - Surface roughness Y1 - 2021 U6 - https://doi.org/10.1007/s00603-021-02500-4 SN - 0723-2632 SN - 1434-453X VL - 54 IS - 10 SP - 5407 EP - 5432 PB - Springer CY - Wien ER - TY - JOUR A1 - Codeço, Marta S. A1 - Weis, Philipp A1 - Trumbull, Robert B. A1 - Van Hinsberg, Vincent A1 - Pinto, Filipe A1 - Lecumberri-Sanchez, Pilar A1 - Schleicher, Anja Maria T1 - The imprint of hydrothermal fluids on trace-element contents in white mica and tourmaline from the Panasqueira W–Sn–Cu deposit, Portugal JF - Mineralium Deposita N2 - White mica and tourmaline are the dominant hydrothermal alteration minerals at the world-class Panasqueira W-Sn-Cu deposit in Portugal. Thus, understanding the controls on their chemical composition helps to constrain ore formation processes at this deposit and determine their usefulness as pathfinder minerals for mineralization in general. We combine whole-rock geochemistry of altered and unaltered metasedimentary host rocks with in situ LA-ICP-MS measurements of tourmaline and white mica from the alteration halo. Principal component analysis (PCA) is used to better identify geochemical patterns and trends of hydrothermal alteration in the datasets. The hydrothermally altered metasediments are enriched in As, Sn, Cs, Li, W, F, Cu, Rb, Zn, Tl, and Pb relative to unaltered samples. In situ mineral analyses show that most of these elements preferentially partition into white mica over tourmaline (Li, Rb, Cs, Tl, W, and Sn), whereas Zn is enriched in tourmaline. White mica has distinct compositions in different settings within the deposit (greisen, vein selvages, wall rock alteration zone, late fault zone), indicating a compositional evolution with time. In contrast, tourmaline from different settings overlaps in composition, which is ascribed to a stronger dependence on host rock composition and also to the effects of chemical zoning and microinclusions affecting the LA-ICP-MS analyses. Hence, in this deposit, white mica is the better recorder of the fluid composition. The calculated trace-element contents of the Panasqueira mineralizing fluid based on the mica data and estimates of mica-fluid partition coefficients are in good agreement with previous fluid-inclusion analyses. A compilation of mica and tourmaline trace-element compositions from Panasqueira and other W-Sn deposits shows that white mica has good potential as a pathfinder mineral, with characteristically high Li, Cs, Rb, Sn, and W contents. The trace-element contents of hydrothermal tourmaline are more variable. Nevertheless, the compiled data suggest that high Sn and Li contents are distinctive for tourmaline from W-Sn deposits. KW - alteration geochemistry KW - tourmaline KW - white mica KW - Panasqueira KW - Tungsten–tin deposits KW - magmatic-hydrothermal systems KW - trace elements Y1 - 2020 U6 - https://doi.org/10.1007/s00126-020-00984-8 SN - 1432-1866 SN - 0026-4598 VL - 56 IS - 3 SP - 481 EP - 508 PB - Springer CY - Berlin; Heidelberg ER - TY - JOUR A1 - Dahm, Torsten A1 - Heimann, Sebastian A1 - Metz, Malte A1 - Isken, Marius Paul T1 - A self-similar dynamic rupture model based on the simplified wave-rupture analogy JF - Geophysical journal international / the Royal Astronomical Society, the Deutsche Geophysikalische Gesellschaft and the European Geophysical Society N2 - The investigation of stresses, faults, structure and seismic hazards requires a good understanding and mapping of earthquake rupture and slip. Constraining the finite source of earthquakes from seismic and geodetic waveforms is challenging because the directional effects of the rupture itself are small and dynamic numerical solutions often include a large number of free parameters. The computational effort is large and therefore difficult to use in an exploratory forward modelling or inversion approach. Here, we use a simplified self-similar fracture model with only a few parameters, where the propagation of the fracture front is decoupled from the calculation of the slip. The approximative method is flexible and computationally efficient. We discuss the strengths and limitations of the model with real-case examples of well-studied earthquakes. These include the M-w 8.3 2015 Illapel, Chile, megathrust earthquake at the plate interface of a subduction zone and examples of continental intraplate strike-slip earthquakes like the M-w 7.1 2016 Kumamoto, Japan, multisegment variable slip event or the M-w 7.5 2018 Palu, Indonesia, supershear earthquake. Despite the simplicity of the model, a large number of observational features ranging from different rupture-front isochrones and slip distributions to directional waveform effects or high slip patches are easy to model. The temporal evolution of slip rate and rise time are derived from the incremental growth of the rupture and the stress drop without imposing other constraints. The new model is fast and implemented in the open-source Python seismology toolbox Pyrocko, ready to study the physics of rupture and to be used in finite source inversions. KW - Earthquake dynamics KW - Earthquake ground motions KW - Earthquake hazards KW - Earthquake source observations Y1 - 2021 U6 - https://doi.org/10.1093/gji/ggab045 SN - 0956-540X SN - 1365-246X VL - 225 IS - 3 SP - 1586 EP - 1604 PB - Oxford Univ. Press CY - Oxford ER - TY - BOOK A1 - Davies, Tim R. A1 - Korup, Oliver A1 - Clague, John J. T1 - Geomorphology and natural hazards BT - understanding landscape change for disaster mitigation T3 - Advanced textbook series N2 - "In spite of ever-increasing research into natural hazards, the reported damage from natural disasters continues to rise, increasingly disrupting human activities. We, as scientists who study the way in which the part of Earth most relevant to society- the surface-behaves, are disturbed and frustrated by this trend. It appears that the large amounts of funding devoted each year to research into reducing the impacts of natural disasters could be much more effective in producing useful results. At the same time we are aware that society, as represented by its decision makers, while increasingly concerned at the impacts of natural disasters on lives and economies, is reluctant to acknowledge the intrinsic activity of Earth's surface and to take steps to adapt societal behaviour to minimise the impacts of natural disasters. Understanding and managing natural hazards and disasters are beyond matters of applied earth science, and also involve considering human societal, economic and political decisions" Y1 - 2021 SN - 978-1-119-99031-4 SN - 978-1-118-64861-2 PB - Wiley CY - Hoboken, NJ ER - TY - THES A1 - Davis, Timothy T1 - An analytical and numerical analysis of fluid-filled crack propagation in three dimensions T1 - Analytische und numerische Untersuchung der dreidimensionalen Ausbreitung von fluidgefüllten Rissen N2 - Fluids in the Earth's crust can move by creating and flowing through fractures, in a process called `hydraulic fracturing’. The tip-line of such fluid-filled fractures grows at locations where stress is larger than the strength of the rock. Where the tip stress vanishes, the fracture closes and the fluid-front retreats. If stress gradients exist on the fracture's walls, induced by fluid/rock density contrasts or topographic stresses, this results in an asymmetric shape and growth of the fracture, allowing for the contained batch of fluid to propagate through the crust. The state-of-the-art analytical and numerical methods to simulate fluid-filled fracture propagation are two-dimensional (2D). In this work I extend these to three dimensions (3D). In my analytical method, I approximate the propagating 3D fracture as a penny-shaped crack that is influenced by both an internal pressure and stress gradients. In addition, I develop a numerical method to model propagation where curved fractures can be simulated as a mesh of triangular dislocations, with the displacement of faces computed using the displacement discontinuity method. I devise a rapid technique to approximate stress intensity and use this to calculate the advance of the tip-line. My 3D models can be applied to arbitrary stresses, topographic and crack shapes, whilst retaining short computation times. I cross-validate my analytical and numerical methods and apply them to various natural and man-made settings, to gain additional insights into the movements of hydraulic fractures such as magmatic dikes and fluid injections in rock. In particular, I calculate the `volumetric tipping point’, which once exceeded allows a fluid-filled fracture to propagate in a `self-sustaining’ manner. I discuss implications this has for hydro-fracturing in industrial operations. I also present two studies combining physical models that define fluid-filled fracture trajectories and Bayesian statistical techniques. In these studies I show that the stress history of the volcanic edifice defines the location of eruptive vents at volcanoes. Retrieval of the ratio between topographic to remote stresses allows for forecasting of probable future vent locations. Finally, I address the mechanics of 3D propagating dykes and sills in volcanic regions. I focus on Sierra Negra volcano in the Gal\'apagos islands, where in 2018, a large sill propagated with an extremely curved trajectory. Using a 3D analysis, I find that shallow horizontal intrusions are highly sensitive to topographic and buoyancy stress gradients, as well as the effects of the free surface. N2 - Flüssigkeiten und Gase (Fluide) können sich in der Erdkruste bewegen, indem sie Risse erzeugen und durch diese fließen. Die Mechanik dieses Problems wird im Forschungsbereich der Bruchmechanik beschrieben. Das Vorhandensein von Spannungsgradienten verursacht einen Rissausbreitungsvorgang durch die Erdkruste. Auf den Flächen dieser Rissufer können verschiedene Arten von Belastungen auftreten, welche definieren, wie sich die Rissfront vergrößert. In dieser Arbeit adaptiere ich zuvor entwickelte zweidimensionale (2D) Modelle der flüssigkeitsgefüllten Bruchausbreitung für drei Dimensionen (3D). Anhand der dreidimensionalen Betrachtung können die Bewegungen dieser Frakturen detaillierter untersucht werden. Analoge und neotektonische Beobachtungen, die mit vorhandenen 2D-Techniken nicht beschreibbar waren, können mit der neuen Technik erklärt werden. Zusätzlich beschreibe ich, wie man mit einer 3D Randelementmethode (boundary element method) Spannungsintensitätsfaktoren berechnen und komplexe Rissgeometrien erfassen kann. Die Rechenzeiten sind vergleichbar mit 2D-Modellen. Ich stelle neue Analysetechniken bereit, mit denen diese Probleme schnell, aber kohärent quantifiziert werden können. Ich verwende diese 3D-Techniken, um eine Reihe von Fallstudien zu untersuchen, wobei ich mich zunächst auf den Wendepunkt konzentriere, ab dem sich der mit Fluiden gefüllte Riss autark bewegt. Ich habe herausgefunden, dass dies durch das in der Fraktur enthaltene Volumen beschrieben werden kann, was Auswirkungen auf den industriellen Betrieb hat. Anschließend präsentiere ich zwei Studien, die physikalische Rissausbreitungsmodelle und Bayes‘sche statistische Techniken kombinieren. Ich zeige, dass die Spannungshistorie den Ort eruptiver Entlüftungsöffnungen definiert und dass die Einbeziehung der topografischen und tektonischen Spannungsverhältnisse mit diesem Schema die Vorhersage wahrscheinlicher zukünftiger Entlüftungsstellen ermöglicht. Mit dem 3D Randelementmethode befasse ich mich mit der Ausbreitung von Gängen und Lavagängen in vulkanischen Regionen. Ich konzentriere mich auf eine Fallstudie vom Vulkan Sierra Negra auf den Galapagos-Inseln, auf der eine große Lavagängen beobachteten wurden, die sich mit einer stark gekrümmten Kurve ausbreitet. Ich habe heraus gefunden, dass die Bewegung von Lavagängen in solchen Systemen aus einer Wechselwirkung von topografischen- und Auftriebs- Spannungsgradienten sowie den Auswirkungen von Halbraumeffekten resultieren. KW - Fracture mechanics KW - Bruchmechanik KW - Boundary element method KW - Randelementmethode KW - Fluid KW - Fluide Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-509609 ER - TY - JOUR A1 - De Lucia, Marco A1 - Kühn, Michael T1 - DecTree v1.0-chemistry speedup in reactive transport simulations BT - purely data-driven and physics-based surrogates JF - Geoscientific model development : an interactive open access journal of the European Geosciences Union N2 - The computational costs associated with coupled reactive transport simulations are mostly due to the chemical subsystem: replacing it with a pre-trained statistical surrogate is a promising strategy to achieve decisive speedups at the price of small accuracy losses and thus to extend the scale of problems which can be handled. We introduce a hierarchical coupling scheme in which "full-physics" equation-based geochemical simulations are partially replaced by surrogates. Errors in mass balance resulting from multivariate surrogate predictions effectively assess the accuracy of multivariate regressions at runtime: inaccurate surrogate predictions are rejected and the more expensive equation-based simulations are run instead. Gradient boosting regressors such as XGBoost, not requiring data standardization and being able to handle Tweedie distributions, proved to be a suitable emulator. Finally, we devise a surrogate approach based on geochemical knowledge, which overcomes the issue of robustness when encountering previously unseen data and which can serve as a basis for further development of hybrid physics-AI modelling. Y1 - 2021 U6 - https://doi.org/10.5194/gmd-14-4713-2021 SN - 1991-959X SN - 1991-9603 VL - 14 IS - 7 SP - 4713 EP - 4730 PB - Copernicus CY - Göttingen ER - TY - JOUR A1 - De Lucia, Marco A1 - Kühn, Michael A1 - Lindemann, Alexander A1 - Lübke, Max A1 - Schnor, Bettina T1 - POET (v0.1): speedup of many-core parallel reactive transport simulations with fast DHT lookups JF - Geoscientific model development : an interactive open access journal of the European Geosciences Union N2 - Coupled reactive transport simulations are extremely demanding in terms of required computational power, which hampers their application and leads to coarsened and oversimplified domains. The chemical sub-process represents the major bottleneck: its acceleration is an urgent challenge which gathers increasing interdisciplinary interest along with pressing requirements for subsurface utilization such as spent nuclear fuel storage, geothermal energy and CO2 storage. In this context we developed POET (POtsdam rEactive Transport), a research parallel reactive transport simulator integrating algorithmic improvements which decisively speed up coupled simulations. In particular, POET is designed with a master/worker architecture, which ensures computational efficiency in both multicore and cluster compute environments. POET does not rely on contiguous grid partitions for the parallelization of chemistry but forms work packages composed of grid cells distant from each other. Such scattering prevents particularly expensive geochemical simulations, usually concentrated in the vicinity of a reactive front, from generating load imbalance between the available CPUs (central processing units), as is often the case with classical partitions. Furthermore, POET leverages an original implementation of the distributed hash table (DHT) mechanism to cache the results of geochemical simulations for further reuse in subsequent time steps during the coupled simulation. The caching is hence particularly advantageous for initially chemically homogeneous simulations and for smooth reaction fronts. We tune the rounding employed in the DHT on a 2D benchmark to validate the caching approach, and we evaluate the performance gain of POET's master/worker architecture and the DHT speedup on a 3D benchmark comprising around 650 000 grid elements. The runtime for 200 coupling iterations, corresponding to 960 simulation days, reduced from about 24 h on 11 workers to 29 min on 719 workers. Activating the DHT reduces the runtime further to 2 h and 8 min respectively. Only with these kinds of reduced hardware requirements and computational costs is it possible to realistically perform the longterm complex reactive transport simulations, as well as perform the uncertainty analyses required by pressing societal challenges connected with subsurface utilization. Y1 - 2021 U6 - https://doi.org/10.5194/gmd-14-7391-2021 SN - 1991-959X SN - 1991-9603 VL - 14 IS - 12 SP - 7391 EP - 7409 PB - Copernicus CY - Göttingen ER - TY - JOUR A1 - Degen, Denise A1 - Spooner, Cameron A1 - Scheck-Wenderoth, Magdalena A1 - Cacace, Mauro T1 - How biased are our models? BT - a case study of the alpine region JF - Geoscientific model development : an interactive open access journal of the European Geosciences Union N2 - Geophysical process simulations play a crucial role in the understanding of the subsurface. This understanding is required to provide, for instance, clean energy sources such as geothermal energy. However, the calibration and validation of the physical models heavily rely on state measurements such as temperature. In this work, we demonstrate that focusing analyses purely on measurements introduces a high bias. This is illustrated through global sensitivity studies. The extensive exploration of the parameter space becomes feasible through the construction of suitable surrogate models via the reduced basis method, where the bias is found to result from very unequal data distribution. We propose schemes to compensate for parts of this bias. However, the bias cannot be entirely compensated. Therefore, we demonstrate the consequences of this bias with the example of a model calibration. Y1 - 2021 U6 - https://doi.org/10.5194/gmd-14-7133-2021 SN - 1991-959X SN - 1991-9603 VL - 14 IS - 11 SP - 7133 EP - 7153 PB - Copernicus CY - Göttingen ER - TY - GEN A1 - Dietze, Michael A1 - Krautblatter, Michael A1 - Illien, Luc A1 - Hovius, Niels T1 - Seismic constraints on rock damaging related to a failing mountain peak BT - The Hochvogel, Allgäu T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Large rock slope failures play a pivotal role in long-term landscape evolution and are a major concern in land use planning and hazard aspects. While the failure phase and the time immediately prior to failure are increasingly well studied, the nature of the preparation phase remains enigmatic. This knowledge gap is due, to a large degree, to difficulties associated with instrumenting high mountain terrain and the local nature of classic monitoring methods, which does not allow integral observation of large rock volumes. Here, we analyse data from a small network of up to seven seismic sensors installed during July-October 2018 (with 43 days of data loss) at the summit of the Hochvogel, a 2592 m high Alpine peak. We develop proxy time series indicative of cyclic and progressive changes of the summit. Modal analysis, horizontal-to-vertical spectral ratio data and end-member modelling analysis reveal diurnal cycles of increasing and decreasing coupling stiffness of a 260,000 m(3) large, instable rock volume, due to thermal forcing. Relative seismic wave velocity changes also indicate diurnal accumulation and release of stress within the rock mass. At longer time scales, there is a systematic superimposed pattern of stress increased over multiple days and episodic stress release within a few days, expressed in an increased emission of short seismic pulses indicative of rock cracking. Our data provide essential first order information on the development of large-scale slope instabilities towards catastrophic failure. (c) 2020 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1360 KW - environmental seismology KW - fatigue KW - fundamental frequency KW - HVSR KW - mass KW - wasting KW - mountain geomorphology KW - natural hazard KW - noise cross KW - correlation KW - seismic monitoring KW - slope failure Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-568787 SN - 1866-8372 IS - 2 ER - TY - JOUR A1 - Dietze, Michael A1 - Krautblatter, Michael A1 - Illien, Luc A1 - Hovius, Niels T1 - Seismic constraints on rock damaging related to a failing mountain peak BT - The Hochvogel, Allgäu JF - Earth surface processes and landforms N2 - Large rock slope failures play a pivotal role in long-term landscape evolution and are a major concern in land use planning and hazard aspects. While the failure phase and the time immediately prior to failure are increasingly well studied, the nature of the preparation phase remains enigmatic. This knowledge gap is due, to a large degree, to difficulties associated with instrumenting high mountain terrain and the local nature of classic monitoring methods, which does not allow integral observation of large rock volumes. Here, we analyse data from a small network of up to seven seismic sensors installed during July-October 2018 (with 43 days of data loss) at the summit of the Hochvogel, a 2592 m high Alpine peak. We develop proxy time series indicative of cyclic and progressive changes of the summit. Modal analysis, horizontal-to-vertical spectral ratio data and end-member modelling analysis reveal diurnal cycles of increasing and decreasing coupling stiffness of a 260,000 m(3) large, instable rock volume, due to thermal forcing. Relative seismic wave velocity changes also indicate diurnal accumulation and release of stress within the rock mass. At longer time scales, there is a systematic superimposed pattern of stress increased over multiple days and episodic stress release within a few days, expressed in an increased emission of short seismic pulses indicative of rock cracking. Our data provide essential first order information on the development of large-scale slope instabilities towards catastrophic failure. (c) 2020 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd KW - environmental seismology KW - fatigue KW - fundamental frequency KW - HVSR KW - mass KW - wasting KW - mountain geomorphology KW - natural hazard KW - noise cross KW - correlation KW - seismic monitoring KW - slope failure Y1 - 2021 U6 - https://doi.org/10.1002/esp.5034 SN - 0197-9337 SN - 1096-9837 VL - 46 IS - 2 SP - 417 EP - 429 PB - Wiley CY - Hoboken ER - TY - THES A1 - Dämpfling, Helge Leoard Carl T1 - DeepGeoMap BT - a deep learning convolutional neural network architecture for geological hyperspectral classification and mapping N2 - In recent years, deep learning improved the way remote sensing data is processed. The classification of hyperspectral data is no exception. 2D or 3D convolutional neural networks have outperformed classical algorithms on hyperspectral image classification in many cases. However, geological hyperspectral image classification includes several challenges, often including spatially more complex objects than found in other disciplines of hyperspectral imaging that have more spatially similar objects (e.g., as in industrial applications, aerial urban- or farming land cover types). In geological hyperspectral image classification, classical algorithms that focus on the spectral domain still often show higher accuracy, more sensible results, or flexibility due to spatial information independence. In the framework of this thesis, inspired by classical machine learning algorithms that focus on the spectral domain like the binary feature fitting- (BFF) and the EnGeoMap algorithm, the author of this thesis proposes, develops, tests, and discusses a novel, spectrally focused, spatial information independent, deep multi-layer convolutional neural network, named 'DeepGeoMap’, for hyperspectral geological data classification. More specifically, the architecture of DeepGeoMap uses a sequential series of different 1D convolutional neural networks layers and fully connected dense layers and utilizes rectified linear unit and softmax activation, 1D max and 1D global average pooling layers, additional dropout to prevent overfitting, and a categorical cross-entropy loss function with Adam gradient descent optimization. DeepGeoMap was realized using Python 3.7 and the machine and deep learning interface TensorFlow with graphical processing unit (GPU) acceleration. This 1D spectrally focused architecture allows DeepGeoMap models to be trained with hyperspectral laboratory image data of geochemically validated samples (e.g., ground truth samples for aerial or mine face images) and then use this laboratory trained model to classify other or larger scenes, similar to classical algorithms that use a spectral library of validated samples for image classification. The classification capabilities of DeepGeoMap have been tested using two geological hyperspectral image data sets. Both are geochemically validated hyperspectral data sets one based on iron ore and the other based on copper ore samples. The copper ore laboratory data set was used to train a DeepGeoMap model for the classification and analysis of a larger mine face scene within the Republic of Cyprus, where the samples originated from. Additionally, a benchmark satellite-based dataset, the Indian Pines data set, was used for training and testing. The classification accuracy of DeepGeoMap was compared to classical algorithms and other convolutional neural networks. It was shown that DeepGeoMap could achieve higher accuracies and outperform these classical algorithms and other neural networks in the geological hyperspectral image classification test cases. The spectral focus of DeepGeoMap was found to be the most considerable advantage compared to spectral-spatial classifiers like 2D or 3D neural networks. This enables DeepGeoMap models to train data independently of different spatial entities, shapes, and/or resolutions. N2 - In den letzten Jahren hat Deep Learning die Verarbeitung von Fernerkundungsdaten verbessert. Die Klassifizierung hyperspektraler Daten ist keine Ausnahme. 2D- oder 3D-Convolutional Neural Networks haben in vielen Fällen klassische Algorithmen zur hyperspektralen Bildklassifizierung übertroffen. Die Klassifikation geologischer hyperspektraler Bilder beinhaltet jedoch mehrere Herausforderungen, die oft räumlich komplexere Objekte umfassen als in anderen Disziplinen der hyperspektralen Bildanalyse, die in der Regel räumlich ähnlichere Objekte aufweisen (z. B. in industriellen Anwendungen, städtischen oder landwirtschaftlichen Luftaufnahmen). Bei der geologischen hyperspektralen Bildklassifizierung zeigen klassische Algorithmen, die sich auf den Spektralbereich konzentrieren, oft noch eine höhere Klassifizierungsgenauigkeit, sinnvollere Ergebnisse oder Flexibilität aufgrund räumlicher Informationsunabhängigkeit. Im Rahmen dieser Arbeit, inspiriert von klassischen maschinellen Lernalgorithmen, die sich auf den spektralen Bereich konzentrieren, wie dem Binary Feature Fitting- (BFF) und dem EnGeoMap-Algorithmus, schlägt der Autor dieser Arbeit ein neuartiges, spektral fokussiertes, räumlich unabhängiges, tiefes mehrschichtiges neuronales Faltungsnetzwerk (Deep Convolutional Neural Network) mit dem Namen "DeepGeoMap" für die hyperspektrale geologische Datenklassifizierung vor. Genauer gesagt verwendet die Architektur von DeepGeoMap eine sequenzielle Reihe verschiedener „1D-Convolutional-Layer“ und „1D-Dense-Layer“ und verwendet ReLU und Softmax-Aktivierung, "1D-Max- und 1D-Global-Average-Pooling-Layer“, ein zusätzliches "Dropout-Layer", um ein „Overfitting“ zu verhindern, und eine kategoriale Kreuzentropieverlustfunktion mit Adam-Gradientenabstiegsoptimierung. DeepGeoMap wurde mit Python 3.7 und der Machine- und Deep-Learning-Schnittstelle TensorFlow mit Grafikartenbeschleunigung (GPU) realisiert. Diese spektral fokussierte 1D-Architektur ermöglicht das Trainieren von DeepGeoMap-Modellen mit hyperspektralen Laborbilddaten geochemisch validierter Proben (nach dem Vorbild klassischer Algorithmen, die eine Spektralbibliothek validierter Proben zur Bildklassifizierung verwenden). Die Klassifizierungsfähigkeiten von DeepGeoMap wurden mit zwei geologischen hyperspektralen Bilddatensätzen getestet. Bei beiden handelt es sich um geochemisch validierte hyperspektrale Datensätze, von denen einer auf Eisenerz und der andere auf Kupfererzproben basiert. Der Kupfererz-Labordatensatz wurde verwendet, um ein DeepGeoMap-Modell für die Klassifizierung und Analyse einer größeren Tagebauwandszene in der Republik Zypern, aus der die Proben stammten, zu trainieren. Darüber hinaus wurde ein satellitenbasierter Benchmark-Datensatz, der Indian Pines-Datensatz, für Training und Tests verwendet. Die Klassifikationsgenauigkeit von DeepGeoMap wurde mit klassischen Algorithmen und anderen neuronalen Faltungsnetzen verglichen. Es wurde gezeigt, dass DeepGeoMap höhere Genauigkeiten erreichen und diese klassischen Algorithmen und andere neuronale Netze in den Testfällen der geologischen hyperspektralen Bildklassifizierung übertreffen kann. Der spektrale Fokus von DeepGeoMap erwies sich als der größte Vorteil gegenüber spektral-räumlichen Klassifikatoren wie 2D- oder 3D-Convolutional Neural Networks. Dadurch können DeepGeoMap-Modelle Daten unabhängig von unterschiedlichen räumlichen Einheiten, Formen und/oder Auflösungen trainieren. KW - deep learning KW - convolutional neural network KW - geological hyperspectral image classification KW - deep learning KW - faltendes neuronales Netzwerk KW - geologische hyperspektrale Bildklassifikation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-520575 ER - TY - THES A1 - Düsing, Walter T1 - From changes in the Earth's orbit to African climate variability T1 - Von Änderungen des Erdorbits zu Afrikanischen Klimavariabilität N2 - We developed an orbital tuned age model for the composite Chew Bahir sediment core, obtained from the Chew Bahir basin (CHB), southern Ethiopia. To account for the effects of sedimentation rate changes on the spectral expression of the orbital cycles we developed a new method: the Multi-band Wavelet Age modeling technique (MUBAWA). By using a Continuous Wavelet Transformation, we were able to track frequency shifts that resulted from changing sedimentation rates and thus calculated tuned age model encompassing the last 620 kyrs. The results show a good agreement with the directly dated age model that is available from the dating of volcanic ashes. Then we used the XRF data from CHB and developed a new and robust humid-arid index of east African climate during the last 620 kyrs. To disentangle the relationship of the selected elements we performed a principal component analysis (PCA). In a following step we applied a continuous wavelet transformation on the PC1, using the directly dated age model. The resulting wavelet power spectrum, unlike a normal power spectrum, displays the occurrence of cycles/frequencies in time. The results highlight that the precession cycles are most dominantly expressed under the 400 kyrs eccentricity maximum whereas weakly expressed during eccentricity minimum. This suggests that insolation is a key driver of the climatic variability observed at CHB throughout the last 620 kyrs. In addition, the prevalence of half-precession and obliquity signals was documented. The latter is attributed to the inter-tropical insolation gradient and not interpreted as an imprint of high latitudes forcing on climatic changes in the tropics. In addition, a windowed analysis of variability was used to detect changes in variance over time and showed that strong climate variability occurred especially along the transition from a dominant insolation-controlled humid climate background state towards a predominantly dry and less-insolation controlled climate. The last chapter dealt with non-linear aspects of climate changes represented by the sediments of the CHB. We use recurrence quantification analysis to detect non-linear changes within the potassium concentration of Chew Bahir sediment cores during the last 620 kyrs. The concentration of potassium in the sediments of the lake is subject to geochemical processes related to the evaporation rate of the lake water at the time of deposition. Based on recurrence analysis, two types of variabilities could be distinguished. Type 1 represents slow variations within the precession period bandwidth of 20 kyrs and a tendency towards extreme climatic events whereas type 2 represents fast, highly variable climatic transitions between wet and dry climate states. While type 1 variability is linked to eccentricity maxima, type 2 variability occurs during the 400 kyrs eccentricity minimum. The climate history presented here shows that during high eccentricity a strongly insolation-driven climate system prevailed, whereas during low eccentricity the climate was more strongly affected by short-term variability changes. The short-term environmental changes, reflected in the increased variability might have influenced the evolution, technological advances and expansion of early modern humans who lived in this region. In the Olorgesaille Basin the temporal changes in the occurrence of stone tools, which bracket the transition from Acheulean to Middle Stone Age (MSA) technologies at between 499–320 kyrs, could potentially correlate to the marked transition from a rather stable climate with less variability to a climate with increased variability in the CHB. We conclude that populations of early anatomically modern humans are more likely to have experienced climatic stress during episodes of low eccentricity, associated with dry and high variability climate conditions, which may have led to technological innovation, such as the transition from the Acheulean to the Middle Stone Age. N2 - Bei der von uns entwickelten Multi-band Wavelet Age-Modeling (MUBAWA) Methode handelt es sich um eine Methode zur Erstellung eines orbital abgestimmten Altersmodells. Diese Methode verwendet, anders als bisherige Methoden, keinen stationären Filter, sondern eine kontinuierliche Wavelet Transformation (CWT) um die orbitale Komponente der zyklischen Sedimentabfolge zu extrahieren. Durch die Anwendung der CWT können zeitliche Änderungen der Sedimentationsrate berücksichtigt werden. Mit Hilfe der neuen MUBAWA Methode haben wir ein orbital abgestimmtes Altersmodell mit einem Basisalter von 620 kyrs für die Sedimentkerne des Chew Bahir Beckens (CHB) erstellt, welches mit den radiometrisch datierten Vulkanaschen der Sedimentkerne übereinstimmt. In dem folgenden Kapitel haben wir die Ergebnisse der Röntgenfluoreszenz (XRF) - Analyse der Sedimentkerne genutzt um einen neuen Feucht-trocken Anzeiger zu entwickeln Um Umwelteinflüsse, sowie lineare Zusammenhänge der Elementkonzentrationen zu entschlüsseln, haben wir eine Hauptkomponentenanalyse angewendet. Die erste Hauptkomponente (PC1) haben wir als Feucht-Trockenanzeiger interpretiert. Auf Grundlage des direkt datierten Altersmodells haben wir die PC1 genutzt um eine CWT zu berechnen. Das resultierende Wavelet Powerspektrum stellt das Auftreten von Zyklen/Frequenzen in der Zeit dar. Die Ergebnisse zeigen, dass vor 400 kyrs, während eines Exzentrizitätsmaximums, der Präzessionszyklus besonders stark ausgeprägt war, wohingegen der Präzessionszyklus während eines Exzentrizitätsminimums eher schwach ausgeprägt war. Dies deutet darauf hin, dass die Sonneneinstrahlung, welche in den Tropen durch den Präzessionzyklus beeinflusst wird, ein dominanter Faktor für die klimatische Variabilität in CHB während der letzten 620 kyrs darstellt. Darüber hinaus wurde die Prävalenz von Halbpräzessions- und Obliquitätszyklen dokumentiert. Obliquitätszyklen werden dem intertropischen Gradienten der Sonneneinstrahlung zugeschrieben, der klimatische Veränderungen in den Tropen erzwingt und nicht als ein Einfluss der hohen Breiten interpretiert. Darüber hinaus wurde eine gefensterte Variabilitätsanalyse der PC1 verwendet um eine zeitliche Veränderung der Variabilität zu erfassen. Diese zeigte, dass starke Klimavariabilität vor allem entlang des Übergangs von einem dominanten insolationsgesteuerten feuchten Klima zu einem überwiegend trockenen und weniger insolationsgesteuerten Klima auftrat. Das letzte Kapitel befasst sich mit nichtlinearen Aspekten der Klimavariabilität, repräsentiert durch die Kaliumkonzentration des Sediments des CHBs. Die Kaliumkonzentration in den Sedimenten des Sees ist geochemischen Prozessen unterworfen, die mit der Verdunstungsrate des Seewassers zum Zeitpunkt der Ablagerung zusammenhängen und daher als Feucht-Trockenanzeiger interpretiert werden. Basierend auf der Rekurrenzanalyse konnten zwei Arten von Variabilitäten unterschieden werden. Typ 1 repräsentiert langsame Variationen innerhalb der Bandbreite der Präzessionsperiode von 20 kyrs und eine Tendenz zu extremen klimatischen Ereignissen, während Typ 2 schnelle, sehr variable klimatische Übergänge zwischen feuchten und trockenen Klimazuständen repräsentiert. Die Variabilität vom Typ 1 ist mit Exzentrizitätsmaxima verbunden, wohingegen die Variabilität vom Typ 2 während des Exzentrizitätsminimums vor 400 kyrs auftritt. Die hier vorgestellte Klimageschichte zeigt, dass bei hoher Exzentrizität ein stark insolationsgetriebenes Klimasystem vorherrschte, während bei niedriger Exzentrizität das Klima stärker von kurzfristigen Variabilitätsänderungen beeinflusst wurde. Die kurzfristigen Umweltveränderungen, die sich in der erhöhten Variabilität widerspiegeln, könnten die Entwicklung, den technologischen Fortschritt und die Expansion der frühneuzeitlichen Menschen, die in dieser Region lebten, beeinflusst haben. Im Olorgesaille-Becken könnten die zeitlichen Veränderungen des Vorkommens von Steinwerkzeugen, die den Übergang von Acheulean zu mittel- steinzeitlichen (MSA) Technologien bei 499-320 kyrs markieren, möglicherweise mit dem deutlichen Übergang von einem eher stabilen Klima mit geringerer Variabilität zu einem Klima mit erhöhter Variabilität in der CHB korrelieren. Wir kommen zu dem Schluss, dass Populationen früher anatomisch moderner Menschen während Episoden geringer Exzentrizität klimatischen Stress erfahren haben könnten. Diese trockenen und hochvariablen Klimabedingungen könnten zu technologischen Innovationen geführt haben, wie z.B. dem Übergang von der Acheulean zur MSA. KW - Paleoclimate dynamics KW - Paläoklimadynamik KW - African climate KW - Afrikanisches Klima KW - age modeling KW - Altersmodelierung KW - Cyclostratigraphy KW - Zyklostratigraphie Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-503140 ER - TY - JOUR A1 - Eibl, Eva P. S. A1 - Müller, Daniel A1 - Walter, Thomas R. A1 - Allahbakhshi, Masoud A1 - Jousset, Philippe A1 - Hersir, Gylfi Páll A1 - Dahm, Torsten T1 - Eruptive cycle and bubble trap of Strokkur Geyser, Iceland JF - Journal of geophysical research : JGR. B: Solid earth N2 - The eruption frequency of geysers can be studied easily on the surface. However, details of the internal structure including possible water and gas filled chambers feeding eruptions and the driving mechanisms often remain elusive. We used a multidisciplinary network of seismometers, video cameras, water pressure sensors and one tiltmeter to study the eruptive cycle, internal structure, and mechanisms driving the eruptive cycle of Strokkur geyser in June 2018. An eruptive cycle at Strokkur always consists of four phases: (1) Eruption, (2) post-eruptive conduit refilling, (3) gas filling of the bubble trap, and (4) regular bubble collapse at shallow depth in the conduit. For a typical single eruption 19 +/- 4 bubble collapses occur in Phase 3 and 8 +/- 2 collapses in Phase 4 at a mean spacing of 1.52 +/- 0.29 and 24.5 +/- 5.9 s, respectively. These collapses release latent heat to the fluid in the bubble trap (Phase 3) and later to the fluid in the conduit (Phase 4). The latter eventually reaches thermodynamic conditions for an eruption. Single to sextuple eruptions have similar spacings between bubble collapses and are likely fed from the same bubble trap at 23.7 +/- 4.4 m depth, 13-23 m west of the conduit. However, the duration of the eruption and recharging phase linearly increases likely due to a larger water, gas and heat loss from the system. Our tremor data provides documented evidence for a bubble trap beneath a pool geyser. KW - bubble trap KW - eruptive cycle KW - geyser KW - hydrothermal systems KW - source KW - location KW - tremor Y1 - 2021 U6 - https://doi.org/10.1029/2020JB020769 SN - 2169-9313 SN - 2169-9356 VL - 126 IS - 4 PB - Wiley CY - Hoboken, NJ ER - TY - GEN A1 - Eichhorn, Sebastian A1 - Rusche, Karsten A1 - Weith, Thomas T1 - Integrative governance processes towards sustainable spatial development BT - solving conflicts between urban infill development and climate change adaptation T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Due to the high concentration of people and infrastructures in European cities, the possible impacts of climate change are particularly high (cities' social, economic and technical vulnerabilities). Adaptation measures to reduce the sensitivity of a city to climate risks are therefore of particular importance. Nevertheless, it is also common to develop compact and dense urban areas to reduce urban sprawl. Urban infill development and sustainable spatial climate policies are thus in apparent conflict with each other. This article examines how German cities deal with the tensions between these two policy fields. Using six case studies, a new heuristic analysis method is applied. This study identifies three key governance aspects that are essential for promoting the joint implementation: instruments, organisation and interaction. Based on our case studies, we conclude that successful implementation can only be achieved through integrative governance including all three domains. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1387 KW - urban infill development KW - climate change adaptation KW - governance KW - social KW - innovation KW - heuristic analysis Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-594964 SN - 1866-8372 IS - 12 ER - TY - JOUR A1 - Eichhorn, Sebastian A1 - Rusche, Karsten A1 - Weith, Thomas T1 - Integrative governance processes towards sustainable spatial development BT - solving conflicts between urban infill development and climate change adaptation JF - Journal of environmental planning and management N2 - Due to the high concentration of people and infrastructures in European cities, the possible impacts of climate change are particularly high (cities' social, economic and technical vulnerabilities). Adaptation measures to reduce the sensitivity of a city to climate risks are therefore of particular importance. Nevertheless, it is also common to develop compact and dense urban areas to reduce urban sprawl. Urban infill development and sustainable spatial climate policies are thus in apparent conflict with each other. This article examines how German cities deal with the tensions between these two policy fields. Using six case studies, a new heuristic analysis method is applied. This study identifies three key governance aspects that are essential for promoting the joint implementation: instruments, organisation and interaction. Based on our case studies, we conclude that successful implementation can only be achieved through integrative governance including all three domains. KW - urban infill development KW - climate change adaptation KW - governance KW - social KW - innovation KW - heuristic analysis Y1 - 2021 U6 - https://doi.org/10.1080/09640568.2020.1866509 SN - 0964-0568 SN - 1360-0559 VL - 64 IS - 12 SP - 2233 EP - 2256 PB - Routledge, Taylor & Francis Group CY - Abingdon ER - TY - JOUR A1 - Esfahani, Reza Dokht Dolatabadi A1 - Vogel, Kristin A1 - Cotton, Fabrice A1 - Ohrnberger, Matthias A1 - Scherbaum, Frank A1 - Kriegerowski, Marius T1 - Exploring the dimensionality of ground-motion data by applying autoencoder techniques JF - Bulletin of the Seismological Society of America : BSSA N2 - In this article, we address the question of how observed ground-motion data can most effectively be modeled for engineering seismological purposes. Toward this goal, we use a data-driven method, based on a deep-learning autoencoder with a variable number of nodes in the bottleneck layer, to determine how many parameters are needed to reconstruct synthetic and observed ground-motion data in terms of their median values and scatter. The reconstruction error as a function of the number of nodes in the bottleneck is used as an indicator of the underlying dimensionality of ground-motion data, that is, the minimum number of predictor variables needed in a ground-motion model. Two synthetic and one observed datasets are studied to prove the performance of the proposed method. We find that mapping ground-motion data to a 2D manifold primarily captures magnitude and distance information and is suited for an approximate data reconstruction. The data reconstruction improves with an increasing number of bottleneck nodes of up to three and four, but it saturates if more nodes are added to the bottleneck. Y1 - 2021 U6 - https://doi.org/10.1785/0120200285 SN - 0037-1106 SN - 1943-3573 VL - 111 IS - 3 SP - 1563 EP - 1576 PB - Seismological Society of America CY - El Cerito, Calif. ER - TY - JOUR A1 - Falkowski, Sarah A1 - Ehlers, Todd A1 - Madella, Andrea A1 - Glotzbach, Christoph A1 - Georgieva, Viktoria A1 - Strecker, Manfred T1 - Glacial catchment erosion from detrital zircon (U-Th)/He thermochronology BT - Patagonian Andes JF - GR / AGU, American Geophysical Union: Earth surface N2 - Alpine glacial erosion exerts a first-order control on mountain topography and sediment production, but its mechanisms are poorly understood. Observational data capable of testing glacial erosion and transport laws in glacial models are mostly lacking. New insights, however, can be gained from detrital tracer thermochronology. Detrital tracer thermochronology works on the premise that thermochronometer bedrock ages vary systematically with elevation, and that detrital downstream samples can be used to infer the source elevation sectors of sediments. We analyze six new detrital samples of different grain sizes (sand and pebbles) from glacial deposits and the modern river channel integrated with data from 18 previously analyzed bedrock samples from an elevation transect in the Leones Valley, Northern Patagonian Icefield, Chile (46.7 degrees S). We present 622 new detrital zircon (U-Th)/He (ZHe) single-grain analyses and 22 new bedrock ZHe analyses for two of the bedrock samples to determine age reproducibility. Results suggest that glacial erosion was focused at and below the Last Glacial Maximum and neoglacial equilibrium line altitudes, supporting previous modeling studies. Furthermore, grain age distributions from different grain sizes (sand, pebbles) might indicate differences in erosion mechanisms, including mass movements at steep glacial valley walls. Finally, our results highlight complications and opportunities in assessing glacigenic environments, such as dynamics of sediment production, transport, transient storage, and final deposition, that arise from settings with large glacio-fluvial catchments. KW - ZHe tracer thermochronology KW - glacial erosion KW - sediment production KW - grain KW - size fractions KW - Leones Glacier KW - Northern Patagonian Icefield Y1 - 2021 U6 - https://doi.org/10.1029/2021JF006141 SN - 2169-9003 SN - 2169-9011 VL - 126 IS - 10 PB - Wiley CY - Hoboken, NJ ER - TY - THES A1 - Figueroa Villegas, Sara T1 - Paleolagos cuaternarios como marcadores neotectónicos, Valle de Cafayate, Cordillera Oriental (no de Argentina) T1 - Quaternary paleolakes as indicators of neotectonic activity, Cafayate valley, Eastern Cordillera (NW Argentina) T1 - Quartäre Paläoseen als Indikatoren für tektonische Aktivität, Cafayate-Tal, Ostkordillere (NW Argentinien) N2 - The eastern flank of the southern Central Andes in north-western Argentina (NWA) is characterized by fault‐bounded mountain ranges arranged in a thick-skinned active contractional orogen with a non-systematic spatiotemporal pattern of tectonic activity. This pattern is represented by instrumentally recorded crustal seismic activity as well as the distribution of Quaternary deformation phenomena along the Eastern Cordillera and the Santa Bárbara System morphotectonic provinces, creating a wide (> 200km) deformation zone that lacks a clear deformation front. The study of the neotectonic activity in this region has become more detailed over the past years and has involved morphotectonic analysis, remote sensing, geodesy, and field-based structural studies. Lacustrine deposits in the intermontane basins of the Eastern Cordillera that are exposed in areas associated with Quaternary faulting - due to their original horizontality of the fine-grained layers, are excellent strain markers to assess neotectonic activity. I analyzed lacustrine deposits that outcrop in the central area of the Calchaquí valleys (Cafayate sector) to understand how deformation is accommodated in one of the largest intermontane basins of the tectonically active orogen. The strike of the Quaternary structures in the studied area is parallel to subparallel to the valley-bounding faults. With the stratigraphic, morphotectonic and structural study of the lacustrine deposits, I identified a minimum of five deformation episodes that affected the Quaternary stratigraphic section. Based on this I present Late Pleistocene minimum and maximum shortening rates for the central Calchaquí intermontane valley that range between 0,19-4,47 mm/yr, respectively. The rates presented are based on balanced geological cross sections and geochronological ages obtained in this study as well as compilations from previously published studies. In order to compare the local shortening results at regional and different temporal scales, I additionally compiled Global Positioning System data from northwest Argentina to generate a surface-velocitiy profile. The results reveal a gradual decrease in horizontal surface velocities from the Eastern Cordillera toward the foreland, indicating tectonic activity in the interior of the orogen, which is recorded by seismic activity and the wide distribution of Quaternary faults and folds. In addition to the neotectonic investigation carried out in the study area, the stratigraphic analysis of the lacustrine deposits allowed to have a better understanding of the Quaternary basin evolution of the central area of the Calchaquí valleys. At least seven distinct lacustrine deposits could be identified that correspond to an impoundment of the fluvial system and ensuing base-level changes, resulting in successive aggradation and subsequent erosion events. Together with a hydrological model previously published for the study area, the maximum elevations that the paleolakes reached were furthermore reviewed and compared with regional paleoclimate data to allow local climatic inferences. The results of this thesis are a significant contribution to our understanding of the Quaternary tectonic and the stratigraphic evolution of the central sector of the Calchaquí valleys. Furthermore, the integration of local structural and geochronological data with regional structural and geodetic observations contributes to our knowledge of the deformation dynamics of the thick-skinned orogenic wedge of northwest Argentina. N2 - Die Ostflanke der tektonisch aktiven südlichen Zentralanden von Nordwestargentinien (NWA) ist durch störungsgebundene Bergketten, intermontane Becken und einen unsystematischen räumlich-zeitlichen Deformationsstil mit steil einfallenden Aufschiebungen in den Sockelgesteinen charakterisiert. Dieser Deformationsstil spiegelt sich durch durch seismische Aktivität sowie durch die Verteilung quartärer Deformationsstrukturen entlang der Cordillera Oriental und im fragmentierten Vorland der morphotektonischen Proviz des sog. Santa Bárbara Systems wider; hier existiert eine über 200km breite Deformationsfront. Die Erforschung neotektonischer Aktivität in der Region wurde in den letzten Jahren durch verschiedene methodische Ansätze durchgefüht; hierzu gehören die Morphotektonik, Fernerkundung, Geodäsie und strukturgeologische Feldstudien. Lakustrine Sedimente in den intermontanen Becken der Ostkordillere, die vor allem in Bereichen aufgeschlossen sind, die mit quartären Verwerfungen assoziiert sind, stellen aufgrund ihrer ursprünglichen Horizontalität der feinkörnigen Schichten ausgezeichnete Deformationsmarkerhorizonte dar, die sich zur Beurteilung der neotektonischen Aktivität ausgezeichnet eignen. In dieser Studie analysiere ich lakustrine Ablagerungen, die im zentralen Bereich des Calchaquí-Tals in der Nähe der Stadt Cafayate aufgeschlossen sind, um zu verstehen, wie die tektonische Einengung in einem der größten intermontanen Becken des tektonisch aktiven Orogens aufgenommen wird. Das Streichen der quartären Strukturen im Arbeitsgebiet ist parallel bis subparallel zu den Randstörungen des Tals. Durch stratigrafische, morphotektonische und strukturelle Erforschung mit Hilfe der lakustrinen Ablagerungen konnte ich mindestens fünf Deformationsepisoden identifizieren, die die quartärea Ablagerungen beeinflussen. Hier stelle ich spätpleistozäne minimale und maximale Einengungssraten mit Werten zwischen 0,19-2,8 und 0,21-4,47 mm/Jahr vor. Die Einengungssraten wurden anhand bilanzierter geologischer Profile und geochronologischer Datierungen bestimmt und beruhen auf eigenen sowie aus der Literatur zusammgestellten Geochronologiedaten. Um lokale Einengungsraten im regionalen Maßstab auf unterschiedlichen Zeitskalen vergleichen zu können, habe ich auch Daten des Global Positioning System aus Nordwestargentinien zusammengestellt, die ein Profil der gemessenen Oberflächengeschwindigkeit darstellen. Die Ergebnisse zeigen eine graduelle Abnahme horizontaler Oberflächengeschwindigkeiten von der Cordillera Oriental in Richtung des Vorlandes und deuten auf tektonische Aktivität im inneren des Orogens – eine Beobachtung, die mit registrierte registrierter seismischer Aktivität und der Verteilung quartärer Deformationsstrukturen einhergeht. Zusätzlich zu den neotektonischen Untersuchungen im Studiengebiet haben die stratigrafischen Studien der lakustrinen Ablagerungen zu einem besseren Verständnis der quartären Beckenevolution der Zentralregion des Calchaquí Tales beigetragen. Dadurch wurden mindestens sieben voneinander unterschiedliche lakustrine Ablagerungsereignisse mit einhergehenden Abdämmungen und Änderungen des Vorfluterniveaus identifiziert, was sowohl sukzessive Aggradation als auch subsequente Erosion zur Folge hatte. Der maximale Wasserstand, den die Paläoseen erreichten, wurde im Kontext eines veröffentlichten hydrologischen Modells sowie mit paläoklimatischen regionalen Proxies verglichen, um Schlussfolgerungen zur Entwicklung des lokalen Klimas machen zu können. Die Ergebnisse der vorgelegten Arbeit leisten einen erheblichen Beitrag zur tektonischen und sedimentologischen Evolution der Zentralregion der Valles Calchaquiés. Des Weiteren hilft die Integrierung lokaler in regionaler Daten die Deformationsdynamiken des orogonen Keils in den Sockelgesteinen von Nordwestargentinien zu verstehen. N2 - El flanco oriental de los Andes Centrales en el noroeste argentino es una zona caracterizada por serranías limitadas por fallas inversas que conforman un orógeno de piel gruesa activo con un patrón espacio-temporal no sistemático de deformación contraccional. Este patrón queda representado tanto por la dispersión de la actividad sísmica cortical como de la localización de las estructuras cuaternarias a través de la Cordillera Oriental y el Sistema de Santa Bárbara, configurando un frente orogénico difuso de más de 200 km de extensión. El estudio de la actividad neotectónica en esta región ha tomado más relevancia en los últimos años, mediante la aplicación de herramientas variadas, incluyendo técnicas de geomorfología tectónica, herramientas de teledetección, geodesia y estudios de campo convencionales. Los depósitos lacustres han demostrado ser, en numerosos ejemplos, excelentes marcadores de la actividad tectónica, dadas la horizontalidad original de sus capas y la susceptibilidad a los cambios del entorno. Es por ello que en este trabajo se analizaron los depósitos lacustres que afloran en el sector central de los valles Calchaquíes (región de Cafayate), para comprender cómo se acomoda la deformación cuaternaria en una de las cuencas intermontanas de la cuña orogénica activa. El rumbo de las estructuras cuaternarias en el área de estudio es subparalelo al de las fallas que exhuman los cordones serranos circundantes. A partir del estudio estratigráfico, morfotectónico y estructural de los depósitos lacustres, se identificó un mínimo de cinco episodios de deformación afectando a la columna estratigráfica cuaternaria. Integrando perfiles estructurales balanceados con edades obtenidas en este trabajo y recopiladas de la bibliografía, se calcularon para el Pleistoceno mediotardío, tasas mínimas y máximas de acortamiento que varían entre 0,19-2,80 y 0,21-4,47 mm/a, respectivamente. Para comparar estos resultados con mediciones de la tectónica activa a escala regional se recopilaron datos de estaciones geodésicas del noroeste argentino, con los cuales se elaboró un perfil de velocidades horizontales. El perfil obtenido muestra un decrecimiento gradual de los vectores hacia el este, indicando actividad interna del orógeno en congruencia con los registros de actividad sísmica y compilación regional de las estructuras cuaternarias. Además de la caracterización neotectónica de este sector de la Cordillera Oriental, el análisis estratigráfico de los depósitos lacustres ha permitido refinar la evolución geológica del sector central de los valles Calchaquíes durante el Cuaternario. De esta manera se han identificado al menos siete episodios de inundación lacustre relacionados con la desconexión del sistema fluvial con su nivel de base, dando lugar a sucesivos eventos de agradación y erosión. Las cotas máximas alcanzadas por los paleolagos, en conjunto con un modelo hidrológico previamente publicado para esta región, permitieron asimismo efectuar una comparación con el registro paleoclimático regional. Los resultados de esta tesis representan un aporte significativo al conocimiento de la evolución tectónica y estratigráfica del sector central de los valles Calchaquíes durante el Cuaternario. Por otra parte, su integración a escala regional contribuye a comprender mejor la dinámica de la deformación en la cuña orogénica de piel gruesa del noroeste argentino. KW - Quaternary deformation KW - Shortening rates KW - Intramontane basin KW - Deformación cuaternaria KW - Tasas de acortamiento KW - Cuenca intramontana KW - Quartäre Deformation KW - Einengungsraten KW - Intramontanes Becken Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-531742 ER - TY - GEN A1 - Fischer, Melanie A1 - Korup, Oliver A1 - Veh, Georg A1 - Walz, Ariane T1 - Controls of outbursts of moraine-dammed lakes in the greater Himalayan region T2 - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Glacial lakes in the Hindu Kush–Karakoram–Himalayas–Nyainqentanglha (HKKHN) region have grown rapidly in number and area in past decades, and some dozens have drained in catastrophic glacial lake outburst floods (GLOFs). Estimating regional susceptibility of glacial lakes has largely relied on qualitative assessments by experts, thus motivating a more systematic and quantitative appraisal. Before the backdrop of current climate-change projections and the potential of elevation-dependent warming, an objective and regionally consistent assessment is urgently needed. We use an inventory of 3390 moraine-dammed lakes and their documented outburst history in the past four decades to test whether elevation, lake area and its rate of change, glacier-mass balance, and monsoonality are useful inputs to a probabilistic classification model. We implement these candidate predictors in four Bayesian multi-level logistic regression models to estimate the posterior susceptibility to GLOFs. We find that mostly larger lakes have been more prone to GLOFs in the past four decades regardless of the elevation band in which they occurred. We also find that including the regional average glacier-mass balance improves the model classification. In contrast, changes in lake area and monsoonality play ambiguous roles. Our study provides first quantitative evidence that GLOF susceptibility in the HKKHN scales with lake area, though less so with its dynamics. Our probabilistic prognoses offer improvement compared to a random classification based on average GLOF frequency. Yet they also reveal some major uncertainties that have remained largely unquantified previously and that challenge the applicability of single models. Ensembles of multiple models could be a viable alternative for more accurately classifying the susceptibility of moraine-dammed lakes to GLOFs. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1160 Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-522050 SN - 1866-8372 ER - TY - THES A1 - Forster, Florian T1 - Continuous microgravity monitoring of the Þeistareykir geothermal field (North Iceland) N2 - In my doctoral thesis, I examine continuous gravity measurements for monitoring of the geothermal site at Þeistareykir in North Iceland. With the help of high-precision superconducting gravity meters (iGravs), I investigate underground mass changes that are caused by operation of the geothermal power plant (i.e. by extraction of hot water and reinjection of cold water). The overall goal of this research project is to make a statement about the sustainable use of the geothermal reservoir, from which also the Icelandic energy supplier and power plant operator Landsvirkjun should benefit. As a first step, for investigating the performance and measurement stability of the gravity meters, in summer 2017, I performed comparative measurements at the gravimetric observatory J9 in Strasbourg. From the three-month gravity time series, I examined calibration, noise and drift behaviour of the iGravs in comparison to stable long-term time series of the observatory superconducting gravity meters. After preparatory work in Iceland (setup of gravity stations, additional measuring equipment and infrastructure, discussions with Landsvirkjun and meetings with the Icelandic partner institute ISOR), gravity monitoring at Þeistareykir was started in December 2017. With the help of the iGrav records of the initial 18 months after start of measurements, I carried out the same investigations (on calibration, noise and drift behaviour) as in J9 to understand how the transport of the superconducting gravity meters to Iceland may influence instrumental parameters. In the further course of this work, I focus on modelling and reduction of local gravity contributions at Þeistareykir. These comprise additional mass changes due to rain, snowfall and vertical surface displacements that superimpose onto the geothermal signal of the gravity measurements. For this purpose, I used data sets from additional monitoring sensors that are installed at each gravity station and adapted scripts for hydro-gravitational modelling. The third part of my thesis targets geothermal signals in the gravity measurements. Together with my PhD colleague Nolwenn Portier from France, I carried out additional gravity measurements with a Scintrex CG5 gravity meter at 26 measuring points within the geothermal field in the summers of 2017, 2018 and 2019. These annual time-lapse gravity measurements are intended to increase the spatial coverage of gravity data from the three continuous monitoring stations to the entire geothermal field. The combination of CG5 and iGrav observations, as well as annual reference measurements with an FG5 absolute gravity meter represent the hybrid gravimetric monitoring method for Þeistareykir. Comparison of the gravimetric data to local borehole measurements (of groundwater levels, geothermal extraction and injection rates) is used to relate the observed gravity changes to the actually extracted (and reinjected) geothermal fluids. An approach to explain the observed gravity signals by means of forward modelling of the geothermal production rate is presented at the end of the third (hybrid gravimetric) study. Further modelling with the help of the processed gravity data is planned by Landsvirkjun. In addition, the experience from time-lapse and continuous gravity monitoring will be used for future gravity measurements at the Krafla geothermal field 22 km south-east of Þeistareykir. N2 - In meiner Doktorarbeit beschäftige ich mich mit kontinuierlichen Schweremessungen zum Monitoring des geothermisch genutzten Standorts Þeistareykir in Nordisland. Unter Verwendung von hochpräzisen Supraleitgravimetern (iGravs) untersuche ich unterirdische Massenveränderungen, die durch den Betrieb des isländischen Erdwärmekraftwerks (d.h. durch die Entnahme von Heißwasser und Rückinjektion von Kaltwasser) hervorgerufen werden. Als übergeordnetes Ziel des Forschungsprojektes soll eine Aussage zur nachhaltigen Nutzung des geothermischen Reservoirs gemacht werden, von der auch der isländische Energieversorger und Kraftwerksbetreiber Landsvirkjun profitieren soll. Als ersten Schritt, zur Untersuchung der Leistungsfähigkeit und Messstabilität der Gravimeter, begleitete ich im Sommer 2017 Vergleichsmessungen in dem gravimetrischen Observatorium J9 in Straßburg. Aus den dreimonatigen Messzeitreihen untersuchte ich Kalibration, Rausch- und Driftverhalten der iGravs im Vergleich zu den betriebssicher laufenden Observatoriums-Supraleitgravimetern. Nach vorbereitender Arbeit in Island (Aufbau der Gravimeter-Stationen und zusätzlicher Messeinrichtung, Einrichtung der Infrastruktur, Gespräche mit Landsvirkjun und Treffen mit isländischen Partnerinstitut ISOR) startete ich mit meinen Kollegen im Dezember 2017 das Gravimeter-Monitoring in Þeistareykir. Anhand der iGrav-Aufzeichnungen der ersten 18 Monaten nach Messbeginn führte ich die gleichen Untersuchungen (zu Kalibration, Rausch- und Driftverhalten) wie in J9 durch, um zu verstehen inwieweit der Transport der Supraleitgravimeter nach Island die Geräteeigenschaften beeinflusst hat. Im weiteren Verlauf der vorliegenden Arbeit beschäftige ich mich verstärkt mit der Modellierung und Korrektur von oberflächennahen Schwereeffekten in Þeistareykir. Dies umfasst zusätzliche Massenbewegungen durch Regen, Schneefall oder vulkanisch-tektonische Bodenbewegungen, die das geothermische Signal in den Gravimeter-Messungen überlagern. Als Hilfsmittel verwende ich die Datensätze der zusätzlich an jeder Gravimeter-Station eingerichteten Messsensorik und von mir angepasste Modellierungsskripte meiner Gravimetrie-Kollegen. Als dritten Punkt meiner Dissertation untersuche ich die geothermischen Signale in den Gravimeter-Messungen. Gemeinsam mit meiner PhD-Kollegin Nolwenn Portier aus Frankreich führte ich in den Sommern 2017, 2018 und 2019 zusätzliche Schweremessungen mit einem Scintrex CG5 Gravimeter an 26 im Geothermie-Feld verteilten Messpunkten durch. Diese jährlich begrenzten Schweredaten dienen der Verbesserung der räumlichen Auflösung unserer kontinuierlichen iGrav-Messungen. Die kombinierten Ergebnisse beider Messmethoden (der CG5 und iGrav Gravimeter), sowie jährlich im Messgebiet durchgeführter Referenz-Messungen mit einem FG5 Absolut-Gravimeter, komplettieren das hybridgravimetrische Monitoring am Messstandort Þeistareykir. Die abschließende Gegenüberstellung der gravimetrischen Daten mit lokalen Bohrlochmessungen (von Grundwasserpegeln, geothermischen Extraktions- und Injektions-Raten) des Kraftwerksbetreibers, ermöglicht einen direkten Vergleich der beobachteten Schwereveränderungen mit den tatsächlich geförderten geothermischen Fluiden. Ein Ansatz zur Erklärung des beobachteten Schweresignals mittels Vorwärtsmodellierung der geförderten geothermischen Förderrate wird im Abschluss der dritten (hybridgravimetrischen) Studie vorgestellt. Weitere Modellierungen unter Verwendung der aufbereiteten gravimetrischen Messdaten sind durch den Kraftwerksbetreibers von Þeistareykir geplant. Außerdem sollen die gesammelten Erfahrungen des gravimetrischen Messnetzes und Monitorings in Þeistareykir zur Durchführung weiterer gravimetrischer Messungen an dem 22 km südöstlich gelegenem Geothermiefeld Krafla genutzt werden. T2 - Kontinuierliche Schweremessungen zum Monitoring des Geothermalfeldes Þeistareykir (Nordisland) KW - Superconducting gravimetry KW - Geothermal monitoring KW - Time series analysis KW - Þeistareykir Iceland KW - Geothermisches Monitoring KW - Supraleit-Gravimetrie KW - Zeitreihenanalyse KW - Þeistareykir Island Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-548517 ER - TY - JOUR A1 - Freisleben, Roland A1 - Jara Muñoz, Julius A1 - Melnick, Daniel A1 - Miguel Martinez, Jose A1 - Strecker, Manfred T1 - Marine terraces of the last interglacial period along the Pacific coast of South America (1 degrees N-40 degrees S) JF - Earth system science data : ESSD N2 - Tectonically active coasts are dynamic environments characterized by the presence of multiple marine terraces formed by the combined effects of wave erosion, tectonic uplift, and sea-level oscillations at glacialcycle timescales. Well-preserved erosional terraces from the last interglacial sea-level highstand are ideal marker horizons for reconstructing past sea-level positions and calculating vertical displacement rates. We carried out an almost continuous mapping of the last interglacial marine terrace along similar to 5000 km of the western coast of South America between 1 degrees N and 40 degrees S. We used quantitatively replicable approaches constrained by published terrace-age estimates to ultimately compare elevations and patterns of uplifted terraces with tectonic and climatic parameters in order to evaluate the controlling mechanisms for the formation and preservation of marine terraces and crustal deformation. Uncertainties were estimated on the basis of measurement errors and the distance from referencing points. Overall, our results indicate a median elevation of 30.1 m, which would imply a median uplift rate of 0.22 m kyr(-1) averaged over the past similar to 125 kyr. The patterns of terrace elevation and uplift rate display high-amplitude (similar to 100-200 m) and long-wavelength (similar to 10(2) km) structures at the Manta Peninsula (Ecuador), the San Juan de Marcona area (central Peru), and the Arauco Peninsula (south-central Chile). Medium-wavelength structures occur at the Mejillones Peninsula and Topocalma in Chile, while short-wavelength (< 10 km) features are for instance located near Los Vilos, Valparaiso, and Carranza, Chile. We interpret the long-wavelength deformation to be controlled by deep-seated processes at the plate interface such as the subduction of major bathymetric anomalies like the Nazca and Carnegie ridges. In contrast, short-wavelength deformation may be primarily controlled by sources in the upper plate such as crustal faulting, which, however, may also be associated with the subduction of topographically less pronounced bathymetric anomalies. Latitudinal differences in climate additionally control the formation and preservation of marine terraces. Based on our synopsis we propose that increasing wave height and tidal range result in enhanced erosion and morphologically well-defined marine terraces in south-central Chile. Our study emphasizes the importance of using systematic measurements and uniform, quantitative methodologies to characterize and correctly interpret marine terraces at regional scales, especially if they are used to unravel the tectonic and climatic forcing mechanisms of their formation. This database is an integral part of the World Atlas of Last Interglacial Shorelines (WALIS), published online at https://doi.org/10.5281/zenodo.4309748 (Freisleben et al., 2020). Y1 - 2021 U6 - https://doi.org/10.5194/essd-13-2487-2021 SN - 1866-3508 SN - 1866-3516 VL - 13 IS - 6 SP - 2487 EP - 2513 PB - Copernics Publications CY - Katlenburg-Lindau ER - TY - JOUR A1 - Genderjahn, Steffi A1 - Lewin, Simon A1 - Horn, Fabian A1 - Schleicher, Anja M. A1 - Mangelsdorf, Kai A1 - Wagner, Dirk T1 - Living lithic and sublithic bacterial communities in Namibian drylands JF - Microorganisms : open access journal N2 - Dryland xeric conditions exert a deterministic effect on microbial communities, forcing life into refuge niches. Deposited rocks can form a lithic niche for microorganisms in desert regions. Mineral weathering is a key process in soil formation and the importance of microbial-driven mineral weathering for nutrient extraction is increasingly accepted. Advances in geobiology provide insight into the interactions between microorganisms and minerals that play an important role in weathering processes. In this study, we present the examination of the microbial diversity in dryland rocks from the Tsauchab River banks in Namibia. We paired culture-independent 16S rRNA gene amplicon sequencing with culture-dependent (isolation of bacteria) techniques to assess the community structure and diversity patterns. Bacteria isolated from dryland rocks are typical of xeric environments and are described as being involved in rock weathering processes. For the first time, we extracted extra- and intracellular DNA from rocks to enhance our understanding of potentially rock-weathering microorganisms. We compared the microbial community structure in different rock types (limestone, quartz-rich sandstone and quartz-rich shale) with adjacent soils below the rocks. Our results indicate differences in the living lithic and sublithic microbial communities. KW - lithobiont KW - intracellular DNA KW - extracellular DNA KW - weathering KW - dryland KW - rock Y1 - 2021 U6 - https://doi.org/10.3390/microorganisms9020235 SN - 2076-2607 VL - 9 IS - 2 PB - MDPI CY - Basel ER - TY - JOUR A1 - Ghaffar, Salman A1 - Jomaa, Seifeddine A1 - Meon, Günter A1 - Rode, Michael T1 - Spatial validation of a semi-distributed hydrological nutrient transport model JF - Journal of hydrology N2 - Semi-distributed hydrological and water quality models are increasingly used as innovative and scientific-based management tools. However, their application is usually restricted to the gauging stations where they are originally calibrated, limiting their spatial capability. In this study, the semi-distributed hydrological water quality model HYPE (HYdrological Predictions for the Environment) was tested spatially to represent nitrate-N (NO3- N) and total phosphorus (TP) concentrations and loads of the nested and heterogeneous Selke catchment (463 km(2)) in central Germany. First, an automatic calibration procedure and uncertainty analysis were conducted using the DiffeRential Evolution Adaptive Metropolis (DREAM) tool to simulate discharge, NO3--N and TP concentrations. A multi-site and multi-objective calibration approach was applied using three main gauging stations, covering the most important hydro-meteorological and physiographical characteristics of the whole catchment. Second, the model's capability was tested to represent further internal stations, which were not initially considered for calibration. Results showed that discharge was well represented by the model at all three main stations during both calibration (1994-1998) and validation (1999-2014) periods with lowest Nash-Sutcliffe Efficiency (NSE) of 0.71 and maximum Percentage BIAS (PBIAS) of 18.0%. The model was able to reproduce the seasonal dynamics of NO3--N and TP concentrations with low predictive uncertainty at the three main stations, reflected by PBIAS values in the ranges from 16.1% to 6.4% and from 20.0% to 11.5% for NO3--N and TP load simulations, respectively. At internal stations, the model could represent reasonably well the seasonal variation of nutrient concentrations with PBIAS values in the ranges from 9.0% to 14.2% for NO3--N and from 25.3% to 34.3% for TP concentration simulations. Overall, results suggested that the spatial validation of a nutrient transport model can be better ensured when a multi-site and multi-objective calibration approach using archetypical gauging stations is implemented. Further, results revealed that the delineation of sub-catchments should put more focus on hydro-meteorological conditions than on land-use features. KW - HYPE model KW - Nitrate-N KW - Phosphorus KW - internal validation KW - uncertainty KW - analysis KW - archetypical gauging station Y1 - 2021 U6 - https://doi.org/10.1016/j.jhydrol.2020.125818 SN - 0022-1694 SN - 1879-2707 VL - 593 PB - Elsevier CY - Amsterdam ER - TY - JOUR A1 - Ghani, Humaad A1 - Sobel, Edward A1 - Zeilinger, Gerold A1 - Glodny, Johannes A1 - Irum, Irum A1 - Sajid, Muhammad T1 - Spatio-temporal structural evolution of the Kohat fold and thrust belt of Pakistan JF - Journal of structural geology N2 - The Kohat fold and thrust belt in Pakistan shows a significantly different structural style due to the structural evolution on the double décollement compared to the rest of the Subhimalaya. In order to better understand the spatio-temporal structural evolution of the Kohat fold and thrust belt, we combine balanced cross sections with apatite (U?Th-Sm)/He (AHe) and apatite fission track (AFT) dating. The AHe and AFT ages appear to be totally reset, allowing us to date exhumation above structural ramps. The results suggest that deformation began on the frontal Surghar thrust at-15 Ma, predating or coeval with the development of the Main Boundary thrust at-12 Ma. Deformation propagated southward from the Main Boundary thrust on double de?collements between 10 Ma and 2 Ma, resulting in a disharmonic structural style inside the Kohat fold and thrust belt. Thermal modeling of the thermochronologic data suggest that samples inside Kohat fold and thrust belt experienced cooling due to formation of the duplexes; this deformation facilitated tectonic thickening of the wedge and erosion of the Miocene to Pliocene foreland strata. The spatial distribution of AHe and AFT ages in combination with the structural forward model suggest that, in the Kohat fold and thrust belt, the wedge deformed in-sequence as a supercritical wedge (-15-12 Ma), then readjusted by out-sequence deformation (-12-0 Ma) within the Kohat fold and thrust belt into a sub-critical wedge. KW - Balanced cross section KW - Fold and thrust belt KW - Duplex KW - Exhumation KW - Décollement Y1 - 2021 U6 - https://doi.org/10.1016/j.jsg.2021.104310 SN - 0191-8141 VL - 145 PB - Elsevier CY - Amsterdam [u.a.] ER - TY - GEN A1 - Ghani, Humaad A1 - Sobel, Edward A1 - Zeilinger, Gerold A1 - Glodny, Johannes A1 - Zapata, Sebastian A1 - Irum, Irum T1 - Palaeozoic and Pliocene tectonic evolution of the Salt Range constrained by low-temperature thermochronology T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - The Salt Range in Pakistan exposes Precambrian to Pleistocene strata outcropping along the Salt Range Thrust (SRT). To better understand the in-situ Cambrian and Pliocene tectonic evolution of the Pakistan Subhimalaya, we have conducted low-temperature thermochronological analysis using apatite (U-Th-Sm)/He and fission track dating. We combine cooling ages from different samples located along the thrust front of the SRT into a thermal model that shows two major cooling events associated with rifting and regional erosion in the Late Palaeozoic and SRT activity since the Pliocene. Our results suggest that the SRT maintained a long-term average shortening rate of similar to 5-6 mm/yr and a high exhumation rate above the SRT ramp since similar to 4 Ma. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1368 KW - exhumation KW - fault bend fold KW - ramp KW - Salt Range Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-562567 SN - 1866-8372 IS - 3 ER - TY - JOUR A1 - Ghignone, Stefano A1 - Sudo, Masafumi A1 - Balestro, Gianni A1 - Borghi, Alessandro A1 - Gattiglio, Marco A1 - Ferrero, Silvio A1 - Schijndel, Valby van T1 - Timing of exhumation of meta-ophiolite units in the Western Alps BT - New tectonic implications from Ar-40/Ar-39 white mica ages from Piedmont Zone (Susa Valley) JF - Lithos : an international journal of mineralogy, petrology, and geochemistry N2 - A multidisciplinary approach to the study of collisional orogenic belts can improve our knowledge of their geodynamic evolution and may suggest new tectonic models, especially for (U)HP rocks inside the accretionary wedge. In the Western Alps, wherein nappes of different origin are stacked, having recorded different metamorphic peaks at different stages of the orogenic evolution. This study focuses on the External (EPZ) and Internal (IPZ) ophiolitic units of the Piedmont Zone (Susa Valley, Western Alps), which were deformed throughout four tectonometamorphic phases (D1 to D4), developing different foliations and cleavages (S1 to S4) at different metamorphic conditions. The IPZ and EPZ are separated by a shear zone (i.e. the Susa Shear Zone (SSZ)) during which a related mylonitic foliation (SM) developed. S1 developed at high pressure conditions (Epidote-eclogite vs. Lawsonite-blueschist facies conditions for IPZ and EPZ, respectively), as suggested by the composition of white mica (i.e. phengite), whereas S2 developed at low pressure conditions (Epidote-greenschist facies conditions in both IPZ and EPZ) and is defined by muscovite. White mica defining the SM mylonitic foliation (T1) is mostly defined by phengite, while the T2-related disjunctive cleavage is defined by fine-grained muscovite. The relative chronology inferred from meso-and micro-structural observations suggests that T1 was near-coeval with respect to the D2, while T2 developed during D4. A new set of radiometric ages of the main metamorphic foliations were obtained by in situ Ar/Ar dating on white mica. Different generations of white mica defining S1 and S2 foliations in both the IPZ and EPZ and SM in the SSZ, were dated and two main groups of ages were obtained. In both IPZ and EPZ, S1 foliation developed at-46-41 Ma, while S2 foliation developed at-40-36 Ma and was nearly coeval with the SM mylonitic foliation (-39-36 Ma). Comparison between structural, petrological and geochronological data allows to define time of coupling of the different units and consequently to infer new tectonic implications for the exhumation of meta-ophiolites of the Piedmont Zone within axial sector of the Western Alps. KW - Exhumation KW - meta-ophiolites KW - Piedmont Zone KW - Western Alps KW - Ar-40 KW - Ar-39 Y1 - 2021 U6 - https://doi.org/10.1016/j.lithos.2021.106443 SN - 0024-4937 SN - 1872-6143 VL - 404-405 PB - Elsevier CY - Amsterdam ER - TY - THES A1 - Gholamrezaie, Ershad T1 - Variations of lithospheric strength in different tectonic settings T1 - Unterschiede in der Festigkeit der Lithosphäre in verschiedenen tektonischen Umgebungen N2 - Rheology describes the flow of matter under the influence of stress, and - related to solids- it investigates how solids subjected to stresses deform. As the deformation of the Earth’s outer layers, the lithosphere and the crust, is a major focus of rheological studies, rheology in the geosciences describes how strain evolves in rocks of variable composition and temperature under tectonic stresses. It is here where deformation processes shape the form of ocean basins and mountain belts that ultimately result from the complex interplay between lithospheric plate motion and the susceptibility of rocks to the influence of plate-tectonic forces. A rigorous study of the strength of the lithosphere and deformation phenomena thus requires in-depth studies of the rheological characteristics of the involved materials and the temporal framework of deformation processes. This dissertation aims at analyzing the influence of the physical configuration of the lithosphere on the present-day thermal field and the overall rheological characteristics of the lithosphere to better understand variable expressions in the formation of passive continental margins and the behavior of strike-slip fault zones. The main methodological approach chosen is to estimate the present-day thermal field and the strength of the lithosphere by 3-D numerical modeling. The distribution of rock properties is provided by 3-D structural models, which are used as the basis for the thermal and rheological modeling. The structural models are based on geophysical and geological data integration, additionally constrained by 3-D density modeling. More specifically, to decipher the thermal and rheological characteristics of the lithosphere in both oceanic and continental domains, sedimentary basins in the Sea of Marmara (continental transform setting), the SW African passive margin (old oceanic crust), and the Norwegian passive margin (young oceanic crust) were selected for this study. The Sea of Marmara, in northwestern Turkey, is located where the dextral North Anatolian Fault zone (NAFZ) accommodates the westward escape of the Anatolian Plate toward the Aegean. Geophysical observations indicate that the crust is heterogeneous beneath the Marmara basin, but a detailed characterization of the lateral crustal heterogeneities is presented for the first time in this study. Here, I use different gravity datasets and the general non-uniqueness in potential field modeling, to propose three possible end-member scenarios of crustal configuration. The models suggest that pronounced gravitational anomalies in the basin originate from significant density heterogeneities within the crust. The rheological modeling reveals that associated variations in lithospheric strength control the mechanical segmentation of the NAFZ. Importantly, a strong crust that is mechanically coupled to the upper mantle spatially correlates with aseismic patches where the fault bends and changes its strike in response to the presence of high-density lower crustal bodies. Between the bends, mechanically weaker crustal domains that are decoupled from the mantle are characterized by creep. For the passive margins of SW Africa and Norway, two previously published 3-D conductive and lithospheric-scale thermal models were analyzed. These 3-D models differentiate various sedimentary, crustal, and mantle units and integrate different geophysical data, such as seismic observations and the gravity field. Here, the rheological modeling suggests that the present-day lithospheric strength across the oceanic domain is ultimately affected by the age and past thermal and tectonic processes as well as the depth of the thermal lithosphere-asthenosphere boundary, while the configuration of the crystalline crust dominantly controls the rheological behavior of the lithosphere beneath the continental domains of both passive margins. The thermal and rheological models show that the variations of lithospheric strength are fundamentally influenced by the temperature distribution within the lithosphere. Moreover, as the composition of the lithosphere significantly influences the present-day thermal field, it therefore also affects the rheological characteristics of the lithosphere. Overall my studies add to our understanding of regional tectonic deformation processes and the long-term behavior of sedimentary basins; they confirm other analyses that have pointed out that crustal heterogeneities in the continents result in diverse lithospheric thermal characteristics, which in turn results in higher complexity and variations of rheological behavior compared to oceanic domains with a thinner, more homogeneous crust. N2 - Die Rheologie ist die Wissenschaft, die sich mit dem Fließ- und Verformungsverhalten von Materie beschäftigt. Hierzu gehören neben Gasen und Flüssigkeiten vor allem auch Feststoffe, die einer Spannung ausgesetzt sind und einem daraus resultierenden Verformungsprozess unterliegen - entweder unter bruchhaften oder plastischen Bedingungen. In den Geowissenschaften umfasst die Rheologie die kombinierte Analyse tektonischer Spannungen und resultierender Deformationsphänomene in Gesteinen unter unterschiedlichen Temperatur- und Druckbedingungen sowie im Zusammenhang mit physikalischen Eigenschaften der Krusten- und Mantelgesteine. Die Verformung des lithosphärischen Mantels und der Kruste ist ein Schwerpunkt rheologischer Untersuchungen, denn in diesem Zusammenhang bilden sich Ozeanbecken und Gebirgsgürtel, die letztendlich aus dem komplexen Zusammenspiel der Bewegungen lithosphärischer Platten und der unterschiedlichen Deformierbarkeit von Krusten- und Mantelgesteinen unter dem Einfluss plattentektonischer Kräfte resultieren. Eine genaue Untersuchung der Festigkeit der Lithosphäre und der Deformationssphänomene erfordert daher eingehende Studien der rheologischen Eigenschaften der beteiligten Materialien. Vor diesem Hintergrund ist es das Ziel dieser Dissertation, die allgemeinen rheologischen Charakteristika der Lithosphäre in drei verschiedenen geodynamischen Bereichen zu analysieren, um unterschiedlich geprägte passive Kontinentalränder sowie das Verhalten von Transformstörungen innerhalb der Kontinente besser zu verstehen. Der wichtigste methodische Ansatz, der hierfür gewählt wurde, ist die numerische 3D-Modellierung, um eine Abschätzung des gegenwärtigen thermischen Feldes und der Festigkeit der Lithosphäre zu ermöglichen. Die räumliche Verteilung der Gesteinseigenschaften in Kruste und Mantel wird dabei durch 3-D-Strukturmodelle bereitgestellt, die als Grundlage für die thermische und rheologische Modellierung verwendet werden. Die Strukturmodelle basieren auf der Integration geophysikalischer und geologischer Daten, die zusätzlich durch eine 3D-Dichtemodellierung validiert werden. Um die thermischen und rheologischen Eigenschaften der Lithosphäre sowohl im ozeanischen als auch im kontinentalen Bereich zu entschlüsseln, wurden für diese Studie Sedimentbecken im Marmarameer im Bereich der kontinentalen Nordanatolischen Transformstörung sowie im Bereich der passiven Plattenränder von SW-Afrika (alte ozeanische Kruste) und vor Norwegen (junge ozeanische Kruste) ausgewählt. Das Marmarameer im Nordwesten der Türkei befindet sich in einer Region, wo die dextrale Nordanatolische Störung (NAFZ) die westwärts gerichtete Ausweichbewegung der Anatolischen Platte in Richtung Ägäis ermöglicht. Geophysikalische Beobachtungen deuten darauf hin, dass die kontinentale Kruste unter dem Marmara-Becken heterogen ist, allerdings stellt diese Arbeit zum ersten Mal eine detaillierte Charakterisierung dieser lateralen Krustenheterogenitäten vor. Hierzu verwende ich verschiedene Schweredaten und die Potenzialfeldmodellierung, um drei mögliche Szenarien zur Erklärung der Unterschiede im Charakter der Kruste vorzuschlagen. Die Modelle legen nahe, dass ausgeprägte Schwereanomalien im Becken von signifikanten Dichte-Heterogenitäten innerhalb der Kruste hervorgerufen werden. Die rheologische Modellierung zeigt, dass damit verbundene Unterschiede in der Festigkeit der Lithosphäre die mechanische Segmentierung der NAFZ steuern und sich auf seismogene Prozesse auswirken. Demnach korrelieren Krustenbereiche hoher Festigkeit, die mechanisch an den oberen Mantel gekoppelt sind, räumlich mit aseismischen Sektoren in der Region um die Störungszone, in denen sich das Streichen der NAFZ ändert. Zwischen den Bereichen mit den veränderten Streichrichtungen der Störung existieren dagegen mechanisch schwächere Krustenbereiche, die vom Mantel entkoppelt und durch Kriechbewegungen gekennzeichnet sind. Für die passiven Kontinentalränder von SW-Afrika und Norwegen wurden zwei veröffentlichte thermische 3-D-Modelle hinsichtlich des Einflusses der Temperaturverteilung auf die Festigkeit der Lithosphäre analysiert. Diese 3-D-Modelle differenzieren verschiedene Sediment-, Krusten- und Mantelbereiche und integrieren unterschiedliche geophysikalische Daten, wie zum Beispiel seismische Beobachtungen und Schwerefeldmessungen. Hier legt die rheologische Modellierung nahe, dass die derzeitige Lithosphärenfestigkeit im ozeanischen Bereich letztlich durch das Alter und vergangene thermische und tektonische Prozesse sowie die Tiefe der thermischen Grenze zwischen Lithosphäre und Asthenosphäre beeinflusst wird, während die Konfiguration der kristallinen Kruste das rheologische Verhalten der Lithosphäre in den kontinentalen Bereichen der beiden passiven Ränder dominiert. Die thermischen und rheologischen Modelle zeigen, dass die Variationen in der Festigkeit der Lithosphäre grundlegend von der Temperaturverteilung innerhalb der Lithosphäre selbst beeinflusst werden. Dabei steuert die Zusammensetzung der Lithosphäre das heutige thermische Feld entscheidend mit und darüber auch die rheologischen Eigenschaften der Lithosphäre. Diese Ergebnisse tragen somit zu einem besseren Verständnis regionaler tektonischer Deformationsprozesse und der dynamischen Langzeitentwicklung von Sedimentbecken bei; sie bestätigen außerdem frühere Analysen, die bereits darauf hingewiesen haben, dass die Heterogenität der Kruste in den Kontinenten mit unterschiedlichen thermischen Eigenschaften der Lithosphäre einhergeht, welches wiederum zu einer höheren Komplexität und Variabilität des rheologischen Verhaltens im Vergleich zu ozeanischen Gebieten mit einer geringer mächtigen, homogeneren Kruste führt. KW - Lithospheric strength KW - Thermal modeling KW - Rheological modeling KW - North Anatolian Fault Zone KW - Sea of Marmara KW - Passive margins KW - Lithosphärenfestigkeit KW - Nordanatolische Störungszone KW - Marmarameer KW - Passive Kontinentalränder KW - Thermische Modellierung KW - Rheologische Modellierung Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-511467 ER - TY - JOUR A1 - Han, Sungju A1 - Kuhlicke, Christian T1 - Barriers and drivers for mainstreaming nature-based solutions for flood risks BT - the case of South Korea JF - International journal of disaster risk science N2 - Nature-based solutions (NBS) are seen as a promising adaptation measure that sustainably deals with diverse societal challenges, while simultaneously delivering multiple benefits. Nature-based solutions have been highlighted as a resilient and sustainable means of mitigating floods and other hazards globally. This study examined diverging conceptualizations of NBS, as well as the attitudinal (for example, emotions and beliefs) and contextual (for example, legal and political aspects) barriers and drivers of NBS for flood risks in South Korea. Semistructured interviews were conducted with 11 experts and focused on the topic of flood risk measures and NBS case studies. The analysis found 11 barriers and five drivers in the attitudinal domain, and 13 barriers and two drivers in the contextual domain. Most experts see direct monetary benefits as an important attitudinal factor for the public. Meanwhile, the cost-effectiveness of NBS and their capacity to cope with flood risks were deemed influential factors that could lead decision makers to opt for NBS. Among the contextual factors, insufficient systems to integrate NBS in practice and the ideologicalization of NBS policy were found to be peculiar barriers, which hinder consistent realization of initiatives and a long-term national plan for NBS. Understanding the barriers and drivers related to the mainstreaming of NBS is critical if we are to make the most of such solutions for society and nature. It is also essential that we have a shared definition, expectation, and vision of NBS. KW - climate change KW - flood risk management KW - nature-based solutions (NBS) KW - South Korea Y1 - 2021 U6 - https://doi.org/10.1007/s13753-021-00372-4 SN - 2095-0055 SN - 2192-6395 VL - 12 IS - 5 SP - 661 EP - 672 PB - Springer CY - New York ER - TY - JOUR A1 - Hannemann, Katrin A1 - Eulenfeld, Tom A1 - Krüger, Frank A1 - Dahm, Torsten T1 - Seismic scattering and absorption of oceanic lithospheric S waves in the Eastern North Atlantic JF - Geophysical journal international N2 - The scattering and absorption of high-frequency seismic waves in the oceanic lithosphere is to date only poorly constrained by observations. Such estimates would not only improve our understanding of the propagation of seismic waves, but also unravel the small-scale nature of the lithosphere and its variability. Our study benefits from two exceptional situations: (1) we deployed over 10 months a mid-aperture seismological array in the central part of the Eastern North Atlantic in 5 km water depth and (2) we could observe in total 340 high-frequency (up to 30 Hz) Po and So arrivals with tens to hundreds of seconds long seismic coda from local and regional earthquakes in a wide range of backazimuths and epicentral distances up to 850 km with a travel path in the oceanic lithosphere. Moreover, the array was located about 100 km north of the Gloria fault, defining the plate boundary between the Eurasian and African plates at this location which also allows an investigation of the influence of an abrupt change in lithospheric age (20 Ma in this case) on seismic waves. The waves travel with velocities indicating upper-mantle material. We use So waves and their coda of pre-selected earthquakes to estimate frequency-dependent seismic scattering and intrinsic attenuation parameters. The estimated scattering attenuation coefficients are between 10(-4) and 4 x 10(-5) m(-1) and are typical for the lithosphere or the upper mantle. Furthermore, the total quality factors for So waves below 5 Hz are between 20 and 500 and are well below estimates from previous modelling for observations in the Pacific Ocean. This implies that the Atlantic Ocean is more attenuative for So waves compared to the Pacific Ocean, which is inline with the expected behaviour for the lithospheric structures resulting from the slower spreading rates in the Atlantic Ocean. The results for the analysed events indicate that for frequencies above 3 Hz, intrinsic attenuation is equal to or slightly stronger than scattering attenuation and that the So-wave coda is weakly influenced by the oceanic crust. Both observations are in agreement with the proposed propagation mechanism of scattering in the oceanic mantle lithosphere. Furthermore, we observe an age dependence which shows that an increase in lithospheric age is associated with a decrease in attenuation. However, we also observe a trade-off of this age-dependent effect with either a change in lithospheric thickness or thermal variations, for example due to small-scale upwellings in the upper mantle in the southeast close to Madeira and the Canaries. Moreover, the influence of the nearby Gloria fault is visible in a reduction of the intrinsic attenuation below 3 Hz for estimates across the fault. This is the first study to estimate seismic scattering and absorption parameters of So waves for an area with several hundreds of kilometres radius centred in the Eastern North Atlantic and using them to characterize the nature of the oceanic lithosphere. KW - Body waves KW - Seismic attenuation KW - Wave scattering and diffraction Y1 - 2021 U6 - https://doi.org/10.1093/gji/ggab493 SN - 0956-540X SN - 1365-246X VL - 229 IS - 2 SP - 948 EP - 961 PB - Oxford Univ. Press CY - Oxford ER - TY - JOUR A1 - Heckenbach, Esther Lina A1 - Brune, Sascha A1 - Glerum, Anne C. A1 - Bott, Judith T1 - Is there a speed limit for the thermal steady-state assumption in continental rifts? JF - Geochemistry, geophysics, geosystems : G 3 ; an electronic journal of the earth sciences N2 - The lithosphere is often assumed to reside in a thermal steady-state when quantitatively describing the temperature distribution in continental interiors and sedimentary basins, but also at active plate boundaries. Here, we investigate the applicability limit of this assumption at slowly deforming continental rifts. To this aim, we assess the tectonic thermal imprint in numerical experiments that cover a range of realistic rift configurations. For each model scenario, the deviation from thermal equilibrium is evaluated. This is done by comparing the transient temperature field of every model to a corresponding steady-state model with an identical structural configuration. We find that the validity of the thermal steady-state assumption strongly depends on rift type, divergence velocity, sampling location, and depth within the rift. Maximum differences between transient and steady-state models occur in narrow rifts, at the rift sides, and if the extension rate exceeds 0.5-2 mm/a. Wide rifts, however, reside close to thermal steady-state even for high extension velocities. The transient imprint of rifting appears to be overall negligible for shallow isotherms with a temperature less than 100 degrees C. Contrarily, a steady-state treatment of deep crustal isotherms leads to an underestimation of crustal temperatures, especially for narrow rift settings. Thus, not only relatively fast rifts like the Gulf of Corinth, Red Sea, and Main Ethiopian Rift, but even slow rifts like the Kenya Rift, Rhine Graben, and Rio Grande Rift must be expected to feature a pronounced transient component in the temperature field and to therefore violate the thermal steady-state assumption for deeper crustal isotherms. KW - basin analysis KW - geodynamics KW - numerical modeling KW - rifting KW - thermal KW - modeling Y1 - 2021 U6 - https://doi.org/10.1029/2020GC009577 SN - 1525-2027 VL - 22 IS - 3 PB - Wiley CY - Hoboken, NJ ER - TY - JOUR A1 - Hennig, Theresa A1 - Kühn, Michael T1 - Surrogate model for multi-component diffusion of Uranium through Opalinus Clay on the host rock scale JF - Applied Sciences : open access journal N2 - Multi-component (MC) diffusion simulations enable a process based and more precise approach to calculate transport and sorption compared to the commonly used single-component (SC) models following Fick's law. The MC approach takes into account the interaction of chemical species in the porewater with the diffuse double layer (DDL) adhering clay mineral surfaces. We studied the shaly, sandy and carbonate-rich facies of the Opalinus Clay. High clay contents dominate diffusion and sorption of uranium. The MC simulations show shorter diffusion lengths than the SC models due to anion exclusion from the DDL. This hampers diffusion of the predominant species CaUO2(CO3)32-. On the one side, species concentrations and ionic strengths of the porewater and on the other side surface charge of the clay minerals control the composition and behaviour of the DDL. For some instances, it amplifies the diffusion of uranium. We developed a workflow to transfer computationally intensive MC simulations to SC models via calibrated effective diffusion and distribution coefficients. Simulations for one million years depict maximum uranium diffusion lengths between 10 m and 35 m. With respect to the minimum requirement of a thickness of 100 m, the Opalinus Clay seems to be a suitable host rock for nuclear waste repositories. KW - facies KW - uranium speciation KW - sorption KW - reactive transport KW - heterogeneity KW - PHREEQC KW - Mont Terri KW - repository far-field Y1 - 2021 U6 - https://doi.org/10.3390/app11020786 SN - 2076-3417 VL - 11 IS - 2 PB - MDPI CY - Basel ER - TY - JOUR A1 - Hennig, Theresa A1 - Kühn, Michael T1 - Potential uranium migration within the geochemical gradient of the opalinus clay system at the Mont Terri JF - Minerals N2 - Transport properties of potential host rocks for nuclear waste disposal are typically determined in laboratory or in-situ experiments under geochemically controlled and constant conditions. Such a homogeneous assumption is no longer applicable on the host rock scale as can be seen from the pore water profiles of the potential host rock Opalinus Clay at Mont Terri (Switzerland). The embedding aquifers are the hydro-geological boundaries, that established gradients in the 210 m thick low permeable section through diffusive exchange over millions of years. Present-day pore water profiles were confirmed by a data-driven as well as by a conceptual scenario. Based on the modelled profiles, the influence of the geochemical gradient on uranium migration was quantified by comparing the distances after one million years with results of common homogeneous models. Considering the heterogeneous system, uranium migrated up to 24 m farther through the formation depending on the source term position within the gradient and on the partial pressure of carbon dioxide pCO2 of the system. Migration lengths were almost equal for single- and multicomponent diffusion. Differences can predominantly be attributed to changes in the sorption capacity, whereby pCO2 governs how strong uranium migration is affected by the geochemical gradient. Thus, the governing parameters for uranium migration in the Opalinus Clay can be ordered in descending priority: pCO2, geochemical gradients, mineralogical heterogeneity.

KW - PHREEQC KW - reactive transport KW - sorption KW - diffusion KW - repository far-field KW - hydro-geological system Y1 - 2021 U6 - https://doi.org/10.3390/min11101087 SN - 2075-163X VL - 11 IS - 10 PB - MDPI CY - Basel ER - TY - JOUR A1 - Hofmann, Hannes A1 - Blöcher, Guido A1 - Zang, Arno T1 - Special issue on rock fracturing and fault activation BT - experiments and models selected papers presented at the 13th EURO-Conference on rock physics and geomechanics - the Gueguen Conference Held on 2-6 September 2019 in Potsdam, Germany JF - Rock mechanics and rock engineering Y1 - 2021 U6 - https://doi.org/10.1007/s00603-021-02635-4 SN - 0723-2632 SN - 1434-453X VL - 54 IS - 10 SP - 5149 EP - 5153 PB - Springer CY - Wien ER - TY - JOUR A1 - Huang, Sichao A1 - Stoof-Leichsenring, Kathleen R. A1 - Liu, Sisi A1 - Courtin, Jeremy A1 - Andreev, Andrej A. A1 - Pestryakova, Luidmila. A. A1 - Herzschuh, Ulrike T1 - Plant sedimentary ancient DNA from Far East Russia covering the last 28,000 years reveals different assembly rules in cold and warm climates JF - Frontiers in Ecology and Evolution N2 - Woody plants are expanding into the Arctic in response to the warming climate. The impact on arctic plant communities is not well understood due to the limited knowledge about plant assembly rules. Records of past plant diversity over long time series are rare. Here, we applied sedimentary ancient DNA metabarcoding targeting the P6 loop of the chloroplast trnL gene to a sediment record from Lake Ilirney (central Chukotka, Far Eastern Russia) covering the last 28 thousand years. Our results show that forb-rich steppe-tundra and dwarf-shrub tundra dominated during the cold climate before 14 ka, while deciduous erect-shrub tundra was abundant during the warm period since 14 ka. Larix invasion during the late Holocene substantially lagged behind the likely warmest period between 10 and 6 ka, where the vegetation biomass could be highest. We reveal highest richness during 28-23 ka and a second richness peak during 13-9 ka, with both periods being accompanied by low relative abundance of shrubs. During the cold period before 14 ka, rich plant assemblages were phylogenetically clustered, suggesting low genetic divergence in the assemblages despite the great number of species. This probably originates from environmental filtering along with niche differentiation due to limited resources under harsh environmental conditions. In contrast, during the warmer period after 14 ka, rich plant assemblages were phylogenetically overdispersed. This results from a high number of species which were found to harbor high genetic divergence, likely originating from an erratic recruitment process in the course of warming. Some of our evidence may be of relevance for inferring future arctic plant assembly rules and diversity changes. By analogy to the past, we expect a lagged response of tree invasion. Plant richness might overshoot in the short term; in the long-term, however, the ongoing expansion of deciduous shrubs will eventually result in a phylogenetically more diverse community. KW - sedimentary ancient DNA (sedaDNA) KW - metabarcoding KW - phylogenetic and taxonomic plant diversity KW - Arctic Russia KW - Siberia KW - holocene KW - glacial KW - treeline Y1 - 2021 U6 - https://doi.org/10.3389/fevo.2021.763747 SN - 2296-701X VL - 9 PB - Frontiers Media CY - Lausanne ER - TY - THES A1 - Hébert, Raphaёl T1 - Investigation of vegetation and terrestrial climate variablity during the holocene BT - bridging the gap from annual to millennial timescales Y1 - 2021 ER - TY - THES A1 - Ibarra, Federico T1 - The thermal and rheological state of the Central Andes and its relationship to active deformation processes T1 - Der thermische und rheologische Zustand der Zentralanden und seine Beziehung zu aktiven Deformationsprozessen N2 - The Central Andes region in South America is characterized by a complex and heterogeneous deformation system. Recorded seismic activity and mapped neotectonic structures indicate that most of the intraplate deformation is located along the margins of the orogen, in the transitions to the foreland and the forearc. Furthermore, the actively deforming provinces of the foreland exhibit distinct deformation styles that vary along strike, as well as characteristic distributions of seismicity with depth. The style of deformation transitions from thin-skinned in the north to thick-skinned in the south, and the thickness of the seismogenic layer increases to the south. Based on geological/geophysical observations and numerical modelling, the most commonly invoked causes for the observed heterogeneity are the variations in sediment thickness and composition, the presence of inherited structures, and changes in the dip of the subducting Nazca plate. However, there are still no comprehensive investigations on the relationship between the lithospheric composition of the Central Andes, its rheological state and the observed deformation processes. The central aim of this dissertation is therefore to explore the link between the nature of the lithosphere in the region and the location of active deformation. The study of the lithospheric composition by means of independent-data integration establishes a strong base to assess the thermal and rheological state of the Central Andes and its adjacent lowlands, which alternatively provide new foundations to understand the complex deformation of the region. In this line, the general workflow of the dissertation consists in the construction of a 3D data-derived and gravity-constrained density model of the Central Andean lithosphere, followed by the simulation of the steady-state conductive thermal field and the calculation of strength distribution. Additionally, the dynamic response of the orogen-foreland system to intraplate compression is evaluated by means of 3D geodynamic modelling. The results of the modelling approach suggest that the inherited heterogeneous composition of the lithosphere controls the present-day thermal and rheological state of the Central Andes, which in turn influence the location and depth of active deformation processes. Most of the seismic activity and neo--tectonic structures are spatially correlated to regions of modelled high strength gradients, in the transition from the felsic, hot and weak orogenic lithosphere to the more mafic, cooler and stronger lithosphere beneath the forearc and the foreland. Moreover, the results of the dynamic simulation show a strong localization of deviatoric strain rate second invariants in the same region suggesting that shortening is accommodated at the transition zones between weak and strong domains. The vertical distribution of seismic activity appears to be influenced by the rheological state of the lithosphere as well. The depth at which the frequency distribution of hypocenters starts to decrease in the different morphotectonic units correlates with the position of the modelled brittle-ductile transitions; accordingly, a fraction of the seismic activity is located within the ductile part of the crust. An exhaustive analysis shows that practically all the seismicity in the region is restricted above the 600°C isotherm, in coincidence with the upper temperature limit for brittle behavior of olivine. Therefore, the occurrence of earthquakes below the modelled brittle-ductile could be explained by the presence of strong residual mafic rocks from past tectonic events. Another potential cause of deep earthquakes is the existence of inherited shear zones in which brittle behavior is favored through a decrease in the friction coefficient. This hypothesis is particularly suitable for the broken foreland provinces of the Santa Barbara System and the Pampean Ranges, where geological studies indicate successive reactivation of structures through time. Particularly in the Santa Barbara System, the results indicate that both mafic rocks and a reduction in friction are required to account for the observed deep seismic events. N2 - Die südamerikanischen Zentralanden zeichnen sich durch eine komplexe und heterogene Deformationsstruktur aus. Erdbebenaufzeichnungen und geologisch-tektonische Kartierungen zeigen, dass innerhalb der Südamerikanischen Platte die Hauptdeformation entlang beider Gebirgsränder stattfindet. Zusätzlich variiert die Art der aktiven Deformation und die Tiefenverteilung von Erdbeben im östlichen Vorland von Nord nach Süd. Dabei erstreckt sich das Auftreten von Erdbeben, auch seismogene Zone genannt, über einen zunehmend größeren Tiefenbereich. Die tektonische Deformation schließt ebenso, nach Süden hin zunehmend, größere Tiefenbereiche der Erdkruste mit ein. Erklärungen dieses Verhaltens auf der Grundlage von geologisch-geophysikalischen Untersuchungen sowie von numerischen Modellen legten bisher nahe, dass die Unterschiede der Sedimentmächtigkeiten, das Vorhandensein ererbter tektonischer Strukturen und die Variation des Eintauchwinkels der unter Südamerika abtauschenden Nazca-platte als Gründe dafür in Frage kommen. Allerdings gab es bislang keine Untersuchungen dazu, welche Rolle die lokale Zusammensetzung der Lithosphäre sowie ihr Fließverhalten dabei spielen. Das Hauptziel dieser Dissertation ist daher, den Zusammenhang zwischen Lithosphäreneigenschaften in der Region und dem Auftreten gewisser Deformationstypen an der Erdoberfläche zu untersuchen. Die Zuhilfenahme voneinander unabhängiger, geophysikalischer Beobachtungsparameter ermöglicht eine Beurteilung des thermischen und rheologischen Zustands der Zentralanden und angrenzender Vorlandgebiete, und damit eine bessere Einschätzung der komplexen Deformation. Der Workflow dieser Dissertation startet zunächst mit der Erstellung eines 3D-Dichtemodells auf der Grundlage von geologischen und seismologischen Beobachtungen, das zusätzlich mit Schweredaten untermauert wird. Dies ermöglicht die Simulation der räumlichen variierenden, stationären Wärmeleitung in der Lithosphäre und die Berechnung der mechanischen Stabilität. Schlussendlich werden diese Erkenntnisse in ein dreidimensionales geodynamisches Modell übertragen, welches Aufschluss über die Kompressionsdeformation zwischen dem Gebirge und dessen Vorland Auskunft gibt. Die Modellergebnisse zeigen, dass die ungleichmäßige Zusammensetzung der Lithosphäre der Schlüssel für den heute beobachtbaren thermischen und rheologischen Zustand der Zentralanden ist und damit auch der wichtigste Faktor zur Erklärung der räumlichen Variation und Tiefenverteilung aktiver Deformationsprozesse. Die meisten Erdbeben und neotektonischen Strukturen sind in Bereichen zu finden, für die der stärkste Festigkeitskontrast modelliert wurde. Dies betrifft den Übergang von felsischer, heißer und daher weicher Gebirgslithosphäre des Hauptkamms zu der eher mafischen, kalten und festeren Lithosphäre des Vorlands. Außerdem ergab die dynamische Simulation eine räumliche Zentrierung der zweiten Invariante der Rate des deviatorischen Spannungstensors in der gleichen Region. Damit kann davon ausgegangen werden, dass die stärkste Stauchung genau in diesem Übergang zwischen weichem und festen Material abläuft. Die Erdbebenverteilung in der Vertikalen scheint ebenso vom rheologischen Zustand der Lithosphäre abzuhängen. Für die verschiedenen morphotektonischen Provinzen korreliert die Tiefe, ab der die Erdbebenhäufigkeit abnimmt, jeweils mit der Lage der Übergangszone zwischen Sprödbruchdeformation und duktiler Verformung. Dadurch tritt ein Teil der Erdbeben im duktil verformten Bereich der Erdkruste auf. Weitere Untersuchungen zeigen, dass praktisch die gesamte Seismizität oberhalb der 600°C Isotherme abläuft, welche das obere Temperaturlimit für das Sprödbruchverhalten von Olivin darstellt. Daher kann das Auftreten von Erdbeben unterhalb der modellierten Übergangszone von Sprödbruch zu duktiler Deformation mit dem Vorhandensein von mafischen Gesteinsanteilen erklärt werden, welche als Überbleibsel aus vorangegangenen tektonischen Ereignissen installiert wurden. Eine weitere mögliche Erklärung für solche tiefen Erdbeben ist die Existenz von internen Scherzonen, entlang welcher Sprödbruchdeformation durch herabsetzen des Reibungswiderstandes erleichtert wird. Diese Hypothese lässt sich insbesondere im Santa Barbara System und den Sierras Pampeanas anwenden, da geologische Studien bereits die sukzessive Reaktivierung von Strukturen über einen längeren Zeitraum identifizierten. Insbesondere für das Santa Barbara System zeigen die hier vorgestellten Ergebnisse, dass beide Faktoren, mafische Gesteinsanteile und die Reduzierung des Reibungswiderstandes, nötig sind, um das Auftreten der zu beobachtenden größeren Erdbebentiefe zu erklären. KW - Andes KW - Argentina KW - density modeling KW - thermal field KW - rheology KW - deformation KW - Anden KW - Argentinien KW - Dichtemodellierung KW - thermisches Feld KW - Rheologie KW - Deformation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-506226 ER - TY - GEN A1 - Izgi, Gizem A1 - Eibl, Eva P. S. A1 - Donner, Stefanie A1 - Bernauer, Felix T1 - Performance Test of the Rotational Sensor blueSeis-3A in a Huddle Test in Fürstenfeldbruck T2 - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Rotational motions play a key role in measuring seismic wavefield properties. Using newly developed portable rotational instruments, it is now possible to directly measure rotational motions in a broad frequency range. Here, we investigated the instrumental self-noise and data quality in a huddle test in Fürstenfeldbruck, Germany, in August 2019. We compare the data from six rotational and three translational sensors. We studied the recorded signals using correlation, coherence analysis, and probabilistic power spectral densities. We sorted the coherent noise into five groups with respect to the similarities in frequency content and shape of the signals. These coherent noises were most likely caused by electrical devices, the dehumidifier system in the building, humans, and natural sources such as wind. We calculated self-noise levels through probabilistic power spectral densities and by applying the Sleeman method, a three-sensor method. Our results from both methods indicate that self-noise levels are stable between 0.5 and 40 Hz. Furthermore, we recorded the 29 August 2019 ML 3.4 Dettingen earthquake. The calculated source directions are found to be realistic for all sensors in comparison to the real back azimuth. We conclude that the five tested blueSeis-3A rotational sensors, when compared with respect to coherent noise, self-noise, and source direction, provide reliable and consistent results. Hence, field experiments with single rotational sensors can be undertaken. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1150 KW - rotational seismology KW - huddle test KW - coherency KW - source direction KW - coherent noise KW - blueSeis-3A sensors Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-518556 SN - 1866-8372 IS - 1150 ER -