TY - JOUR A1 - Treat, Claire C. A1 - Kleinen, Thomas A1 - Broothaerts, Nils A1 - Dalton, April S. A1 - Dommain, Rene A1 - Douglas, Thomas A. A1 - Drexler, Judith Z. A1 - Finkelstein, Sarah A. A1 - Grosse, Guido A1 - Hope, Geoffrey A1 - Hutchings, Jack A1 - Jones, Miriam C. A1 - Kuhry, Peter A1 - Lacourse, Terri A1 - Lahteenoja, Outi A1 - Loisel, Julie A1 - Notebaert, Bastiaan A1 - Payne, Richard J. A1 - Peteet, Dorothy M. A1 - Sannel, A. Britta K. A1 - Stelling, Jonathan M. A1 - Strauss, Jens A1 - Swindles, Graeme T. A1 - Talbot, Julie A1 - Tarnocai, Charles A1 - Verstraeten, Gert A1 - Williams, Christopher J. A1 - Xia, Zhengyu A1 - Yu, Zicheng A1 - Valiranta, Minna A1 - Hattestrand, Martina A1 - Alexanderson, Helena A1 - Brovkin, Victor T1 - Widespread global peatland establishment and persistence over the last 130,000 y JF - Proceedings of the National Academy of Sciences of the United States of America N2 - Glacial-interglacial variations in CO2 and methane in polar ice cores have been attributed, in part, to changes in global wetland extent, but the wetland distribution before the Last Glacial Maximum (LGM, 21 ka to 18 ka) remains virtually unknown. We present a study of global peatland extent and carbon (C) stocks through the last glacial cycle (130 ka to present) using a newly compiled database of 1,063 detailed stratigraphic records of peat deposits buried by mineral sediments, as well as a global peatland model. Quantitative agreement between modeling and observations shows extensive peat accumulation before the LGM in northern latitudes (> 40 degrees N), particularly during warmer periods including the last interglacial (130 ka to 116 ka, MIS 5e) and the interstadial (57 ka to 29 ka, MIS 3). During cooling periods of glacial advance and permafrost formation, the burial of northern peatlands by glaciers and mineral sediments decreased active peatland extent, thickness, and modeled C stocks by 70 to 90% from warmer times. Tropical peatland extent and C stocks show little temporal variation throughout the study period. While the increased burial of northern peats was correlated with cooling periods, the burial of tropical peat was predominately driven by changes in sea level and regional hydrology. Peat burial by mineral sediments represents a mechanism for long-term terrestrial C storage in the Earth system. These results show that northern peatlands accumulate significant C stocks during warmer times, indicating their potential for C sequestration during the warming Anthropocene. KW - peatlands KW - carbon KW - methane KW - carbon burial KW - Quaternary Y1 - 2019 U6 - https://doi.org/10.1073/pnas.1813305116 SN - 0027-8424 VL - 116 IS - 11 SP - 4822 EP - 4827 PB - National Acad. of Sciences CY - Washington ER - TY - JOUR A1 - Zhu, Chuanbin A1 - Pilz, Marco A1 - Cotton, Fabrice T1 - Which is a better proxy, site period or depth to bedrock, in modelling linear site response in addition to the average shear-wave velocity? JF - Bulletin of earthquake engineering : official publication of the European Association for Earthquake Engineering N2 - This study aims to identify the best-performing site characterization proxy alternative and complementary to the conventional 30 m average shear-wave velocity V-S30, as well as the optimal combination of proxies in characterizing linear site response. Investigated proxies include T-0 (site fundamental period obtained from earthquake horizontal-to-vertical spectral ratios), V-Sz (measured average shear-wave velocities to depth z, z = 5, 10, 20 and 30 m), Z(0.8) and Z(1.0) (measured site depths to layers having shear-wave velocity 0.8 and 1.0 km/s, respectively), as well as Z(x-infer) (inferred site depths from a regional velocity model, x = 0.8 and 1.0, 1.5 and 2.5 km/s). To evaluate the performance of a site proxy or a combination, a total of 1840 surface-borehole recordings is selected from KiK-net database. Site amplifications are derived using surface-to-borehole response-, Fourier- and cross-spectral ratio techniques and then are compared across approaches. Next, the efficacies of 7 single-proxies and 11 proxy-pairs are quantified based on the site-to-site standard deviation of amplification residuals of observation about prediction using the proxy or the pair. Our results show that T-0 is the best-performing single-proxy among T-0, Z(0.8), Z(1.0) and V-Sz. Meanwhile, T-0 is also the best-performing proxy among T-0, Z(0.8), Z(1.0) and Z(x-infer) complementary to V-S30 in accounting for the residual amplification after V-S30-correction. Besides, T-0 alone can capture most of the site effects and should be utilized as the primary site indicator. Though (T-0, V-S30) is the best-performing proxy pair among (V-S30, T-0), (V-S30, Z(0.8)), (V-S30, Z(1.0)), (V-S30, Z(x-infer)) and (T-0, V-Sz), it is only slightly better than (T-0, V-S20). Considering both efficacy and engineering utility, the combination of T-0 (primary) and V-S20 (secondary) is recommended. Further study is needed to test the performances of various proxies on sites in deep sedimentary basins. KW - Site effects KW - Amplification KW - Site proxy KW - Surface-to-borehole spectral ratios KW - KiK-net KW - Earthquake Y1 - 2019 U6 - https://doi.org/10.1007/s10518-019-00738-6 SN - 1570-761X SN - 1573-1456 VL - 18 IS - 3 SP - 797 EP - 820 PB - Springer CY - Dordrecht ER - TY - GEN A1 - Heße, Falk A1 - Comunian, Alessandro A1 - Attinger, Sabine T1 - What We Talk About When We Talk About Uncertainty BT - Toward a Unified, Data-Driven Framework for Uncertainty Characterization in Hydrogeology T2 - Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 754 KW - Bayesianism KW - uncertainty analysis KW - hydrogeology KW - data science KW - opinion KW - prior derivation Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-436582 SN - 1866-8372 IS - 754 ER - TY - JOUR A1 - Heße, Falk A1 - Comunian, Alessandro A1 - Attinger, Sabine T1 - What We Talk About When We Talk About Uncertainty BT - Toward a Unified, Data-Driven Framework for Uncertainty Characterization in Hydrogeology JF - Frontiers in Earth Science KW - Bayesianism KW - uncertainty analysis KW - hydrogeology KW - data science KW - opinion KW - prior derivation Y1 - 2019 U6 - https://doi.org/10.3389/feart.2019.00118 SN - 2296-6463 VL - 7 PB - Frontiers Media CY - Lausanne ER - TY - THES A1 - Stroncik, Nicole A. T1 - Volatiles as tracers for mantle processes and magma formation and evolution N2 - The geochemical composition of oceanic basalts provides us with a window into the distribution of geochemical elements within the Earth’s mantle in space and time. In conjunction with a throughout knowledge on how the different elements behave e.g. during melt formation and evolution or on their partition behaviour between e.g. minerals and melts this information has been transformed into various models on how oceanic crust is formed along plume influenced or normal mid-ocean ridge segments, how oceanic crust evolves in response to seawater, on subduction recycling of oceanic crust and so forth. The work presented in this habilitation was aimed at refining existing models, putting further constraints on some of the major open questions in this field of research while at the same time trying to increase our knowledge on the behaviour of noble gases as a tracer for melt formation and evolution processes. In the line of this work the author and her co-workers were able to answer one of the major questions concerning the formation of oceanic crust along plume-influenced ridges – in which physical state does the plume material enter the ridge? Based on submarine volcanic glass He, Ne and Ar data, the author and her co-workers have shown that the interaction of mantle plumes with mid-ocean ridges occurs in the physical form of melts. In addition, the author and her co-workers have also put further constraints on one of the major questions concerning the formation of oceanic crust along normal mid-ocean ridges – namely how is the mid-ocean ridge system effectively cooled to form the lower oceanic crust? Based on Ne and Ar data in combination with Cl/K ratios of basaltic glass from the Mid-Atlantic ridge and estimates of crystallisation pressures they have shown, that seawater penetration reaches lower crustal levels close to the Moho, indicating that hydrothermal circulation might be an effective cooling mechanism even for the deep parts of the oceanic crust. Considering subduction recycling, the heterogeneity of the Earth’s mantle and mantle dynamic processes the key question is on which temporal and spatial scales is the Earth’s mantle geochemically heterogeneous? In the line of this work the author along with her co-workers have shown based on Cl/K ratios in conjunction with the Sr, Nd, and Pb isotopes of the OIBs representing the type localities for the different mantle endmembers that the quantity of Cl recycled into the mantle via subduction is not uniform and that neither the HIMU nor the EM1 and EM2 mantle components can be considered as distinct mantle endmembers. In addition, we have shown, based on He, Ne and Ar isotope and trace-element data from the Foundation hotspot that the near ridge seamounts of the Foundation seamount chain formed by the Foundation hotspot erupt lavas with a trace-element signature clearly characteristic of oceanic gabbro which indicates the existence of recycled, virtually unchanged lower oceanic crust in the plume source. This is a clear sign of the inefficiency of the stirring mechanism existing at mantle depth. Similar features are seen in other near-axis hotspot magmas around the world. Based on He, Sr, Nd, Pb and O isotopes and trace elements in primitive mafic dykes from the Etendeka flood basalts, NW Namibia the author along with her co-workers have shown that deep, less degassed mantle material carried up by a mantle plume contributed significantly to the flood basalt magmatism. The Etendeka flood basalts are part of the South Atlantic LIP, which is associated with the breakup of Gondwana, the formation of the Paraná-Etendeka flood basalts and the Walvis Ridge - Tristan da Cunha hotspot track. Thus reinforcing the lately often-challenged concept of mantle plumes and the role of mantle plumes in the formation of large igneous provinces. Studying the behaviour of noble gases during melt formation and evolution the author along with her co-workers has shown that He can be considerable more susceptible to changes during melt formation and evolution resulting not only in a complete decoupling of He isotopes from e.g. Ne or Pb isotopes but also in a complete loss of the primary mantle isotope signal. They have also shown that this decoupling occurs mainly during the melt formation processes requiring He to be more compatible during mantle melting than Ne. In addition, the author along with her co workers were able to show that incorporation of atmospheric noble gases into igneous rocks is in general a two-step process: (1) magma contamination by assimilation of altered oceanic crust results in the entrainment of air-equilibrated seawater noble gases; (2) atmospheric noble gases are adsorbed onto grain surfaces during sample preparation. This implies, considering the ubiquitous presence of the contamination signal, that magma contamination by assimilation of a seawater-sourced component is an integral part of mid-ocean ridge basalt evolution. KW - noble gases KW - mantle formation KW - mantle evolution KW - ocean-crust formation KW - plume-ridge interaction KW - contamination processes KW - magmatic processes KW - continental break-up Y1 - 2019 ER - TY - JOUR A1 - Ugwuja, Chidinma G. A1 - Adelowo, Olawale O. A1 - Ogunlaja, Aemere A1 - Omorogie, Martins O. A1 - Olukanni, Olumide D. A1 - Ikhimiukor, Odion O. A1 - Iermak, Ievgeniia A1 - Kolawole, Gabriel A. A1 - Günter, Christina A1 - Taubert, Andreas A1 - Bodede, Olusola A1 - Moodley, Roshila A1 - Inada, Natalia M. A1 - Camargo, Andrea S.S. de A1 - Unuabonah, Emmanuel Iyayi T1 - Visible-Light-Mediated Photodynamic Water Disinfection @ Bimetallic-Doped Hybrid Clay Nanocomposites JF - ACS applied materials & interfaces N2 - This study reports a new class of photocatalytic hybrid clay nanocomposites prepared from low-cost sources (kaolinite clay and Carica papaya seeds) doped with Zn and Cu salts via a solvothermal process. X-ray diffraction analysis suggests that Cu-doping and Cu/Zn-doping introduce new phases into the crystalline structure of Kaolinite clay, which is linked to the reduced band gap of kaolinite from typically between 4.9 and 8.2 eV to 2.69 eV for Cu-doped and 1.5 eV for Cu/Zn hybrid clay nanocomposites (Nisar, J.; Arhammar, C.; Jamstorp, E.; Ahuja, R. Phys. Rev. B 2011, 84, 075120). In the presence of solar light irradiation, Cu- and Cu/Zn-doped nanocomposites facilitate the electron hole pair separation. This promotes the generation of singlet oxygen which in turn improves the water disinfection efficiencies of these novel nanocomposite materials. The nanocomposite materials were further characterized using high-resolution scanning electron microscopy, fluorimetry, therrnogravimetric analysis, and Raman spectroscopy. The breakthrough times of the nanocomposites for a fixed bed mode of disinfection of water contaminated with 2.32 x 10(7) cfu/mL E. coli ATCC 25922 under solar light irradiation are 25 h for Zn-doped, 30 h for Cu-doped, and 35 h for Cu/Zn-doped nanocomposites. In the presence of multidrug and multimetal resistant strains of E. coli, the breakthrough time decreases significantly. Zn-only doped nanocomposites are not photocatalytically active. In the absence of light, the nanocomposites are still effective in decontaminating water, although less efficient than under solar light irradiation. Electrostatic interaction, metal toxicity, and release of singlet oxygen (only in the Cu-doped and Cu/Zn-doped nanocomposites) are the three disinfection mechanisms by which these nanocomposites disinfect water. A regrowth study indicates the absence of any living E. coli cells in treated water even after 4 days. These data and the long hydraulic times (under gravity) exhibited by these nanocomposites during photodisinfection of water indicate an unusually high potential of these nanocomposites as efficient, affordable, and sustainable point-of-use systems for the disinfection of water in developing countries. KW - disinfection KW - nanocomposite material KW - multidrug-resistant Escherichia coli KW - water KW - reactive oxygen species Y1 - 2019 U6 - https://doi.org/10.1021/acsami.9b01212 SN - 1944-8244 SN - 1944-8252 VL - 11 IS - 28 SP - 25483 EP - 25494 PB - American Chemical Society CY - Washington, DC ER - TY - JOUR A1 - Ben Dor, Yoav A1 - Neugebauer, Ina A1 - Enzel, Yehouda A1 - Schwab, Markus Julius A1 - Tjallingii, Rik A1 - Erel, Yigal A1 - Brauer, Achim T1 - Varves of the Dead Sea sedimentary record JF - Quaternary science reviews : the international multidisciplinary research and review journal N2 - The sedimentary record of the Dead Sea provides an exceptional high-resolution archive of past climate changes in the drought-sensitive eastern Mediterranean-Levant, a key region for the development of humankind at the boundary of global climate belts. Moreover, it is the only deep hypersaline lake known to have deposited long sequences of finely laminated, annually deposited sediments (i.e. varves) of varied compositions, including aragonite, gypsum, halite and clastic sediments. Vast efforts have been made over the years to decipher the environmental information stored in these evaporitic-clastic sequences spanning from the Pleistocene Lake Amora to the Holocene Dead Sea. A general characterisation of sediment facies has been derived from exposed sediment sections, as well as from shallow- and deep-water sediment cores. During high lake stands and episodes of positive water budget, mostly during glacial times, alternating aragonite and detritus laminae (‘aad’ facies) were accumulated, whereas during low lake stands and droughts, prevailing during interglacials, laminated detritus (‘ld’ facies) and laminated halite (‘lh’ facies) dominate the sequence. In this paper, we (i) review the three types of laminated sediments of the Dead Sea sedimentary record (‘aad’, ‘ld’ and ‘lh’ facies), (ii) discuss their modes of formation, deposition and accumulation, and their interpretation as varves, and (iii) illustrate how Dead Sea varves are utilized for palaeoclimate reconstructions and for establishing floating chronologies. KW - ICDP Dead Sea deep drilling KW - Hypersaline lake KW - Lacustrine sediments KW - Evaporitic varves KW - Palaeoclimate reconstruction KW - Varve chronologies Y1 - 2019 U6 - https://doi.org/10.1016/j.quascirev.2019.04.011 SN - 0277-3791 VL - 215 SP - 173 EP - 184 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Kaufmann, Felix E. D. A1 - Hoffmann, Marie C. A1 - Bachmann, Kai A1 - Veksler, Ilya V. A1 - Trumbull, Robert B. A1 - Hecht, Lutz T1 - Variations in Composition, Texture, and Platinum Group Element Mineralization in the Lower Group and Middle Group Chromitites of the Northwestern Bushveld Complex, South Africa JF - Economic geology N2 - Small-scale variations in mineral chemistry, textures, and platinum group element (PGE) mineralization were investigated in the Lower and Middle Group chromitite layers LG6, LG6a, MG1, MG2, and MG2 II from vertical drill core profiles at the Thaba mine in the northwestern limb of the Bushveld Complex. We present detailed geochemical profiles of chromite composition and chromite crystal size distribution curves to shed light on the processes of chromite accumulation and textural modification as well as mineralization. Multiple samples within each layer were assayed for PGE concentrations, and the respective platinum group mineral association was determined by mineral liberation analysis (MLA). There is strong evidence for postcumulus changes in the chromitites. The crystal size distribution curves suggest that the primary chromite texture was coarsened by a combination of adcumulus growth and textural equilibration, while compaction of the crystal mush played only a minor role. Mineral compositions were also modified by postcumulus processes, but because of the very high modal amount of chromite and its local preservation in orthopyroxene oikocrysts, that phase retained much primary information. Vertical variations of chromite composition within chromitite layers and from one layer to another do not support the idea of chromite accumulation from crystal-rich slurries or crystal settling from a large magma chamber. Instead, we favor a successive buildup of chromitite layers by repeated injections of relatively thin layers of chromite-saturated magmas, with in situ crystallization occurring at the crystal mush-magma interface. The adcumulus growth of chromite grains to form massive chromitite required addition of Cr to the layers, which we attribute to downward percolation from the overlying magma. The PGE concentrations are elevated in all chromitite layers compared to adjacent silicate rocks and show a systematic increase upward from LG6 (avg 807 ppb Ir + Ru + Rh + Pt + Pd + Au) to MG2 II (avg 2,062 ppb). There are also significant internal variations in all layers, with enrichments at hanging and/or footwalls. The enriched nature of chromitites in PGEs compared to host pyroxenites is a general feature, independent of the layer thickness. The MLA results distinguish two principal groups of PGE mineral associations: the LG6, LG6, and MG1 are dominated by the malanite series, laurite, and PGE sulfarsenides, while the MG2 and MG2 II layers are characterized by laurite and PGE sulfides as well as Pt-Fe-Sn and PGE-Sb-Bi-Pb alloys. Differences in the PGE associations are attributed to postcumulus alteration of the MG2 and MG2 II layer, while the chromitites below, particularly LG6 and LG6a, contain a more pristine association. Y1 - 2019 U6 - https://doi.org/10.5382/econgeo.4641 SN - 0361-0128 SN - 1554-0774 VL - 114 IS - 3 SP - 569 EP - 590 PB - The Economic Geology Publ. Co CY - Littleton ER - TY - JOUR A1 - Gerlitz, Lars A1 - Steirou, Eva A1 - Schneider, Christoph A1 - Moron, Vincent A1 - Vorogushyn, Sergiy A1 - Merz, Bruno T1 - Variability of the Cold Season Climate in Central Asia. Part II: Hydroclimatic Predictability JF - Journal of climate N2 - Central Asia (CA) is subjected to a large variability of precipitation. This study presents a statistical model, relating precipitation anomalies in three subregions of CA in the cold season (November-March) with various predictors in the preceding October. Promising forecast skill is achieved for two subregions covering 1) Uzbekistan, Turkmenistan, Kyrgyzstan, Tajikistan, and southern Kazakhstan and 2) Iran, Afghanistan, and Pakistan. ENSO in October is identified as the major predictor. Eurasian snow cover and the quasi-biennial oscillation further improve the forecast performance. To understand the physical mechanisms, an analysis of teleconnections between these predictors and the wintertime circulation over CA is conducted. The correlation analysis of predictors and large-scale circulation indices suggests a seasonal persistence of tropical circulation modes and a dynamical forcing of the westerly circulation by snow cover variations over Eurasia. An EOF analysis of pressure and humidity patterns allows separating the circulation variability over CA into westerly and tropical modes and confirms that the identified predictors affect the respective circulation characteristics. Based on the previously established weather type classification for CA, the predictors are investigated with regard to their effect on the regional circulation. The results suggest a modification of the Hadley cell due to ENSO variations, with enhanced moisture supply from the Arabian Gulf during El Nino. They further indicate an influence of Eurasian snow cover on the wintertime Arctic Oscillation (AO) and Northern Hemispheric Rossby wave tracks. Positive anomalies favor weather types associated with dry conditions, while negative anomalies promote the formation of a quasi-stationary trough over CA, which typically occurs during positive AO conditions. KW - Asia KW - Climate prediction KW - Seasonal forecasting KW - North Atlantic Oscillation KW - Southern Oscillation Y1 - 2019 U6 - https://doi.org/10.1175/JCLI-D-18-0892.1 SN - 0894-8755 SN - 1520-0442 VL - 32 IS - 18 SP - 6015 EP - 6033 PB - American Meteorological Soc. CY - Boston ER - TY - GEN A1 - Ramezani Ziarani, Maryam A1 - Bookhagen, Bodo A1 - Schmidt, Torsten A1 - Wickert, Jens A1 - de la Torre, Alejandro A1 - Hierro, Rodrigo T1 - Using Convective Available Potential Energy (CAPE) and Dew-Point Temperature to Characterize Rainfall-Extreme Events in the South-Central Andes T2 - Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe N2 - The interactions between atmosphere and steep topography in the eastern south–central Andes result in complex relations with inhomogenous rainfall distributions. The atmospheric conditions leading to deep convection and extreme rainfall and their spatial patterns—both at the valley and mountain-belt scales—are not well understood. In this study, we aim to identify the dominant atmospheric conditions and their spatial variability by analyzing the convective available potential energy (CAPE) and dew-point temperature (Td). We explain the crucial effect of temperature on extreme rainfall generation along the steep climatic and topographic gradients in the NW Argentine Andes stretching from the low-elevation eastern foreland to the high-elevation central Andean Plateau in the west. Our analysis relies on version 2.0 of the ECMWF’s (European Centre for Medium-RangeWeather Forecasts) Re-Analysis (ERA-interim) data and TRMM (Tropical Rainfall Measuring Mission) data. We make the following key observations: First, we observe distinctive gradients along and across strike of the Andes in dew-point temperature and CAPE that both control rainfall distributions. Second, we identify a nonlinear correlation between rainfall and a combination of dew-point temperature and CAPE through a multivariable regression analysis. The correlation changes in space along the climatic and topographic gradients and helps to explain controlling factors for extreme-rainfall generation. Third, we observe more contribution (or higher importance) of Td in the tropical low-elevation foreland and intermediate-elevation areas as compared to the high-elevation central Andean Plateau for 90th percentile rainfall. In contrast, we observe a higher contribution of CAPE in the intermediate-elevation area between low and high elevation, especially in the transition zone between the tropical and subtropical areas for the 90th percentile rainfall. Fourth, we find that the parameters of the multivariable regression using CAPE and Td can explain rainfall with higher statistical significance for the 90th percentile compared to lower rainfall percentiles. Based on our results, the spatial pattern of rainfall-extreme events during the past ∼16 years can be described by a combination of dew-point temperature and CAPE in the south–central Andes. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 771 KW - eastern south–central Andes KW - extreme rainfall KW - deep convection KW - convective available potential energy KW - dew-point temperature Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-438865 SN - 1866-8372 IS - 771 ER - TY - JOUR A1 - Ramezani Ziarani, Maryam A1 - Bookhagen, Bodo A1 - Schmidt, Torsten A1 - Wickert, Jens A1 - de la Torre, Alejandro A1 - Hierro, Rodrigo T1 - Using Convective Available Potential Energy (CAPE) and Dew-Point Temperature to Characterize Rainfall-Extreme Events in the South-Central Andes JF - Atmosphere N2 - The interactions between atmosphere and steep topography in the eastern south–central Andes result in complex relations with inhomogenous rainfall distributions. The atmospheric conditions leading to deep convection and extreme rainfall and their spatial patterns—both at the valley and mountain-belt scales—are not well understood. In this study, we aim to identify the dominant atmospheric conditions and their spatial variability by analyzing the convective available potential energy (CAPE) and dew-point temperature (Td). We explain the crucial effect of temperature on extreme rainfall generation along the steep climatic and topographic gradients in the NW Argentine Andes stretching from the low-elevation eastern foreland to the high-elevation central Andean Plateau in the west. Our analysis relies on version 2.0 of the ECMWF’s (European Centre for Medium-RangeWeather Forecasts) Re-Analysis (ERA-interim) data and TRMM (Tropical Rainfall Measuring Mission) data. We make the following key observations: First, we observe distinctive gradients along and across strike of the Andes in dew-point temperature and CAPE that both control rainfall distributions. Second, we identify a nonlinear correlation between rainfall and a combination of dew-point temperature and CAPE through a multivariable regression analysis. The correlation changes in space along the climatic and topographic gradients and helps to explain controlling factors for extreme-rainfall generation. Third, we observe more contribution (or higher importance) of Td in the tropical low-elevation foreland and intermediate-elevation areas as compared to the high-elevation central Andean Plateau for 90th percentile rainfall. In contrast, we observe a higher contribution of CAPE in the intermediate-elevation area between low and high elevation, especially in the transition zone between the tropical and subtropical areas for the 90th percentile rainfall. Fourth, we find that the parameters of the multivariable regression using CAPE and Td can explain rainfall with higher statistical significance for the 90th percentile compared to lower rainfall percentiles. Based on our results, the spatial pattern of rainfall-extreme events during the past ∼16 years can be described by a combination of dew-point temperature and CAPE in the south–central Andes. KW - eastern south–central Andes KW - extreme rainfall KW - deep convection KW - convective available potential energy KW - dew-point temperature Y1 - 2019 U6 - https://doi.org/10.3390/atmos10070379 SN - 2073-4433 VL - 10 IS - 7 PB - MDPI CY - Basel ER - TY - GEN A1 - Gudipudi, Venkata Ramana A1 - Rybski, Diego A1 - Lüdeke, Matthias K. B. A1 - Kropp, Jürgen T1 - Urban emission scaling - Research insights and a way forward T2 - Environment and Planning B: Urban Analytics and City Science Y1 - 2019 U6 - https://doi.org/10.1177/2399808319825867 SN - 2399-8083 SN - 2399-8091 VL - 46 IS - 9 SP - 1678 EP - 1683 PB - Sage Publ. CY - London ER - TY - JOUR A1 - Veh, Georg A1 - Korup, Oliver A1 - von Specht, Sebastian A1 - Rößner, Sigrid A1 - Walz, Ariane T1 - Unchanged frequency of moraine-dammed glacial lake outburst floods in the Himalaya JF - Nature climate change N2 - Shrinking glaciers in the Hindu Kush-Karakoram-Himalaya-Nyainqentanglha (HKKHN) region have formed several thousand moraine-dammed glacial lakes(1-3), some of these having grown rapidly in past decades(3,4). This growth may promote more frequent and potentially destructive glacial lake outburst floods (GLOFs)(5-7). Testing this hypothesis, however, is confounded by incomplete databases of the few reliable, though selective, case studies. Here we present a consistent Himalayan GLOF inventory derived automatically from all available Landsat imagery since the late 1980s. We more than double the known GLOF count and identify the southern Himalayas as a hotspot region, compared to the more rarely affected Hindu Kush-Karakoram ranges. Nevertheless, the average annual frequency of 1.3 GLOFs has no credible posterior trend despite reported increases in glacial lake areas in most of the HKKHN3,8, so that GLOF activity per unit lake area has decreased since the late 1980s. We conclude that learning more about the frequency and magnitude of outburst triggers, rather than focusing solely on rapidly growing glacial lakes, might improve the appraisal of GLOF hazards. KW - Climate change KW - Cryospheric science KW - Environmental impact KW - Geomorphology Y1 - 2019 U6 - https://doi.org/10.1038/s41558-019-0437-5 SN - 1758-678X SN - 1758-6798 VL - 9 IS - 5 SP - 379 EP - 383 PB - Nature Publ. Group CY - London ER - TY - THES A1 - Lefebvre, Marie G. T1 - Two stages of skarn formation - two tin enrichments T1 - Zwei Stufen der Skarn-Bildung - zwei Phasen der Zinnmobilisierung BT - the Hämmerlein polymetallic skarn deposit, western Erzgebirge, Germany BT - die polymetallische Skarnablagerung Hämmerlein, West Erzgebirge, Deutschland N2 - Skarn deposits are found on every continents and were formed at different times from Precambrian to Tertiary. Typically, the formation of a skarn is induced by a granitic intrusion in carbonates-rich sedimentary rocks. During contact metamorphism, fluids derived from the granite interact with the sedimentary host rocks, which results in the formation of calc-silicate minerals at the expense of carbonates. Those newly formed minerals generally develop in a metamorphic zoned aureole with garnet in the proximal and pyroxene in the distal zone. Ore elements contained in magmatic fluids are precipitated due to the change in fluid composition. The temperature decrease of the entire system, due to the cooling of magmatic fluids and the entering of meteoric water, allows retrogression of some prograde minerals. The Hämmerlein skarn deposit has a multi-stage history with a skarn formation during regional metamorphism and a retrogression of primary skarn minerals during the granitic intrusion. Tin was mobilized during both events. The 340 Ma old tin-bearing skarn minerals show that tin was present in sediments before the granite intrusion, and that the first Sn enrichment occurred during the skarn formation by regional metamorphism fluids. In a second step at ca. 320 Ma, tin-bearing fluids were produced with the intrusion of the Eibenstock granite. Tin, which has been added by the granite and remobilized from skarn calc-silicates, precipitated as cassiterite. Compared to clay or marl, the skarn is enriched in Sn, W, In, Zn, and Cu. These metals have been supplied during both regional metamorphism and granite emplacement. In addition, the several isotopic and chemical data of skarn samples show that the granite selectively added elements such as Sn, and that there was no visible granitic contribution to the sedimentary signature of the skarn The example of Hämmerlein shows that it is possible to form a tin-rich skarn without associated granite when tin has already been transported from tin-bearing sediments during regional metamorphism by aqueous metamorphic fluids. These skarns are economically not interesting if tin is only contained in the skarn minerals. Later alteration of the skarn (the heat and fluid source is not necessarily a granite), however, can lead to the formation of secondary cassiterite (SnO2), with which the skarn can become economically highly interesting. N2 - Skarn-Lagerstätten befinden sich auf allen Kontinenten und wurden zu unterschiedlichen Zeiten vom Präkambrium bis zum Tertiär gebildet. Typischerweise wird die Bildung eines Skarns durch die Intrusion eines Granits in karbonatreiche Sedimentgesteine induziert. Während der Kontaktmetamorphose reagieren die Fluide aus dem Granit mit dem sedimentären Wirtgestein, was zur Bildung von Kalksilikaten auf Kosten von Karbonaten führt. Diese neu gebildeten Minerale entwickeln sich im Allgemeinen in einer metamorph zonierten Aureole mit Granat im proximalen und Pyroxen im distalen Bereich. Erzelemente die in magmatischen Fluiden enthalten sind werden aufgrund der veränderten Fluidzusammensetzung ausgefällt. Die Temperaturabsenkung des gesamten Systems, hervorgerufen durch die Abkühlung von magmatischen Fluiden sowie durch das Eindringen meteorischen Wassers, führen zu teilweisen oder vollständigen Umwandlung prograder Minerale. Die Skarn-Lagerstätte Hämmerlein hat eine mehrstufige Geschichte mit Skarnsbildung während der regionalen Metamorphose und Retrogression der primären Skarn-Minerale während der Intrusion von Graniten. Zinn wurde während beiden Ereignissen mobilisiert. Die 340 Ma alten zinnhaltigen Skarnminerale zeigen, dass Zinn in Sedimenten bereits vor dem Graniteintrag vorhanden war, und dass die erste Sn-Anreicherung während der Bildung des Skarns durch Fluide der Regionalmetamorphose stattfand. In einem zweiten Schritt um 320 Ma wurden Zinn-haltige Fluide durch die Intrusion des Eibenstockgranits freigesetzt. Diese Fluide überprägten den Skarn. Das freisetzen und das neu zugefügte Zinn ist in Kassiterit gebunden und führten dem System zusätzliches Zinn zu, wobei Zinn aus den Skarn-Kalksilikaten remobilisiert wurde. Im Vergleich zu Tonstein oder Mergel sind die Skarn mit Sn, W, In, Zn, und Cu angereichet. Diese Metalle sind während der Regionalmetamorphose und der Granitplatznahme zu unterschiedlichen Teilen zugeführt worden. Darüber hinaus zeigen die verschiedenen isotopen und chemischen Daten der Skarn-Proben, dass der Granit selektiv einige Elemente wie Sn hinzugefügt, und dass es keinen sichtbar granitischen Beitrag zur sedimentären Signatur des Skarns gab. Das Beispiel Hämmerlein zeigt, dass es möglich ist einen zinnreichen Skarn ohne zugehörigen Granit zu bilden, wenn Zinn von zinnhaltigen Sedimenten während einer Regionalmetamorphose mit wässrigen metamorphen Fluiden transportiert worden ist. Diese Skarne sind wirtschaftlich uninterssant wenn das Zinn nur in den Skarn-Mineralen enthalten ist. Spätere Umwandlung des Skarns (die Quelle der Wärme und Fluiden ist nicht unbedingt ein Granit) kann jedoch zur Bildung von sekundärem Kassiterite (SnO2) führen, womit der Skarn plötzlich wirtschaftlich hoch interessant sein kann. KW - Hämmerlein KW - skarn KW - tin KW - ore deposit KW - geochronology KW - lithium KW - boron KW - Hämmerlein KW - Skarn KW - Zinn KW - Lagerstätte KW - Geochronologie KW - Lithium KW - Bor Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-427178 ER - TY - JOUR A1 - Ganguli, Poulomi A1 - Merz, Bruno T1 - Trends in Compound Flooding in Northwestern Europe During 1901-2014 JF - Geophysical research letters N2 - We analyze trends in compound flooding resulting from high coastal water levels (HCWLs) and peak river discharge over northwestern Europe during 1901-2014. Compound peak discharge associated with 37 stream gauges with at least 70 years of record availability near the North and Baltic Sea coasts is used. Compound flooding is assessed using a newly developed index, compound hazard ratio, that compares the severity of river flooding associated with HCWL with the at-site, T-year (a flood with 1/T chance of being exceeded in any given year) fluvial peak discharge. Our findings suggest a spatially coherent pattern in the dependence between HCWL and river peaks and in compound flood magnitudes and frequency. For higher return levels, we find upward trends in compound hazard ratio frequency at midlatitudes (gauges from 47 degrees N to 60 degrees N) and downward trends along the high latitude (>60 degrees N) regions of northwestern Europe. Plain Language Summary Compound floods in delta areas, that is, the co-occurrence of high coastal water levels (HCWLs) and high river discharge, are a particular challenge for disaster management. Such events are caused by two distinct mechanisms: (1) HCWLs may affect river flows and water levels by backwater effects or by reversing the seaward flow of rivers, particularly in regions with elevation less than 10 m in northwestern Europe. (2) The correlation between HCWL and river flow peaks may also stem from a common meteorological driver. Severe storm periods may be associated with high winds leading to storm surges, and at the same time with high precipitation followed by inland flooding. Understanding the historical trends in compound flooding, owing to changes in relative sea levels, in river flooding and in the dependence between these two drivers, is essential for projecting future changes and disaster management. The risk assessment frameworks are often limited to assessing flood risk from a single driver only. We present a new approach to assess compound flood severity resulting from extreme coastal water level and peak river discharge. We find upward trends in compound flooding for midlatitude regions and downward trends for high latitudes in northwestern Europe. KW - compound flood KW - northwestern Europe KW - risk modeling KW - dependence Y1 - 2019 U6 - https://doi.org/10.1029/2019GL084220 SN - 0094-8276 SN - 1944-8007 VL - 46 IS - 19 SP - 10810 EP - 10820 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Sheikholeslami, Mohammad Reza A1 - Oberhänsli, Roland A1 - Ghassemi, Mohammad R. T1 - Transpression tectonics in the eastern Binalud Mountains, northeast Iran; Insight from finite strain analysis, vorticity and Ar-40/Ar-39 dating JF - Journal of Asian earth sciences N2 - Different tectonic episodes from Late Triassic to recent times in the eastern Binalud Mountains have resulted from convergence and transpression between the Turan and Central Iran plates. Heterogeneous deformation and variable portions of pure and simple shear, demonstrated by finite strain and vorticity analysis in the Mashhad metamorphic rocks, indicate strain partitioning during the first tectonic episode. Modern strain partitioning is characterized by reverse and strike-slip faulting along the Neyshabur fault system and Shandiz fault zone in the southern and northern flanks of the eastern Binalud, respectively. Time-transgressive regional deformation migrated from the hinterland of the belt into the foreland basin, from northeast to the southwest of the mountains. Different generations of deformation resulted in obliteration of the subduction-related accretionary wedge, and growth of an orogenic wedge resulted from collision between the Central Iran and Turan plates. KW - Transpression KW - Binalud Mountains KW - Deformation KW - Orogenic wedge KW - Northeast Iran Y1 - 2019 U6 - https://doi.org/10.1016/j.jseaes.2019.04.014 SN - 1367-9120 SN - 1878-5786 VL - 179 SP - 219 EP - 237 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Aseev, Nikita A1 - Shprits, Yuri Y. A1 - Wang, Dedong A1 - Wygant, John A1 - Drozdov, Alexander A1 - Kellerman, Adam C. A1 - Reeves, Geoffrey D. T1 - Transport and loss of ring current electrons inside geosynchronous orbit during the 17 March 2013 storm JF - Journal of geophysical research : Space physics N2 - Ring current electrons (1–100 keV) have received significant attention in recent decades, but many questions regarding their major transport and loss mechanisms remain open. In this study, we use the four‐dimensional Versatile Electron Radiation Belt code to model the enhancement of phase space density that occurred during the 17 March 2013 storm. Our model includes global convection, radial diffusion, and scattering into the Earth's atmosphere driven by whistler‐mode hiss and chorus waves. We study the sensitivity of the model to the boundary conditions, global electric field, the electric field associated with subauroral polarization streams, electron loss rates, and radial diffusion coefficients. The results of the code are almost insensitive to the model parameters above 4.5 RERE, which indicates that the general dynamics of the electrons between 4.5 RE and the geostationary orbit can be explained by global convection. We found that the major discrepancies between the model and data can stem from the inaccurate electric field model and uncertainties in lifetimes. We show that additional mechanisms that are responsible for radial transport are required to explain the dynamics of ≥40‐keV electrons, and the inclusion of the radial diffusion rates that are typically assumed in radiation belt studies leads to a better agreement with the data. The overall effect of subauroral polarization streams on the electron phase space density profiles seems to be smaller than the uncertainties in other input parameters. This study is an initial step toward understanding the dynamics of these particles inside the geostationary orbit. KW - ring current electrons KW - magnetospheric convection KW - ensemble modeling KW - inner magnetosphere KW - electron transport KW - wave-particle interactions Y1 - 2019 U6 - https://doi.org/10.1029/2018JA026031 SN - 2169-9380 SN - 2169-9402 VL - 124 IS - 2 SP - 915 EP - 933 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Calitri, Francesca A1 - Sommer, Michael A1 - Norton, Kevin A1 - Temme, Arnaud A1 - Brandova, Dagmar A1 - Portes, Raquel A1 - Christl, Marcus A1 - Ketterer, Mike E. A1 - Egli, Markus T1 - Tracing the temporal evolution of soil redistribution rates in an agricultural landscape using Pu239+240 and Be-10 JF - Earth surface processes and landforms : the journal of the British Geomorphological Research Group N2 - Two principal groups of processes shape mass fluxes from and into a soil: vertical profile development and lateral soil redistribution. Periods having predominantly progressive soil forming processes (soil profile development) alternate with periods having predominantly regressive processes (erosion). As a result, short‐term soil redistribution – years to decades – can differ substantially from long‐term soil redistribution; i.e. centuries to millennia. However, the quantification of these processes is difficult and consequently their rates are poorly understood. To assess the competing roles of erosion and deposition we determined short‐ and long‐term soil redistribution rates in a formerly glaciated area of the Uckermark, northeast Germany. We compared short‐term erosion or accumulation rates using plutonium‐239 and ‐240 (239+240Pu) and long‐term rates using both in situ and meteoric cosmogenic beryllium‐10 (10Be). Three characteristic process domains have been analysed in detail: a flat landscape position having no erosion/deposition, an erosion‐dominated mid‐slope, and a deposition‐dominated lower‐slope site. We show that the short‐term mass erosion and accumulation rates are about one order of magnitude higher than long‐term redistribution rates. Both, in situ and meteoric 10Be provide comparable results. Depth functions, and therefore not only an average value of the topsoil, give the most meaningful rates. The long‐term soil redistribution rates were in the range of −2.1 t ha‐1 yr‐1 (erosion) and +0.26 t ha‐1 yr‐1 (accumulation) whereas the short‐term erosion rates indicated strong erosion of up to 25 t ha‐1 yr‐1 and accumulation of 7.6 t ha‐1 yr‐1. Our multi‐isotope method identifies periods of erosion and deposition, confirming the ‘time‐split approach’ of distinct different phases (progressive/regressive) in soil evolution. With such an approach, temporally‐changing processes can be disentangled, which allows the identification of both the dimensions of and the increase in soil erosion due to human influence KW - soil erosion KW - Be-10 KW - Pu239+240 KW - temporal evolution KW - moraine landscape KW - agricultural soils Y1 - 2019 U6 - https://doi.org/10.1002/esp.4612 SN - 0197-9337 SN - 1096-9837 VL - 44 IS - 9 SP - 1783 EP - 1798 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Lescoutre, Rodolphe A1 - Tugend, Julie A1 - Brune, Sascha A1 - Masini, Emmanuel A1 - Manatschal, Gianreto T1 - Thermal Evolution of Asymmetric Hyperextended Magma-Poor Rift Systems: Results From Numerical Modeling and Pyrenean Field Observations JF - Geochemistry, geophysics, geosystems N2 - We investigate the thermal and structural evolution of asymmetric rifted margin using numerical modeling and geological observations derived from the Western Pyrenees. Our numerical model provides a self-consistent physical evolution of the top basement heat flow during asymmetric rifting. The model shows a pronounced thermal asymmetry that is caused by migration of the rift center toward the upper plate. The same process creates a diachronism for the record of maximum heat flow and maximum temperatures (T-max) in basal rift sequences. The Mauleon-Arzacq basin (W-Pyrenees) corresponds to a former mid-Cretaceous asymmetric hyperextended rift basin. New vitrinite reflectance data in addition to existing data sets from this basin reveal an asymmetry in the distribution of peak heat (T-max) with respect to the rift shoulders, where highest values are located at the former upper- to lower-plate transition. This data set from the Arzacq-Mauleon field study confirms for the first time the thermal asymmetry predicted by numerical models. Numerical modeling results also suggest that complexities in synrift thermal architecture could arise when hanging-wall-derived extensional allochthons and related T-max become part of the lower plate and are transported away from the upper- to lower-plate transition. This study emphasizes the limitations of the common approach to integrate punctual thermal data from pre-rift to synrift sedimentary sequences in order to describe the rift-related thermal evolution and paleothermal gradients at the scale of a rift basin or a rifted margin. KW - Thermal evolution KW - Asymmetric rifting KW - Numerical model KW - Field analogue KW - Pyrenees KW - Heat flow Y1 - 2019 U6 - https://doi.org/10.1029/2019GC008600 SN - 1525-2027 VL - 20 IS - 10 SP - 4567 EP - 4587 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Pourteau, Amaury A1 - Scherer, Erik E. A1 - Schorn, Simon A1 - Bast, Rebecca A1 - Schmidt, Alexander A1 - Ebert, Lisa T1 - Thermal evolution of an ancient subduction interface revealed by Lu-Hf garnet geochronology, Halilbagi Complex (Anatolia) JF - Geoscience Frontiers N2 - The thermal structure of subduction zones exerts a major influence on deep-seated mechanical and chemical processes controlling arc magmatism, seismicity, and global element cycles. Accretionary complexes exposed inland may comprise tectonic blocks with contrasting pressure-temperature (P-T) histories, making it possible to investigate the dynamics and thermal evolution of former subduction interfaces. With this aim, we present new Lu-Hf geochronological results for mafic rocks of the Halilbagi Complex (Anatolia) that evolved along different thermal gradients. Samples include a lawsonite-epidote blueschist, a lawsonite-epidote eclogite, and an epidote eclogite (all with counter-clockwise P-T paths), a prograde lawsonite blueschist with a "hairpin"-type P-T path, and a garnet amphibolite from the overlying sub-ophiolitic metamorphic sole. Equilibrium phase diagrams suggest that the garnet amphibolite formed at similar to 0.6-0.7 GPa and 800-850 degrees C, whereas the prograde lawsonite blueschist records burial from 2.1 GPa and 420 degrees C to 2.6 GPa and 520 degrees C. Well-defined Lu-Hf isochrons were obtained for the epidote eclogite (92.38 +/- 0.22 Ma) and the lawsonite-epidote blueschist (90.19 +/- 0.54 Ma), suggesting rapid garnet growth. The lawsonite-epidote eclogite (87.30 +/- 0.39 Ma) and the prograde lawsonite blueschist (ca. 86 Ma) are younger, whereas the garnet amphibolite (104.5 +/- 3.5 Ma) is older. Our data reveal a consistent trend of progressively decreasing geothermal gradient from granulite-facies conditions at similar to 104 Ma to the epidote-eclogite facies around 92 Ma, and the lawsonite blueschist-facies between 90 Ma and 86 Ma. Three Lu-Hf garnet dates (between 92 Ma and 87 Ma) weighted toward the growth of post-peak rims (as indicated by Lu distribution in garnet) suggest that the HP/LT rocks were exhumed continuously and not episodically. We infer that HP/LT metamorphic rocks within the Halilbagi Complex were subjected to continuous return flow, with "warm" rocks being exhumed during the tectonic burial of "cold" ones. Our results, combined with regional geological constraints, allow us to speculate that subduction started at a transform fault near a mid-oceanic spreading centre. Following its formation, this ancient subduction interface evolved thermally over more than 15 Myr, most likely as a result of heat dissipation rather than crustal underplating. (C) 2018, China University of Geosciences (Beijing) and Peking University. Production and hosting by Elsevier B.V. KW - Subduction KW - Lu/Hf dating of garnet KW - Metamorphic sole KW - Eclogite KW - Blueschist KW - Lawsonite Y1 - 2019 U6 - https://doi.org/10.1016/j.gsf.2018.03.004 SN - 1674-9871 VL - 10 IS - 1 SP - 127 EP - 148 PB - Elsevier CY - Amsterdam ER - TY - THES A1 - Meeßen, Christian T1 - The thermal and rheological state of the Northern Argentinian foreland basins T1 - Der thermische und rheologische Zustand der Nordargentinischen Vorlandbecken N2 - The foreland of the Andes in South America is characterised by distinct along strike changes in surface deformational styles. These styles are classified into two end-members, the thin-skinned and the thick-skinned style. The superficial expression of thin-skinned deformation is a succession of narrowly spaced hills and valleys, that form laterally continuous ranges on the foreland facing side of the orogen. Each of the hills is defined by a reverse fault that roots in a basal décollement surface within the sedimentary cover, and acted as thrusting ramp to stack the sedimentary pile. Thick-skinned deformation is morphologically characterised by spatially disparate, basement-cored mountain ranges. These mountain ranges are uplifted along reactivated high-angle crustal-scale discontinuities, such as suture zones between different tectonic terranes. Amongst proposed causes for the observed variation are variations in the dip angle of the Nazca plate, variation in sediment thickness, lithospheric thickening, volcanism or compositional differences. The proposed mechanisms are predominantly based on geological observations or numerical thermomechanical modelling, but there has been no attempt to understand the mechanisms from a point of data-integrative 3D modelling. The aim of this dissertation is therefore to understand how lithospheric structure controls the deformational behaviour. The integration of independent data into a consistent model of the lithosphere allows to obtain additional evidence that helps to understand the causes for the different deformational styles. Northern Argentina encompasses the transition from the thin-skinned fold-and-thrust belt in Bolivia, to the thick-skinned Sierras Pampeanas province, which makes this area a well suited location for such a study. The general workflow followed in this study first involves data-constrained structural- and density-modelling in order to obtain a model of the study area. This model was then used to predict the steady-state thermal field, which was then used to assess the present-day rheological state in northern Argentina. The structural configuration of the lithosphere in northern Argentina was determined by means of data-integrative, 3D density modelling verified by Bouguer gravity. The model delineates the first-order density contrasts in the lithosphere in the uppermost 200 km, and discriminates bodies for the sediments, the crystalline crust, the lithospheric mantle and the subducting Nazca plate. To obtain the intra-crustal density structure, an automated inversion approach was developed and applied to a starting structural model that assumed a homogeneously dense crust. The resulting final structural model indicates that the crustal structure can be represented by an upper crust with a density of 2800 kg/m³, and a lower crust of 3100 kg/m³. The Transbrazilian Lineament, which separates the Pampia terrane from the Río de la Plata craton, is expressed as a zone of low average crustal densities. In an excursion, we demonstrate in another study, that the gravity inversion method developed to obtain intra-crustal density structures, is also applicable to obtain density variations in the uppermost lithospheric mantle. Densities in such sub-crustal depths are difficult to constrain from seismic tomographic models due to smearing of crustal velocities. With the application to the uppermost lithospheric mantle in the north Atlantic, we demonstrate in Tan et al. (2018) that lateral density trends of at least 125\,km width are robustly recovered by the inversion method, thereby providing an important tool for the delineation of subcrustal density trends. Due to the genetic link between subduction, orogenesis and retroarc foreland basins the question rises whether the steady-state assumption is valid in such a dynamic setting. To answer this question, I analysed (i) the impact of subduction on the conductive thermal field of the overlying continental plate, (ii) the differences between the transient and steady-state thermal fields of a geodynamic coupled model. Both studies indicate that the assumption of a thermal steady-state is applicable in most parts of the study area. Within the orogenic wedge, where the assumption cannot be applied, I estimated the transient thermal field based on the results of the conducted analyses. Accordingly, the structural model that had been obtained in the first step, could be used to obtain a 3D conductive steady-state thermal field. The rheological assessment based on this thermal field indicates that the lithosphere of the thin-skinned Subandean ranges is characterised by a relatively strong crust and a weak mantle. Contrarily, the adjacent foreland basin consists of a fully coupled, very strong lithosphere. Thus, shortening in northern Argentina can only be accommodated within the weak lithosphere of the orogen and the Subandean ranges. The analysis suggests that the décollements of the fold-and-thrust belt are the shallow continuation of shear zones that reside in the ductile sections of the orogenic crust. Furthermore, the localisation of the faults that provide strain transfer between the deeper ductile crust and the shallower décollement is strongly influenced by crustal weak zones such as foliation. In contrast to the northern foreland, the lithosphere of the thick-skinned Sierras Pampeanas is fully coupled and characterised by a strong crust and mantle. The high overall strength prevents the generation of crustal-scale faults by tectonic stresses. Even inherited crustal-scale discontinuities, such as sutures, cannot sufficiently reduce the strength of the lithosphere in order to be reactivated. Therefore, magmatism that had been identified to be a precursor of basement uplift in the Sierras Pampeanas, is the key factor that leads to the broken foreland of this province. Due to thermal weakening, and potentially lubrication of the inherited discontinuities, the lithosphere is locally weakened such that tectonic stresses can uplift the basement blocks. This hypothesis explains both the spatially disparate character of the broken foreland, as well as the observed temporal delay between volcanism and basement block uplift. This dissertation provides for the first time a data-driven 3D model that is consistent with geophysical data and geological observations, and that is able to causally link the thermo-rheological structure of the lithosphere to the observed variation of surface deformation styles in the retroarc foreland of northern Argentina. N2 - Das Vorland der südamerikanischen Anden ist durch lateral variierende Deformationsregimes des östlichen Vorlands geprägt. Dabei treten zwei grundlegend verschiedene Endglieder mit charakteristischer Architektur auf: flach abgescherte Falten- und Überschiebungsgürtel einerseits und Vorland-Sockelüberschiebungen ("zerbrochenes Vorland") andererseits. Das morphologische Erscheinungsbild der Falten- und Überschiebungsgürtel entspricht lateral ausgedehnten, dicht aneinander gereihten Abfolgen von Hügeln und Tälern. Die Hügel werden durch eine darunter liegende Überschiebung definiert, die in einem subhorizontalen Abscherhorizont in 10 bis 20 km Tiefe endet. Sockelüberschiebungen hingegen sind in Gebieten mit geringer Sedimentmächtigkeit zu finden und sind durch weit auseinander liegende Erhebungen charakterisiert, welche von steil einfallenden, reaktivierten krustenskaligen Verwerfungen begrenzt werden. Als Ursachen der beobachteten Deformationsvariationen wurden präexistente Schwächezonen, Sedimentmächtigkeiten, Lithosphärenverdickung, Vulkanismus oder kompositionelle Eigenschaften aufgeführt. Diese Vorschläge waren überwiegend konzeptuell und meist auf Grundlage von Feldbeobachtungen oder synthetischen numerischen, thermo-mechanischen Modelle abgeleitet. Die vorliegende Dissertation beleuchtet zum ersten mal die Ursachen der beobachteten Deformationsstile aus der Perspektive von dreidimensionaler, Daten-integrativer Modellierung. Durch die Integration voneinander unabhängiger Daten erlaubt diese Art der Beschreibung des physikalischen Zustands der Lithosphäre die Erlangung zusätzliche Hinweise auf die zugrundeliegenden Ursachen der verschiedenen Derformationsregimes. Für eine solche Studie bietet sich Nord-Argentinien an, da dort beide Vorland-Endglieder vorzufinden sind. Die dafür im wesentlichen durchgeführten Arbeitsschritte beinhalten die Erstellung eines strukturellen Dichtemodells des Untersuchungsgebiets, die Berechnung des 3D stationären thermischen Feldes, sowie die Analyse der rheologischen Eigenschaften der Lithosphäre. Das datenbasierte strukturelle Dichtemodell ist mit verschiedenen geologischen und geophysikalischen Beobachtungen sowie dem Bouguer-Schwerefeld konsistent. Dieses Modell bildet die primären Dichtekontraste der oberen 200 km der Lithosphäre ab und differenziert Körper für die Sedimente, die kristalline Kruste, den lithosphärischen Mantel, und die subduzierende Nazca-Platte. Um die krusteninterne Dichteverteilung zu erhalten wurde ein automatisierter Inversionsprozess entworfen der es erlaubt eine leichtere Oberkruste und eine schwerere Unterkruste geometrisch zu definieren. Die Modellierung zeigt, dass die Kruste in Nord-Argentinien durch eine leichtere Oberkruste (2800 kg/m³) und eine dichtere Unterkruste (3100 kg/m³) repräsentiert werden kann. Das Transbrasilianische Linement, welches das Pampia Terran im Westen vom Río de La Plata Kraton im Osten trennt, ist durch eine im Vergleich zur Umgebung geringere durchschnittliche Krustendichte charakterisiert. In einem Exkurs wird anschließend demonstriert, dass die hier entwickelte Inversionsmethodik zur Ermittlung von intrakrustalen Dichtekontrasten auch im obersten lithosphärischen Mantel angewandt werden kann. Dichten zwischen der Kruste-Mantel-Grenze und etwa 50\,km Tiefe sind besonders schwer zu bestimmen, da tomographische Modelle die Geschwindigkeitsvariationen von seismischen Wellen in diesen Bereichen nicht auflösen. In Tan u.a. (2018) demonstrieren wir, dass die Inversionsmethode Dichteverläufe mit einer lateralen Ausdehnung von 125 km oder weniger ermitteln kann, und somit einen wichtigen Beitrag zur Bestimmung von subkrustalen Dichteverteilungen im Mantel liefert. Wegen der genetischen Verbindung zwischen Subduktion, Orogenese und Retroarc Vorlandbecken stellt sich die Frage, ob die Annahme eines stationären thermischen Feldes für solch ein dynamisches Modelliergebiet zulässig ist. Um diese Frage zu beantworten wurde zum einen der Einfluss von Subduktion auf das konduktive thermische Feld auf die kontinentale Lithosphäre untersucht. Zum anderen wurde die Abweichung zwischen transientem und stationären thermischen Feld eines gekoppelten geodynamischen Modells untersucht. Beide Untersuchungen weisen darauf hin, dass die Annahme eines stationären thermischen Felds für den Großteil des Modelliergebiets zulässig ist. Im orogenen Keil, in dem diese Annahme nicht gilt, wurde das transiente thermische Feld mithilfe der erfolgten Untersuchungen abgeschätzt. Entsprechend kann für das Arbeitsgebiet im Vorland das strukturelle Modell aus dem ersten Schritt zur Berechnung des stationären 3D konduktiven thermischen Feldes herangezogen werden. Basierend auf der ermittelten Dichte- und Temperatur-Konfigurationen konnte anschließend die rheologische Konfiguration berechnet werden. Die rheologischen Analysen zeigen, dass die Lithosphäre in Falten- und Überschiebungsgürteln nur eine gerine Festigkeit besitzt und die Kruste Großteil zur integrierten Festigkeit beiträgt. Das benachbarte Vorlandbecken jedoch weist eine vollständig gekoppelte und starke Lithosphäre auf, weshalb Krustenverkürzung nur im vergleichsweise schwachen orogenen Keil aufgenommen werden kann. Daher komme ich zu der Schlussfolgerung, dass die Abscherhorizonte der Falten- und Überschiebungsgürtel die oberflächennahe Fortsetzung von Scherzonen in der duktilen Kruste unterhalb des Orogens sind. Die Lokalisation der Transferzonen zwischen der duktilen Kruste und dem Abscherhorizont sind dabei maßgeblich durch präexistente Schwächezonen in der Kruste beeinflusst. Im zerbrochenen Vorland der Sierras Pampeanas ist die Lithosphäre vollständig gekoppelt und durch einen Mantel hoher Festigkeit charakterisiert. Die sehr hohe integrierte lithosphärische Festigkeit des zerbrochenen Vorlands verhindert die Bildung von Störungen durch tektonische Kräfte. Selbst krustenskalige Schwächezonen können die Festigkeit nicht ausreichend reduzieren, weshalb eine thermische Schwächung benötigt wird. Daher spielt der Magmatismus, der in direkter Nachbarschaft zu den Schwächezonen in der Sierras Pampeanas nachgewiesen wurde, eine Schlüsselrolle in der Entstehung des zerbrochenen Vorlands. Diese Hypothese erklärt die große räumliche Distanz zwischen den Vorlandsockelüberschiebungen, sowie die beobachtete zeitliche Verzögerung zwischen Magmatismus und Hebung der Gebirgskämme. Die vorliegende Studie kann somit aufgrund Daten-integrativer Modellierung einen kausalen Zusammenhang zwischen der Lithosphärenstruktur, den beobachteten Deformationsmechanismen und unabhängigen geologischen Beobachtungen herstellen. KW - Argentina KW - Rheology KW - Foreland basin KW - Foreland basins KW - Density modelling KW - Chaco-Paraná basin KW - Andes KW - Argentinien KW - Rheologie KW - Vorlandbecken KW - Dichtemodellierung KW - Chaco-Paraná Becken KW - Anden Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-439945 ER - TY - THES A1 - Schleicher, Anja Maria T1 - The significance of clay minerals in active fault zones N2 - Die vorliegende Habilitationsschrift umfasst Forschungsergebnisse aus Studien, die sich mit Fluid-Gesteins-Wechselwirkungen und Deformationsprozessen in aktiven Störungszonen befassen, wobei der Einfluss der Tonminerale auf das geochemische und hydromechanische Verhalten dieser Störungen im Vordergrund steht. Kernproben (core) und Bohrklein (cuttings) aus vier verschiedenen Bohrprojekten an der San Andreas Störung (USA), der Nankai Trough Subduktionszone und der Japan Trench Subduktionszone (Japan), sowie der Alpine Störung in Neuseeland wurden untersucht. Die von ICDP (International Continental Scientific Drilling Program) und IODP (International Ocean Discovery Program) unterstützten Projekte verfolgen alle das Ziel, das Verhalten von Erdbeben besser zu verstehen. In Kapitel 1 werden in einer kurzen Einleitung die allgemeinen thematischen Grundlagen und Ziele der Arbeit beschrieben. Kapitel 2 umfasst den Stand der Forschung, eine kurze Beschreibung der einzelnen Bohrprojekte und Standorte, sowie eine Zusammenfassung der wichtigsten Messmethoden. Kapitel 3 beinhaltet insgesamt zehn wissenschaftliche Arbeiten, die alle in einem methodisch-thematischen Zusammenhang stehen. Die Manuskripte wurden in den Jahren 2006-2015 veröffentlicht, wobei weitere Arbeiten aus diesem Themenbereich im Literaturverzeichnis vermerkt sind. Sie gehen auf unterschiedliche Fragestellungen um die Bildung und das Verhalten von Tonmineralen in aktiven Störungszonen ein. Insgesamt sechs Publikationen beinhalten Daten und Forschungsergebnisse, die im Rahmen des SAFOD Projektes, USA (San Andreas Fault Observatory at Depth) erstellt wurden. Hier wurde vor allem auf die Fluid-Gesteins-Wechselwirkungsprozesse im Störungsgestein und die daraus resultierende Bildung von Tonmineralen eingegangen. Drei weitere Arbeiten wurden im Rahmen des NanTroSEIZE Projektes, Japan (Nankai Trough Seismogenic Zone Experiment) und des JFAST Projektes, Japan (Japan Trench Fast Drilling Project) erstellt. Hier steht vor allem das Verhalten von quellfähigen Tonmineralen auf sich ändernde Umgebungsbedingungen (z.B. Temperatur und Feuchtigkeit) im Mittelpunkt. Die zehnte hier vorgestellte Veröffentlichung betrifft Analysen rund um das DFDP Projekt (Deep Fault Drilling Project) in Neuseeland, wobei hier die Deformation von Tonmineralen und das hydro-mechanische Verhalten der Störungszone im Vordergrund stehen. In neun Veröffentlichungen war ich als Erstautor für die Vorbereitung des Projektes, das Erstellen der Daten und die Fertigstellung der Manuskripte zuständig. In einer Publikation war ich als Mitautorin für die elektronenmikroskopischen Analysen und deren Interpretation verantwortlich. Die wichtigsten Ergebnisse der in Kapitel 3 vorgelegten Arbeiten werden in Kapitel 4 unter Berücksichtigung neuer Publikationen diskutiert. Nach der Beschreibung der Thesen in Kapitel 5 werden in Kapitel 6 „Outlook“ die Highlights zukünftiger Forschungspläne am GFZ näher beschrieben. Die Habilitationsschrift endet mit dem Anhang, in welchem unter anderem das Laborequipment genauer beschrieben wird, sowie die Publikationen, Konferenzbeiträge und Lehrbeiträge aufgelistet sind. N2 - The habilitation thesis presented here includes results from several studies dealing with fluid-rock interactions and rock deformation processes in active fault zones. The focus in all of these studies is on the influence of clay minerals on the geochemical and the hydro-mechanical behavior of the fault rocks. The research was conducted on rock cores and cuttings from four scientific drilling projects at the San Andreas Fault (USA), the Nankai Trough subduction zone and the Japan Trench subduction zone (Japan), as well as the Alpine Fault in New Zealand. These ICDP (International Continental Scientific Drilling Program) and IODP (International Ocean Discovery Program) funded projects were all conducted with the aim to monitor and better understand earthquakes. Chapter 1 contains a short introduction to the topic with basic principles and objectives regarding the research approach. Chapter 2 describes the state of the art in clay mineral and fault zone science, gives a short description of the individual drilling projects and their locations on which the research was based, and summarizes the most important analytical methods used. Chapter 3 comprises ten peer-reviewed publications that are connected thematically and methodologically. The papers were published in the years 2006-2015, and additional related publications including myself as co-author are given in the literature list. The ten publications address different questions concerning the formation of clay minerals and processes of fluid-rock interaction in active fault zones. Six papers contain results from the SAFOD drilling project, USA (San Andreas Fault Observatory at Depth), with the main focus on fluid-rock interaction processes in fault rocks and the formation and location of clay minerals. Three publications report on research from the NanTroSEIZE drilling project (Nankai Trough Seismogenic Zone Experiment) and the JFAST drilling project (Japan Trench Fast Drilling Project). Both projects are situated in Japan. Here, the swelling behavior of smectite clay minerals in relation to changing environmental conditions (e.g. temperature and/or humidity) was investigated. The last publication included here concerns a study from the DFDP project (Deep Fault Drilling Project) in New Zealand, where I investigated the deformation of clay minerals on the context of the hydro-mechanical behavior of the fault zone rocks. I was first author in nine of the publications and in charge of the project preparation, measurements and data analyses, and the completion of the manuscript. As co-author on the other publication I was responsible for electronmicroscopy analyses (SEM and TEM) and their interpretation. The key results from the publications in Chapter 3 are discussed in Chapter 4 with additional considerations from more recent papers. Following the major theses in Chapter 5, Chapter 6 highlights a future research project in clay mineralogy research at the GFZ. An appendix includes more detailed descriptions of the laboratory equipment and lists of all publications, conference contributions and teaching courses and modules. KW - fault zone KW - Störungszone KW - clay mineral KW - fluid-rock interaction KW - Tonminerale KW - Fluid-Gesteins Wechselwirkung Y1 - 2019 ER - TY - THES A1 - Wolf, Mathias Johannes T1 - The role of partial melting on trace element and isotope systematics of granitic melts T1 - Die Bedeutung partieller Schmelzbildung für die Spurenelement- und Isotopensystematik granitischer Schmelzen N2 - Partial melting is a first order process for the chemical differentiation of the crust (Vielzeuf et al., 1990). Redistribution of chemical elements during melt generation crucially influences the composition of the lower and upper crust and provides a mechanism to concentrate and transport chemical elements that may also be of economic interest. Understanding of the diverse processes and their controlling factors is therefore not only of scientific interest but also of high economic importance to cover the demand for rare metals. The redistribution of major and trace elements during partial melting represents a central step for the understanding how granite-bound mineralization develops (Hedenquist and Lowenstern, 1994). The partial melt generation and mobilization of ore elements (e.g. Sn, W, Nb, Ta) into the melt depends on the composition of the sedimentary source and melting conditions. Distinct source rocks have different compositions reflecting their deposition and alteration histories. This specific chemical “memory” results in different mineral assemblages and melting reactions for different protolith compositions during prograde metamorphism (Brown and Fyfe, 1970; Thompson, 1982; Vielzeuf and Holloway, 1988). These factors do not only exert an important influence on the distribution of chemical elements during melt generation, they also influence the volume of melt that is produced, extraction of the melt from its source, and its ascent through the crust (Le Breton and Thompson, 1988). On a larger scale, protolith distribution and chemical alteration (weathering), prograde metamorphism with partial melting, melt extraction, and granite emplacement are ultimately depending on a (plate-)tectonic control (Romer and Kroner, 2016). Comprehension of the individual stages and their interaction is crucial in understanding how granite-related mineralization forms, thereby allowing estimation of the mineralization potential of certain areas. Partial melting also influences the isotope systematics of melt and restite. Radiogenic and stable isotopes of magmatic rocks are commonly used to trace back the source of intrusions or to quantify mixing of magmas from different sources with distinct isotopic signatures (DePaolo and Wasserburg, 1979; Lesher, 1990; Chappell, 1996). These applications are based on the fundamental requirement that the isotopic signature in the melt reflects that of the bulk source from which it is derived. Different minerals in a protolith may have isotopic compositions of radiogenic isotopes that deviate from their whole rock signature (Ayres and Harris, 1997; Knesel and Davidson, 2002). In particular, old minerals with a distinct parent-to-daughter (P/D) ratio are expected to have a specific radiogenic isotope signature. As the partial melting reaction only involves selective phases in a protolith, the isotopic signature of the melt reflects that of the minerals involved in the melting reaction and, therefore, should be different from the bulk source signature. Similar considerations hold true for stable isotopes. N2 - Partielle Schmelzbildung ist ein zentraler Prozess für die geochemische Differentiation der Erdkruste (Vielzeuf et al., 1990). Die Umverteilung chemischer Elemente während der Schmelzbildung beeinflusst die Zusammensetzung der oberen und unteren Erdkruste entscheidend und stellt einen Mechanismus zur Konzentration und zum Transport chemischer Elemente dar. Das Verständnis der diversen Prozesse und der kontrollierenden Faktoren ist deshalb nicht nur von wissenschaftlichem Interesse sondern auch von ökonomischer Bedeutung um die Nachfrage für seltene Metalle zu decken. Die Umverteilung von Haupt- und Spurenelementen während des partiellen Aufschmelzens ist ein entscheidender Schritt für das Verständnis wie sich granitgebundene Lagerstätten bilden (Hedenquist and Lowenstern, 1994). Die Schmelzbildung und die Mobilisierung von Erz-Elementen (z. B. Sn, W, Nb, Ta) in die Schmelze hängt von der Zusammensetzung der sedimentären Ausgangsgesteine und den Schmelzbedingungen ab. Verschiedene Ausgangsgesteine haben aufgrund ihrer Ablagerungs- und Verwitterungsgeschichte unterschiedliche Zusammensetzungen. Dieses spezifische geochemische „Gedächtnis“ resultiert in unterschiedlichen Mineralparagenesen und Schmelzreaktionen in verschiedenen Ausgangsgesteinen während der prograden Metamorphose. (Brown and Fyfe, 1970; Thompson, 1982; Vielzeuf and Holloway, 1988). Diese Faktoren haben nicht nur einen wichtigen Einfluss auf die Verteilung chemischer Elemente während der Schmelzbildung, sie beeinflussen auch das Volumen an Schmelze, die Extraktion der Schmelze aus dem Ausgangsgestein und deren Aufstieg durch die Erdkruste (Le Breton and Thompson, 1988). Auf einer grösseren Skala unterliegen die Verteilung der Ausgangsgesteine und deren chemische Alteration (Verwitterung), die prograde Metamorphose mit partieller Schmelzbildung, Schmelzextraktion und die Platznahme granitischer Intrusionen einer plattentektonischen Kontrolle. Das Verständnis der einzelnen Schritte und deren Wechselwirkungen ist entscheidend um zu verstehen wie granitgebunden Lagerstätten entstehen und erlaubt es, das Mineralisierungspotential bestimmter Gebiete abzuschätzen. Partielles Aufschmelzen beeinflusst auch die Isotopensystematik der Schmelze und des Restites. Die Zusammensetzungen radiogener und stabiler Isotopen von magmatischen Gesteinen werden im Allgemeinen dazu verwendet um deren Ursprungsgesteine zu identifizieren oder um Mischungsprozesses von Magmen unterschiedlichen Ursprunges zu quantifizieren (DePaolo and Wasserburg, 1979; Lesher, 1990; Chappell, 1996). Diese Anwendungen basieren auf der fundamentalen Annahme, dass die Isotopenzusammensetzung der Schmelze derjenigen des Ausgangsgesteines entspricht. Unterschiedliche Minerale in einem Gestein können unterschiedliche, vom Gesamtgestein abweichende, Isotopenzusammensetzungen haben (Ayres and Harris, 1997; Knesel and Davidson, 2002). Insbesondere für alte Minerale, mit einem unterschiedlichen Mutter-Tochter Nuklidverhältnis, ist eine spezifische Isotopenzusammensetzung zu erwarten. Da im partiellen Schmelzprozess nur bestimmte Minerale eines Gesteines involviert sind, entspricht die Isotopenzusammensetzung der Schmelze derjenigen der Minerale welche an der Schmelzreaktion teilnehmen. Daher sollte die Isotopenzusammensetzung der Schmelze von derjenigen des Ursprungsgesteines abweichen. Ähnliche Überlegungen treffen auch für stabile Isotopen zu. KW - geochemistry KW - trace elements KW - radiogenic isotopes KW - stable isotopes KW - resources KW - Sn Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-423702 ER - TY - JOUR A1 - Schneider, Simon A1 - Heinecke, Liv T1 - The need to transform Science Communication from being multi-cultural via cross-cultural to intercultural JF - Advances in Geosciences N2 - When dealing with issues that are of high societal relevance, Earth sciences still face a lack of acceptance, which is partly rooted in insufficient communication strategies on the individual and local community level. To increase the efficiency of communication routines, science has to transform its outreach concepts to become more aware of individual needs and demands. The “encoding/decoding” concept as well as critical intercultural communication studies can offer pivotal approaches for this transformation. Y1 - 2019 U6 - https://doi.org/10.5194/adgeo-46-11-2019 SN - 1680-7359 IS - 46 SP - 11 EP - 19 PB - Copernicus Publications CY - Göttingen ER - TY - THES A1 - Herrmann, Johannes T1 - The mechanical behavior of shales T1 - Das mechanische Verhalten von Schiefergesteinen N2 - The thesis comprises three experimental studies, which were carried out to unravel the short- as well as the long-term mechanical properties of shale rocks. Short-term mechanical properties such as compressive strength and Young’s modulus were taken from recorded stress-strain curves of constant strain rate tests. Long-term mechanical properties are represented by the time– dependent creep behavior of shales. This was obtained from constant stress experiments, where the test duration ranged from a couple minutes up to two weeks. A profound knowledge of the mechanical behavior of shales is crucial to reliably estimate the potential of a shale reservoir for an economical and sustainable extraction of hydrocarbons (HC). In addition, healing of clay-rich forming cap rocks involving creep and compaction is important for underground storage of carbon dioxide and nuclear waste. Chapter 1 introduces general aspects of the research topic at hand and highlights the motivation for conducting this study. At present, a shift from energy recovered from conventional resources e.g., coal towards energy provided by renewable resources such as wind or water is a big challenge. Gas recovered from unconventional reservoirs (shale plays) is considered a potential bridge technology. In Chapter 2, short-term mechanical properties of two European mature shale rocks are presented, which were determined from constant strain rate experiments performed at ambient and in situ deformation conditions (confining pressure, pc ≤ 100 MPa, temperature, T ≤ 125 °C, representing pc, T - conditions at < 4 km depth) using a Paterson– type gas deformation apparatus. The investigated shales were mainly from drill core material of Posidonia (Germany) shale and weathered material of Bowland (United Kingdom) shale. The results are compared with mechanical properties of North American shales. Triaxial compression tests performed perpendicular to bedding revealed semibrittle deformation behavior of Posidonia shale with pronounced inelastic deformation. This is in contrast to Bowland shale samples that deformed brittle and displayed predominantly elastic deformation. The static Young’s modulus, E, and triaxial compressive strength, σTCS, determined from recorded stress-strain curves strongly depended on the applied confining pressure and sample composition, whereas the influence of temperature and strain rate on E and σTCS was minor. Shales with larger amounts of weak minerals (clay, mica, total organic carbon) yielded decreasing E and σTCS. This may be related to a shift from deformation supported by a load-bearing framework of hard phases (e.g., quartz) towards deformation of interconnected weak minerals, particularly for higher fractions of about 25 – 30 vol% weak phases. Comparing mechanical properties determined at reservoir conditions with mechanical data applying effective medium theories revealed that E and σTCS of Posidonia and Bowland shale are close to the lower (Reuss) bound. Brittleness B is often quoted as a measure indicating the response of a shale formation to stimulation and economic production. The brittleness, B, of Posidonia and Bowland shale, estimated from E, is in good agreement with the experimental results. This correlation may be useful to predict B from sonic logs, from which the (dynamic) Young’s modulus can be retrieved. Chapter 3 presents a study of the long-term creep properties of an immature Posidonia shale. Constant stress experiments (σ = const.) were performed at elevated confining pressures (pc = 50 – 200 MPa) and temperatures (T = 50 – 200 °C) to simulate reservoir pc, T - conditions. The Posidonia shale samples were acquired from a quarry in South Germany. At stresses below ≈ 84 % compressive strength of Posidonia shale, at high temperature and low confining pressure, samples showed pronounced transient (primary) creep with high deformation rates in the semibrittle regime. Sample deformation was mainly accommodated by creep of weak sample constituents and pore space reduction. An empirical power law relation between strain and time, which also accounts for the influence of pc, T and σ on creep strain was formulated to describe the primary creep phase. Extrapolation of the results to a creep period of several years, which is the typical time interval for a large production decline, suggest that fracture closure is unlikely at low stresses. At high stresses as expected for example at the contact between the fracture surfaces and proppants added during stimulation measures, subcritical crack growth may lead to secondary and tertiary creep. An empirical power law is suggested to describe secondary creep of shale rocks as a function of stress, pressure and temperature. The predicted closure rates agree with typical production decline curves recorded during the extraction of hydrocarbons. At the investigated conditions, the creep behavior of Posidonia shale was found to correlate with brittleness, calculated from sample composition. In Chapter 4 the creep properties of mature Posidonia and Bowland shales are presented. The observed long-term creep behavior is compared to the short-term behavior determined in Chapter 2. Creep experiments were performed at simulated reservoir conditions of pc = 50 – 115 MPa and T = 75 – 150 °C. Similar to the mechanical response of immature Posidonia shale samples investigated in Chapter 3, creep strain rates of mature Bowland and Posidonia shales were enhanced with increasing stress and temperature and decreasing confining pressures. Depending on applied deformation conditions, samples displayed either only a primary (decelerating) or in addition also a secondary (quasi-steady state) and subsequently a tertiary (accelerating) creep phase before failure. At the same deformation conditions, creep strain of Posidonia shale, which is rich in weak constituents, is tremendously higher than of quartz-rich Bowland shale. Typically, primary creep strain is again mostly accommodated by deformation of weak minerals and local pore space reduction. At the onset of tertiary creep most of the deformation was accommodated by micro crack growth. A power law was used to characterize the primary creep phase of Posidonia and Bowland shale. Primary creep strain of shale rocks is inversely correlated to triaxial compressive strength and brittleness, as described in Chapter 2. Chapter 5 provides a synthesis of the experimental findings and summarizes the major results of the studies presented in Chapters 2 – 4 and potential applications in the Exploration & Production industry. Chapter 6 gives a brief outlook on potential future experimental research that would help to further improve our understanding of processes leading to fracture closure involving proppant embedment in unconventional shale gas reservoirs. Such insights may allow to improve stimulation techniques aimed at maintaining economical extraction of hydrocarbons over several years. N2 - Die vorliegende Dissertation befasst sich mit drei separaten, experimentellen Studien, die durchgeführt wurden, um die mechanischen Eigenschaften, wie Druckfestigkeit, Elastizitätsmodul und Langzeit-Kriecheigenschaften von Schiefergesteinen zu untersuchen. Dabei wurden die aufgezeichneten Spannungs-Verformungskurven von kurzzeitigen (wenige Minuten) Deformationsexperimenten bei konstanter Verformungsrate genutzt, um mechanische Druckfestigkeit und elastische Parameter zu bestimmen. Um die zeitabhängigen Kriecheigenschaften zu charakterisieren, wurden Deformationstests bei konstanter Spannung durchgeführt. Hier variierte die Testdauer zwischen wenigen Minuten und zwei Wochen. Ein verbesserter Kenntnisstand auf diesem Gebiet ist notwendig, um das Potential eines unkonventionellen Schiefergesteinsreservoirs im Hinblick auf eine wirtschaftliche und nachhaltige Förderung von Kohlenwasserstoffen zuverlässig abzuschätzen. Im ersten Kapitel wird eine allgemeine Einleitung in das Thema der Dissertation gegeben, wobei im Besonderen auf die Motivation für die vorliegende Studie eingegangen wird. Die Einleitung fokussiert sich dabei auf die aktuell vorherrschende Herausforderung, die Energieversorgung durch konventionelle Ressourcen, wie beispielsweise Kohle, durch regenerative Ressourcen, wie z.B. Wind oder Wasser, zu ersetzen. Üblicherweise wird der Energiezeugung aus unkonventionell gewonnenem Erdgas dabei die Rolle einer Brückentechnologie zugewiesen. Die Motivation zur Durchführung dieser Arbeit ist es, das mechanische Verhalten von Gasschiefern zu untersuchen, die auch in Europa einen substantiellen Beitrag zur Gasförderung liefern können. In Kapitel 2 werden die Ergebnisse von Experimenten dargestellt, die exemplarisch auf die Bestimmung der Druckfestigkeit und des Elastizitätsmoduls von zwei reifen, europäischen Schiefergesteinen abzielen. Dazu wurden in einer Gasdruckapparatur Deformationsexperimente an Proben durchgeführt die senkrecht zur Schichtung orientiert entnommen wurden. Die Versuche wurden bei konstanter Verformungsrate und bei nachgestellten in situ Umgebungsbedingungen bis etwa 4 km Tiefe durchgeführt (Manteldruck, pc ≤ 100 MPa, Temperatur, T ≤ 125 °C). Die untersuchten Schieferproben stammen hauptsächlich aus Kernmaterial von erbohrtem Posidonienschiefer aus Niedersachsen und aus englischen Bowlandschiefer, das aus natürlichen Aufschlüssen gewonnen wurde. Zusätzlich wurden einige nordamerikanische Schieferproben zum Vergleich untersucht. Die triaxialen Kompressionstests zeigen ein semi-sprödes Deformationsverhalten mit ausgeprägter inelastischer Verformung des untersuchten Posidonienschiefers, wohingegen sich Bowlandschiefer spröde und bis zum Bruch vorzugsweise elastisch verformt. Der Elastizitätsmodul, E, und die Druckfestigkeit, σTCS, weisen bei erhöhten Drücken und Temperaturen eine starke Abhängigkeit vom Manteldruck und der Gesteinsmineralogie auf. Der Einfluss von Temperatur und Verformungsrate auf E und σTCS ist dagegen vernachlässigbar. Mit ansteigendem Anteil an mechanisch weichen Mineralphasen, z.B. Ton, Glimmer und organisch gebundenem Kohlenstoff, nehmen E und σTCS der untersuchten Schiefergesteine ab. Dies ist durch eine verändertes Verformungsverhalten begründet, das von der Deformation eines lasttragenden Gerüstes aus mechanisch festen Mineralen, wie beispielsweise Quarz, bis zu einer Verformung von miteinander verbundenen mechanisch weichen Mineralen reicht. Der Übergang wurde ab einem Volumenanteil von etwa 25 – 30 vol% weicher Mineralphasen beobachtet. Beim Vergleich der experimentell ermittelten mechanischen Eigenschaften (E, σTCS) mit Vorhersagen, in denen die Zusammensetzung der Schiefer berücksichtigt wird (effective medium theories, Voigt-Reuss Grenzen) ist erkennbar, dass E und σTCS nahe an der unteren (Reuss) Grenze liegen. Die aus dem Elastizitätsmodul berechnete Sprödfestigkeit (brittleness, B) von Posidonien- und Bowlandschiefer stimmt gut mit dem gemessenen Spannungs-Verformungsverhalten überein. Die Sprödfestigkeit eines Gesteins wird oft als Indiz zur Abschätzung des möglichen Erfolges von Stimulationsmaßnahmen betrachtet. Daher ist der Zusammenhang zwischen elastischen Eigenschaften, die sich mit Ultraschallmessungen (sonic-log) in Bohrungen abschätzen lassen und dem mechanischen Verhalten von Gasschiefern für eine schnelle und kostengünstige Beurteilung wichtig. Im dritten Kapitel werden die Langzeit-Kriecheigenschaften von Schiefergesteinen untersucht. Dafür wurden Deformationsexperimente bei konstanter Spannung (σ = konst.) und erhöhten Umlagerungsdrücken (pc = 50 – 200 MPa) und Temperaturen (T = 50 – 200 °C) an einem unreifen Posidonienschiefer, welcher in einem aktiven Steinbruch in Süddeutschland gewonnen wurde, durchgeführt. Bei Spannungen unterhalb ≈ 84 % der Druckfestigkeit des Schiefers und hohen Temperaturen und niedrigen Manteldrücken zeigen die deformierten Schieferproben transientes (primäres) Kriechen im semi-spröden Regime mit relativ hohen Verformungsraten. Der größte Teil der Deformation wird dabei durch die Verformung von mechanisch weichen Mineralphasen und Porenraumreduktion aufgenommen. Ein empirisches Potenzgesetz wurde aufgestellt, um die zeitabhängige primäre Kriechphase in Abhängigkeit von Manteldruck, Temperatur und Spannung zu charakterisieren. Dabei wurde festgestellt, dass ein mögliches Rissschließen über einen typischen Zeitraum von wenigen Jahren bei der Annahme von ausschließlich primären Kriechen unwahrscheinlich ist. Typischerweise entstehen an den Kotaktflächen zwischen hydraulisch stimulierten Rissen innerhalb der Schieferformation und dem Stützmittel, welches dem Stimulationsfluid hinzugefügt wird, um offene Risse aufrecht zu erhalten, hohe Differentialspannungen. Dadurch kann zusätzliches (subkritisches) Risswachstum initiiert werden, welches bei den untersuchten Proben unter hoher Differentialspannung zusätzlich zum primären auch zum sekundären und tertiären Kriechen bis zum Versagen der Probe führte. Bei Verwendung eines empirischen Potenzgesetzes zur Beschreibung der sekundären Kriechphase kann eine, im Vergleich zur primären Kriechregime, substanziell höhere Rissschließungsrate abgeschätzt werden. Diese erscheint wesentlich zuverlässiger, da sie mit den Zeiträumen typische gemessener Produktionsrückgänge einer Bohrung übereinstimmt. Zusätzlich wurde eine inverse Korrelation zwischen gemessener Verformung und Sprödigkeit, basierend auf der Schiefermineralogie, festgestellt. In Kapitel 4 werden weiterführende Untersuchungen vorgestellt, in dem die Kriecheigenschaften von reifem Posidonien-und Bowlandschiefer gemessen und mit den mechanischen Eigenschaften, bestimmt in Kurzzeit-Deformationsversuchen bei konstanter Verformungsrate (Kapitel 2) verglichen werden. Dafür wurden Kriechversuche an Posidonien- und Bowlandschiefermaterial, wie in Kapitel 2 beschrieben, bei simulierten Reservoirdrücken und -temperaturen durchgeführt (pc = 50 – 115 MPa, T = 75 – 150 °C). Auch für diese Schiefergesteine wurde eine erhöhte Verformung bei erhöhten Spannungen und Temperaturen und niedrigen Manteldrücken gemessen. In Abhängigkeit von den vorherrschenden Deformationsbedingungen wiesen die Proben beider Schiefergesteine entweder nur eine primäre oder zusätzlichen zur primären auch eine sekundäre und tertiäre Kriechphase auf. Bei gleichem Umlagerungsdruck und gleicher Temperatur erwies sich der tonreiche Posidonienschiefer als deutlich weniger fest als der quarzreiche Bowlandschiefer. Während der Großteil der Deformation in der primären Kriechphase durch die Verformung von weichen Mineralen und Porenraumreduktion aufgefangen wurde, ist eine Mikrorissbildung bezeichnend für das tertiäre Kriechen. Um das primäre Kriechverhalten der unterschiedlichen Schiefergesteine zu charakterisieren, wurde auch hier ein Potenzgesetz genutzt, welches einen Vergleich mit den Kriecheigenschaften anderer Schiefergesteinen erlaubt. Die gewonnenen Ergebnisse zeigen eine deutliche inverse Korrelation zwischen primärer Verformung und der gemessenen Druckfestigkeit und der berechneten Sprödigkeit. Dies ermöglicht es die Langzeit-Kriecheigenschaften von Schiefergesteinen mit den, aus einem Kurzzeittest gemessenen, mechanischen Eigenschaften grob abzuschätzen, solange die angenommen Zeitintervalle zwischen zwei Stimulationsoperationen in dem in der Praxis typischen Zeitintervall von einigen Jahren liegt. Im fünften Kapitel werden die erzielten Ergebnisse nochmals im Zusammenhang dargestellt. Hier wird im Besonderen auf eine potentielle Anwendung der Ergebnisse in der E & P - Industrie eingegangen. Abschließend wird im sechsten Kapitel auf mögliche Experimente eingegangen, die zukünftig durchgeführt werden könnten, um unser Verständnis in Bezug auf die spannungsinduzierte Rissschließung in Schieferlagerstätten durch die Einbettung der Stützmittel in die Formation zu verbessern. Diese Erkenntnisse wären wiederum hilfreich, um eine ökonomische und nachhaltige Förderung von Kohlenwasserstoffen von stimulierten Bohrungen zu gewährleisten, die in unkonventionelle Lagerstätten abgeteuft wurden. KW - strength KW - Young's modulus KW - creep properties KW - Festigkeit KW - Elastizitätsmodul KW - Kriecheigenschaften Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-429683 ER - TY - JOUR A1 - Kornher, Lukas A1 - Kalkuhl, Matthias T1 - The gains of coordination - When does regional cooperation for food security make sense? JF - Global Food Security - AGRICULTURE POLICY ECONOMICS AND ENVIRONMENT N2 - With the onset of the global food crisis, the discussion about the use and misuse of agricultural market interventions regained academic attention. As a result of economies of scale, centralized policy implementation at the regional level has the potential to reduce the budgetary costs of policies. Borrowing from the literature on international unions and international policy coordination, we develop a conceptual framework to analyze when regional policy implementation makes sense. This is the case whenever spill-overs from centralization are large and policy preferences, driven by country-specific characteristics, are homogeneous. Subsequently, we examine the advantageousness of centralized policy implementation for the West African region regarding the most common food security policies. We show that centralization of trade policies and emergency food reserves is beneficial, while buffer stocks, safety net policies, and producer support policies should be implemented at the national level. KW - Food security KW - Regional cooperation KW - West Africa KW - International unions Y1 - 2019 U6 - https://doi.org/10.1016/j.gfs.2019.09.004 SN - 2211-9124 VL - 22 SP - 37 EP - 45 PB - Elsevier CY - Amsterdam ER - TY - THES A1 - Caesar, Levke T1 - The evolution of the Atlantic Meridional Overturning Circulation and its implications for surface warming N2 - The Atlantic Meridional Overturning Circulation (AMOC) is likely the most well-known system of ocean currents on Earth, redistributing heat, nutrients and carbon over a large part of the Earth’s surface and affecting global climate as a result. Due to enhanced freshwater fluxes into the subpolar North Atlantic as a response to global warming, the AMOC is expected, and may have already started, to weaken and these changes will likely have global impacts. It is therefore of considerable relevance to improve our understanding of past and future AMOC changes. My thesis tries to answer some of the open questions in this field by giving strong evidence that the AMOC has already weakened over the last century, by narrowing future projections of this slowdown and by studying the impacts on global surface warming. While there have been various studies trying to reconstruct the strength of the overturning circulation in the past, often based on model simulations in combination with observations (Jackson et al., 2016, Kanzow et al., 2010) or proxies (Frajka-Williams, 2015, Latif et al., 2006), the results so far, due to lack of direct measurements, have been inconclusive. In the first paper I build on previous work that links the anomalously low sea surface temperatures (SSTs) in the North Atlantic with the reduced meridional heat transport due to a weaker AMOC. Using the output of a high-resolution global climate model, I derive a characteristic spatial and seasonal SST fingerprint of an AMOC slowdown and an improved SST-based AMOC index. The same fingerprint is seen in the observational SSTs since the late 19th Century, giving strong evidence that since then the AMOC has slowed down. In addition, the reconstruction of the historical overturning strength with the new AMOC index agrees well with and extends the results of earlier studies as well as the direct measurements from the RAPID project and shows a strong decline of the AMOC by about 15% (3±1 Sv) since the mid-20th Century (Caesar et al., 2018). The reconstruction of the historical overturning strength with the AMOC index enables us to weight future AMOC projections based on their skill in modeling the historical AMOC as described in the second paper of this thesis (Olson et al., 2018). Using Bayesian model averaging we considerably narrow the projections of the CMIP5 ensemble to a decrease of -4.0 Sv and -6.8 Sv between the years 1960-1999 and 2060-2099 for the RCP4.5 and RCP8.5 emission scenarios, respectively. These values fit to, yet are at the lower end of, previously published estimates. In the third paper I examine how the AMOC slowdown affects the global mean surface temperature (GMST) with a focus on how it will change the ocean heat uptake (OHC). Accounting for the effect of changes in the radiative forcing on the GMST, I test how AMOC variations correlate with the residual part of surface temperature changes in the past. I find that the correlation is positive which fits the understanding that the deep-water formation that is important in driving the AMOC cools the deep ocean and therefore warms the surface (Caesar et al., 2019). The future weakening of the overturning circulation could therefore delay global surface warming. Due to nonlinear behavior and scale specific changes it can be difficult to study the dominant processes and modes that drive climate variability. In the fourth paper we develop and test a new technique based on the wavelet multiscale correlation (WMC) similarity measure to study climate variability on different temporal and spatial scales (Agarwal et al., 2018). In a fifth contribution to my thesis this method is applied to the observed sea surface temperatures. The results reconfirm well-known relations between SST anomalies such as the El Niño-Southern Oscillation (ENSO) and the Pacific Decadal Oscillation (PDO) on inter-annual and decadal timescales, respectively. They furthermore give new insights into the characteristics and origins of long-range teleconnections, for example, that the teleconnection between ENSO and Indian Ocean dipole exist mainly between the northern part of the ENSO tongue and the equatorial Indian Ocean, and provides therefore valuable knowledge about the regions that are necessary to include when modeling regional climate variability at a certain scale (Agarwal et al., 2019). In summary, my PhD thesis investigates past and future AMOC variability and its effects on global mean surface temperature by utilizing a combination of observational sea surface data and the output of historical and future climate model simulations from both the high-resolution CM2.6 model as well as the CMIP5 ensemble. It further includes the development and validation of a new method to study climate variability, that, applied to the observed sea surface temperatures, gives new insight about teleconnections in the Earth System. My findings provide evidence that the AMOC has already slowed down, will continue to do so in the future, and will impact the global mean temperature. Further impacts of an AMOC slowdown may include increased sea-level rise at the U.S. east coast (Ezer, 2015), heat extremes in Europe (Duchez et al., 2016) and increased storm activity in the North Atlantic region (Jackson et al., 2015), all of which have significant socio-economic implications. KW - Climate Change KW - Ocean Circulation KW - AMOC Y1 - 2019 CY - Potsdam ER - TY - JOUR A1 - Lopez, Jose P. A1 - Altenberger, Uwe A1 - Bellos, Laura I. A1 - Günter, Christina T1 - The Cumbres Calchaquies Range (NW-Argentina) BT - Geochemical sedimentary provenance, tectonic setting and metamorphic evolution of a Neoproterozoic sedimentary basin JF - Journal of South American earth sciences N2 - The Cumbres Calchaquies Range forms part of the Famatinian metamorphic basement of the Eastern Sierras Pampeanas. The sedimentary protoliths of the metamorphic sequence were deposited in a marine basin alongside the western margin of Gondwana during the Neoproterozoic. New petrologic, geochemical and thermobarometric data give insight into the evolution of the sedimentary basin, its sediment source area, its later metamorphic overprint and its regional relationship to other parts of the Famatinian basement. The metamorphic series studied here consists of banded schists and gneisses and rare calcsilcate-rocks and migmatites that have been reworked by mid-to deep-crustal metamorphic and tectonic processes. The bulk rock compositions indicate shale, wacke, marl and litharenitic protoliths. The metamorphosed elastic sediments have major and trace element compositions indicating a continental granitoid-dominated source area with low sediment recycling. Low SiO2/Al2O3 ratios suggest a relatively low maturity of the sedimentary protoliths. Therefore, the Cumbres Calchaquies section represents a sequence of turbidity currents with progressive shallowing of the depositional environment, as indicated by quartz- and carbonate-rich sediments. The overall data are consistent with the geodynamic environment of a basin adjacent to a continental magmatic arc as the most probable scenario. Whereas the sedimentary protoliths of the metamorphic basement in the Sierra de Ancasti and Sierra de Aconquija, located ca 100-300 km south of the study area are interpreted as originating in an evolving back-arc basin, our results from the Cumbres Calchaquies region indicate a sedimentary source in a felsic continental arc with no significant influx of basic rocks. The Famatinian metamorphic evolution of the Cumbres Calchaquies rocks is of typical Barrow-type, culminating in partial melting of the metasediments. Conventional thermobarometry combined with thermodynamic models (pseudosections) reveal a prograde evolution reaching peak conditions of ca 665 degrees C/6.1 Kbar. This implies a geothermal gradient of ca 35 degrees C/km, which is slightly higher than the average for continental crust and suggests a period of crustal thinning, as known from back-arc basins, or additional heat supply by voluminous intrusions. KW - NW Argentina KW - Eastern Sierras Pampeanas KW - Cumbres Calchaquies KW - Geothermobarometry KW - Geochemistry KW - Metamorphic evolution KW - Provenance studies Y1 - 2019 U6 - https://doi.org/10.1016/j.jsames.2019.03.016 SN - 0895-9811 VL - 93 SP - 480 EP - 494 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Hovi, Jon A1 - Sprinz, Detlef F. A1 - Saelen, Håkon A1 - Underdal, Arild T1 - The Club Approach: A Gateway to Effective Climate Co-operation? JF - British Journal of Political Science N2 - Although the Paris Agreement arguably made some progress, interest in supplementary approaches to climate change co-operation persist. This article examines the conditions under which a climate club might emerge and grow. Using agent-based simulations, it shows that even with less than a handful of major actors as initial members, a club can eventually reduce global emissions effectively. To succeed, a club must be initiated by the ‘right’ constellation of enthusiastic actors, offer sufficiently large incentives for reluctant countries and be reasonably unconstrained by conflicts between members over issues beyond climate change. A climate club is particularly likely to persist and grow if initiated by the United States and the European Union. The combination of club-good benefits and conditional commitments can produce broad participation under many conditions. KW - UNFCCC KW - climate change co-operation KW - climate clubs KW - club goods KW - conditional commitments KW - agent-based models Y1 - 2019 U6 - https://doi.org/10.1017/S0007123416000788 SN - 0007-1234 SN - 1469-2112 VL - 49 IS - 3 SP - 1071 EP - 1096 PB - Cambridge University Press CY - New York ER - TY - JOUR A1 - Greene, Chad A. A1 - Thirumalai, Kaustubh A1 - Kearney, Kelly A. A1 - Delgado, Jose Miguel Martins A1 - Schwanghart, Wolfgang A1 - Wolfenbarger, Natalie S. A1 - Thyng, Kristen M. A1 - Gwyther, David E. A1 - Gardner, Alex S. A1 - Blankenship, Donald D. T1 - The Climate Data Toolbox for MATLAB JF - Geochemistry, geophysics, geosystems N2 - Climate science is highly interdisciplinary by nature, so understanding interactions between Earth processes inherently warrants the use of analytical software that can operate across the disciplines of Earth science. Toward this end, we present the Climate Data Toolbox for MATLAB, which contains more than 100 functions that span the major climate-related disciplines of Earth science. The toolbox enables streamlined, entirely scriptable workflows that are intuitive to write and easy to share. Included are functions to evaluate uncertainty, perform matrix operations, calculate climate indices, and generate common data displays. Documentation is presented pedagogically, with thorough explanations of how each function works and tutorials showing how the toolbox can be used to replicate results of published studies. As a well-tested, well-documented platform for interdisciplinary collaborations, the Climate Data Toolbox for MATLAB aims to reduce time spent writing low-level code, let researchers focus on physics rather than coding and encourage more efficacious code sharing. Plain Language Summary This article describes a collection of computer code that has recently been released to help scientists analyze many types of Earth science data. The code in this toolbox makes it easy to investigate things like global warming, El Nino, or other major climate-related processes such as how winds affect ocean circulation. Although the toolbox was designed to be used by expert climate scientists, its instruction manual is well written, and beginners may be able to learn a great deal about coding and Earth science, simply by following along with the provided examples. The toolbox is intended to help scientists save time, help them ensure their analysis is accurate, and make it easy for other scientists to repeat the results of previous studies. Y1 - 2019 U6 - https://doi.org/10.1029/2019GC008392 SN - 1525-2027 VL - 20 IS - 7 SP - 3774 EP - 3781 PB - American Geophysical Union CY - Washington ER - TY - THES A1 - Coch, Caroline T1 - The changing Arctic freshwater system BT - the biogeochemistry of small Arctic coastal catchments Y1 - 2019 ER - TY - JOUR A1 - Trumbull, Robert B. A1 - Sudo, Masafumi A1 - Harris, C. A1 - Armstrong, R. A. A1 - de Beer, C. H. T1 - The age of the Koegel Fontein anorogenic complex, South Africa, and its relationship to the regional timing of magmatism and breakup along the South Atlantic rifted margin JF - South African Journal of Geology N2 - The early Cretaceous Koegel Fontein intrusive complex is situated near the Atlantic coast in South Africa, about 350 km northwest of Cape Town. The complex comprises felsic units of granite and syenite with compositionally related dykes, and a single intrusive plug of diorite. Existing zircon U-Pb ages of 144 +/- 2 Ma for the syenite and 133.9 +/- 1.3 Ma for the granite suggest that the emplacement of the complex took place over a period of about 10 My. This study provides additional and independent ages of the Koegel Fontein complex by Ar-40/Ar-39 dating to confirm the onset and duration of magmatism and better define the sequence of igneous units that comprise it. New laser step-heating Ar-40/Ar-3(9) ages on plagioclase and biotite from the main intrusive units in the complex are presented here, including samples previously dated by U-Pb dating. The Ar-40/Ar-39 ages for the granite and syenite units (131.1 +/- 0.9 Ma and 143.3 +/- 0.9, respectively) are in good agreement with the zircon U-Pb ages. Other units not previously dated include the Rooivleitjie alkaline granite (150.7 +/- 0.6 Ma), two quartz-porphyry dykes (143.0 +/- 0.9 and 139.4 +/- 1.7 Ma) and the Zout Rivier diorite plug (133.0 +/- 1.0 Ma). The new results confirm an early onset of magmatism at Koegel Fontein relative to that of the Etendeka Province some 1000 km to the north, which is consistent with the regional south-to-north propagation of South Atlantic rifting. The youngest Ar-40/Ar-3(9) ages at Koegel Fontein (134 to 131 Ma, Rietpoort Granite and 133 Ma, Zout Rivier diorite) correspond to the age of the first magnetic seafloor-spreading anomaly offshore, and we suggest that the longevity of Koegel Fontein magmatism relates to a superposition of pre-drift magmatism onshore and spreading-related magmatism as continental separation began. Y1 - 2019 U6 - https://doi.org/10.25131/sajg.122.0007 SN - 1012-0750 SN - 1996-8590 VL - 122 IS - 1 SP - 69 EP - 78 PB - Geological Society of South Africa CY - Marshalltown ER - TY - GEN A1 - Geissman, John A1 - Jolivet, Laurent A1 - Rusmore, Margi A1 - Niemi, Nathan A1 - Schildgen, Taylor F. T1 - Thank you to our 2018 peer reviewers T2 - Tectonics N2 - An essential, respected, and critical aspect of the modern practice of science and scientific publishing is peer review. The process of peer review facilitates best practices in scientific conduct and communication, ensuring that manuscripts published are as accurate, valuable, and clearly communicated. The over 216 papers published in Tectonics in 2018 benefit from the time, effort, and expertise of our reviewers who have provided thoughtfully considered advice on each manuscript. This role is critical to advancing our understanding of the evolution of the continents and their margins, as these reviews lead to even clearer and higher-quality papers. In 2018, the over 443 papers submitted to Tectonics were the beneficiaries of more than 1,010 reviews provided by 668 members of the tectonics community and related disciplines. To everyone who has volunteered their time and intellect to peer reviewing, thank you for helping Tectonics and all other AGU Publications provide the best science possible. Y1 - 2019 U6 - https://doi.org/10.1029/2019TC005595 SN - 0278-7407 SN - 1944-9194 VL - 38 IS - 4 SP - 1159 EP - 1163 PB - Hoboken CY - Wiley ER - TY - JOUR A1 - Zhu, Chuanbin A1 - Cotton, Fabrice A1 - Pilz, Marco T1 - Testing the Depths to 1.0 and 2.5 km/s Velocity Isosurfaces in a Velocity Model for Japan and Implications for Ground-Motion Modeling JF - Bulletin of the Seismological Society of America N2 - In the Next Generation Attenuation West2 (NGA-West2) project, a 3D subsurface structure model (Japan Seismic Hazard Information Station [J-SHIS]) was queried to establish depths to 1.0 and 2.5 km/s velocity isosurfaces for sites without depth measurement in Japan. In this article, we evaluate the depth parameters in the J-SHIS velocity model by comparing them with their corresponding site-specific depth measurements derived from selected KiK-net velocity profiles. The comparison indicates that the J-SHIS model underestimates site depths at shallow sites and overestimates depths at deep sites. Similar issues were also identified in the southern California basin model. Our results also show that these underestimations and over-estimations have a potentially significant impact on ground-motion prediction using NGA-West2 ground-motion models (GMMs). Site resonant period may be considered as an alternative to depth parameter in the site term of a GMM. Y1 - 2019 U6 - https://doi.org/10.1785/0120190016 SN - 0037-1106 SN - 1943-3573 VL - 109 IS - 6 SP - 2710 EP - 2721 PB - Seismological Society of America CY - Albany ER - TY - JOUR A1 - Jara Muñoz, Julius A1 - Melnick, Daniel A1 - Pedoja, Kevin A1 - Strecker, Manfred T1 - TerraceM-2: A MatlabR (R) Interface for Mapping and Modeling Marine and Lacustrine Terraces JF - Frontiers in Earth Science N2 - The morphology of marine and lacustrine terraces has been largely used to measure past sea- and lake-level positions and estimate vertical deformation in a wealth of studies focused on climate and tectonic processes. To obtain accurate morphometric assessments of terrace morphology we present TerraceM-2, an improved version of our MatlabR (R) graphic-user interface that provides new methodologies for morphometric analyses as well as landscape evolution and fault-dislocation modeling. The new version includes novel routines to map the elevation and spatial distribution of terraces, to model their formation and evolution, and to estimate fault-slip rates from terrace deformation patterns. TerraceM-2 has significantly improves its processing speed and mapping capabilities, and includes separate functions for developing customized workflows beyond the graphic-user interface. We illustrate these new mapping and modeling capabilities with three examples: mapping lacustrine shorelines in the Dead Sea to estimate deformation across the Dead Sea Fault, landscape evolution modeling to estimate a history of uplift rates in southern Peru, and dislocation modeling of deformed marine terraces in California. These examples also illustrate the need to use topographic data of different resolutions. The new modeling and mapping routines of TerraceM-2 highlight the advantages of an integrated joint mapping and modeling approach to improve the efficiency and precision of coastal terrace metrics in both marine and lacustrine environments. KW - TerraceM KW - marine terraces KW - tectonic geomorphology KW - geomorphic markers KW - LiDAR KW - coastal geomorphology KW - neotectonics KW - morphometry Y1 - 2019 U6 - https://doi.org/10.3389/feart.2019.00255 SN - 2296-6463 VL - 7 PB - Frontiers Research Foundation CY - Lausanne ER - TY - JOUR A1 - Munz, Matthias A1 - Oswald, Sascha A1 - Schaefferling, Robin A1 - Lensing, Hermann Josef T1 - Temperature-dependent redox zonation, nitrate removal and attenuation of organic micropollutants during bank filtration JF - Water research N2 - River bank filtration (RBF) is considered to efficiently remove nitrate and trace organic micropollutants (OMP) from polluted surface waters. This is essential for maintaining good groundwater quality and providing high quality drinking water. Predicting the fate of OMP during RBF is difficult as the biogeochemical factors controlling the removal efficiency are not fully understood. To determine in-situ removal efficiency and degradation rates of nitrate and OMP indicator substances we conducted a field study in a RBF system during a period of one and a half years incorporating temporally and spatially varying redox conditions and temperature changes typically occurring in temperate climates. RBF was analyzed by means of mixing ratios between infiltrated river water and groundwater as well as average residence times of surface water towards the individual groundwater observation wells. These results were used to calculate temperature dependent first order degradation rates of redox sensitive species and several OMP. Five out of ten investigated OMP were completely removed along RBF pathways. We demonstrate that degradation rates of several OMP during bank filtration were controlled by redox conditions and temperature whereby temperature itself also had a significant influence on the extent of the most reactive oxic zone. The seasonal variations in temperature alone could explain a considerable percentage of the variance in dissolved oxygen (34%), nitrate (81%) as well as the OMPs diclofenac (44%) and sulfamethoxazole (76%). Estimated in-situ degradation rates roughly varied within one order of magnitude for temperature changes between 5 degrees C and 20 degrees C. This study highlights that temporal variability in temperature and redox zonation is a significant factor for migration and degradation of nitrate and several OMPs. (C) 2019 Elsevier Ltd. All rights reserved. KW - Pharmaceuticals KW - In-situ degradation rates KW - Denitrification KW - River-groundwater-interaction KW - Urban water cycle Y1 - 2019 U6 - https://doi.org/10.1016/j.watres.2019.06.041 SN - 0043-1354 VL - 162 SP - 225 EP - 235 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Blayney, Tamsin A1 - Dupont-Nivet, Guillaume A1 - Najman, Yani A1 - Proust, Jean-Noel A1 - Meijer, Niels A1 - Roperch, Pierrick A1 - Sobel, Edward A1 - Millar, Ian A1 - Guo, Zhaojie T1 - Tectonic Evolution of the Pamir Recorded in the Western Tarim Basin (China) BT - Sedimentologic and Magnetostratigraphic Analyses of the Aertashi Section JF - Tectonics N2 - The northward indentation of the Pamir salient into the Tarim basin at the western syntaxis of the India-Asia collision zone is the focus of controversial models linking lithospheric to surface and atmospheric processes. Here we report on tectonic events recorded in the most complete and best-dated sedimentary sequences from the western Tarim basin flanking the eastern Pamir (the Aertashi section), based on sedimentologic, provenance, and magnetostratigraphic analyses. Increased tectonic subsidence and a shift from marine to continental fluvio-deltaic deposition at 41Ma indicate that far-field deformation from the south started to affect the Tarim region. A sediment accumulation hiatus from 24.3 to 21.6Ma followed by deposition of proximal conglomerates is linked to fault propagation into the Tarim basin. From 21.6 to 15.0Ma, increasing accumulation rates of fining upward clastics is interpreted as the expression of a major dextral transtensional system linking the Kunlun to the Tian Shan ahead of the northward Pamir indentation. At 15.0Ma, the appearance of North Pamir-sourced conglomerates followed at 11Ma by Central Pamir-sourced volcanics coincides with a shift to E-W compression, clockwise vertical-axis rotations and the onset of growth strata associated with the activation of the local east vergent Qimugen thrust wedge. Together, this enables us to interpret that Pamir indentation into Tarim had started by 24.3Ma, reached the study location by 15.0Ma and had passed it by 11Ma, providing kinematic constraints on proposed tectonic models involving intracontinental subduction and delamination. KW - India-Asia collision KW - Tarim basin KW - Pamir KW - Cenozoic KW - paleomagnetism KW - sedimentology Y1 - 2019 U6 - https://doi.org/10.1029/2018TC005146 SN - 0278-7407 SN - 1944-9194 VL - 38 IS - 2 SP - 492 EP - 515 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Nakaten, Natalie Christine A1 - Kempka, Thomas T1 - Techno-Economic Comparison of Onshore and Offshore Underground Coal Gasification End-Product Competitiveness JF - Energies N2 - Underground coal gasification (UCG) enables utilization of coal reserves, currently not economically exploitable due to complex geological boundary conditions. Hereby, UCG produces a high-calorific synthesis gas that can be used for generation of electricity, fuels, and chemical feedstock. The present study aims to identify economically-competitive, site-specific end-use options for onshore- and offshore-produced UCG synthesis gas, taking into account the capture and storage (CCS) and/or utilization (CCU) of produced CO2. Modeling results show that boundary conditions favoring electricity, methanol, and ammonia production expose low costs for air separation, low compression power requirements, and appropriate shares of H-2/N-2. Hereby, a gasification agent ratio of more than 30% oxygen by volume is not favorable from the economic and CO2 mitigation viewpoints. Compared to the costs of an offshore platform with its technical equipment, offshore drilling costs are marginal. Thus, uncertainties related to parameters influenced by drilling costs are negligible. In summary, techno-economic process modeling results reveal that air-blown gasification scenarios are the most cost-effective ones, while offshore UCG-CCS/CCU scenarios are up to 1.7 times more expensive than the related onshore processes. Hereby, all investigated onshore scenarios except from ammonia production under the assumed worst-case conditions are competitive on the European market. KW - underground coal gasification (UCG) KW - economics KW - cost of electricity (COE) KW - techno-economic model KW - methanol KW - ammonia KW - carbon capture and storage (CCS) KW - carbon capture and utilization (CCU) KW - electricity generation KW - process simulation Y1 - 2019 U6 - https://doi.org/10.3390/en12173252 SN - 1996-1073 VL - 12 IS - 17 PB - MDPI CY - Basel ER - TY - JOUR A1 - Zhelayskaya, Irina S. A1 - Vasile, Ruggero A1 - Shprits, Yuri Y. A1 - Stolle, Claudia A1 - Matzka, Jürgen T1 - Systematic Analysis of Machine Learning and Feature Selection Techniques for Prediction of the Kp Index JF - Space Weather: The International Journal of Research and Applications N2 - The Kp index is a measure of the midlatitude global geomagnetic activity and represents short-term magnetic variations driven by solar wind plasma and interplanetary magnetic field. The Kp index is one of the most widely used indicators for space weather alerts and serves as input to various models, such as for the thermosphere and the radiation belts. It is therefore crucial to predict the Kp index accurately. Previous work in this area has mostly employed artificial neural networks to nowcast Kp, based their inferences on the recent history of Kp and on solar wind measurements at L1. In this study, we systematically test how different machine learning techniques perform on the task of nowcasting and forecasting Kp for prediction horizons of up to 12 hr. Additionally, we investigate different methods of machine learning and information theory for selecting the optimal inputs to a predictive model. We illustrate how these methods can be applied to select the most important inputs to a predictive model of Kp and to significantly reduce input dimensionality. We compare our best performing models based on a reduced set of optimal inputs with the existing models of Kp, using different test intervals, and show how this selection can affect model performance. KW - Kp index KW - Predictive models KW - Feature selection KW - Machine learning KW - Validation Y1 - 2019 U6 - https://doi.org/10.1029/2019SW002271 SN - 1542-7390 VL - 17 IS - 10 SP - 1461 EP - 1486 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Riese, Miriam A1 - Thieken, Annegret A1 - Müggenburg, Eva A1 - Bubeck, Philip T1 - Synergies and barriers of the possible integration of heavy rainfall for the implementation of the European Floods Directive JF - Hydrologie und Wasserbewirtschaftung N2 - The heavy rainfall events in recent years have caused great damage, which has increased the public awareness of the topic of heavy rainfall. For this reason, this article discusses how a systematic integration of heavy rainfall within the framework of the European Floods Directive would be possible and reasonable. For this purpose, a matrix covering possible synergies and barriers was created for all steps of the directive, which were then examined in 15 semi-structured interviews with representatives from specialized administration, the private sector and academia. Although there are some synergies, the additional effort required, especially regarding the identification of the risk areas and the higher level of detail required for risk modeling, would be so high that the European Floods Directive cannot be deemed to be an appropriate framework for heavy rainfall risk management. Nevertheless, there is a need for action, e.g. in the field of self-protection, improved risk communication to the population, combined with increased public and interagency cooperation. T2 - Synergien und Hemmnisse einer möglichen Integration von Starkregen in die Bearbeitung der europäischen Hochwasserrisikomanagementrichtlinie KW - Flood KW - heavy rainfall KW - EU Floods Directive KW - Federal Water Act KW - Hochwasser KW - Starkregen KW - Hochwasserrisikomanagementrichtlinie KW - Wasserhaushaltsgesetz Y1 - 2019 U6 - https://doi.org/10.5675/HyWa_2019.4_1 SN - 1439-1783 VL - 63 IS - 4 SP - 193 EP - 202 PB - Bundesanst. für Gewässerkunde CY - Koblenz ER - TY - JOUR A1 - Page, M. A1 - Licht, Alexis A1 - Dupont-Nivet, Guillaume A1 - Meijer, Niels A1 - Barbolini, Natasha A1 - Hoorn, C. A1 - Schauer, A. A1 - Huntington, K. A1 - Bajnai, D. A1 - Fiebig, J. A1 - Mulch, Andreas A1 - Guo, Z. T1 - Synchronous cooling and decline in monsoonal rainfall in northeastern Tibet during the fall into the Oligocene icehouse JF - Geology N2 - The fall into the Oligocene icehouse is marked by a steady decline in global temperature with punctuated cooling at the Eocene-Oligocene transition, both of which are well documented in the marine realm. However, the chronology and mechanisms of cooling on land remain unclear. Here, we use clumped isotope thermometry on northeastern Tibetan continental carbonates to reconstruct a detailed Paleogene surface temperature record for the Asian continental interior, and correlate this to an enhanced pollen data set. Our results show two successive dramatic (>9 degrees C) temperature drops, at 37 Ma and at 33.5 Ma. These large-magnitude decreases in continental temperatures can only be explained by a combination of both regional cooling and shifts of the rainy season to cooler months, which we interpret to reflect a decline of monsoonal intensity. Our results suggest that the response of Asian surface temperatures and monsoonal rainfall to the steady decline of atmospheric CO2 and global temperature through the late Eocene was nonlinear and occurred in two steps separated by a period of climatic instability. Our results support the onset of the Antarctic Circumpolar Current coeval to the Oligocene isotope event 1 (Oi-1) glaciation at 33.5 Ma, reshaping the distribution of surface heat worldwide; however, the origin of the 37 Ma cooling event remains less clear. Y1 - 2019 U6 - https://doi.org/10.1130/G45480.1 SN - 0091-7613 SN - 1943-2682 VL - 47 IS - 3 SP - 203 EP - 206 PB - American Institute of Physics CY - Boulder ER - TY - JOUR A1 - Tolorza, Violeta A1 - Mohr, Christian Heinrich A1 - Carretier, Sebastien A1 - Serey, Amador A1 - Sepulveda, Sergio A. A1 - Tapia, Joseline A1 - Pinto, Luisa T1 - Suspended sediments in chilean rivers reveal low postseismic erosion after the maule earthquake (Mw 8.8) during a severe drought JF - Journal of geophysical research : Earth surface N2 - We address the question of whether all large-magnitude earthquakes produce an erosion peak in the subaerial components of fluvial catchments. We evaluate the sediment flux response to the Maule earthquake in the Chilean Andes (Mw 8.8) using daily suspended sediment records from 31 river gauges. The catchments cover drainage areas of 350 to around 10,000 km(2), including a wide range of topographic slopes and vegetation cover of the Andean western flank. We compare the 3- to 8-year postseismic record of sediment flux to each of the following preseismic periods: (1) all preseismic data, (2) a 3-year period prior to the seismic event, and (3) the driest preseismic periods, as drought conditions prevailed in the postseismic period. Following the earthquake, no increases in suspended sediment flux were observed for moderate to high percentiles of the streamflow distribution (mean, median, and >= 75th percentile). However, more than half of the examined stations showed increased sediment flux during baseflow. By using a Random Forest approach, we evaluate the contributions of seismic intensities, peak ground accelerations, co-seismic landslides, hydroclimatic conditions, topography, lithology, and land cover to explain the observed changes in suspended sediment concentration and fluxes. We find that the best predictors are hillslope gradient, low-vegetation cover, and changes in streamflow discharge. This finding suggests a combined first-order control of topography, land cover, and hydrology on the catchment-wide erosion response. We infer a reduced sediment connectivity due to the postseismic drought, which increased the residence time of sediment detached and remobilized following the Maule earthquake. KW - earthquake KW - suspended sediment KW - Maule megathrust KW - Chile KW - catchment Y1 - 2019 U6 - https://doi.org/10.1029/2018JF004766 SN - 2169-9003 SN - 2169-9011 VL - 124 IS - 6 SP - 1378 EP - 1397 PB - American Geophysical Union CY - Washington ER - TY - JOUR A1 - Sobolev, Stephan Vladimir A1 - Brown, Michael T1 - Surface erosion events controlled the evolution of plate tectonics on Earth JF - Nature : international weekly journal of science N2 - Plate tectonics is among the most important geological processes on Earth, but its emergence and evolution remain unclear. Here we extrapolate models of present-day plate tectonics to the past and propose that since about three billion years ago the rise of continents and the accumulation of sediments at continental edges and in trenches has provided lubrication for the stabilization of subduction and has been crucial in the development of plate tectonics on Earth. We conclude that the two largest surface erosion and subduction lubrication events occurred after the Palaeoproterozoic Huronian global glaciations (2.45 to 2.2 billion years ago), leading to the formation of the Columbia supercontinent, and after the Neoproterozoic ‘snowball’ Earth glaciations (0.75 to 0.63 billion years ago). The snowball Earth event followed the ‘boring billion’—a period of reduced plate tectonic activity about 1.75 to 0.75 billion years ago that was probably caused by a shortfall of sediments in trenches—and it kick-started the modern episode of active plate tectonics. Y1 - 2019 U6 - https://doi.org/10.1038/s41586-019-1258-4 SN - 0028-0836 SN - 1476-4687 VL - 570 IS - 7759 SP - 52 EP - + PB - Nature Publ. Group CY - London ER - TY - THES A1 - Kneier, Fabian T1 - Subsea permafrost in the Laptev Sea BT - Influences on degradation, state and distribution BT - Einflüsse auf Degradation, Zustand und Verbreitung N2 - During lower sea levels in glacial periods, deep permafrost formed on large continental shelf areas of the Arctic Ocean. Subsequent sea level rise and coastal erosion created subsea permafrost, which generally degrades after inundation under the influence of a complex suite of marine, near-shore processes. Global warming is especially pronounced in the Arctic, and will increase the transition to and the degradation of subsea permafrost, with implications for atmospheric climate forcing, offshore infrastructure, and aquatic ecosystems. This thesis combines new geophysical, borehole observational and modelling approaches to enhance our understanding of subsea permafrost dynamics. Three specific areas for advancement were identified: (I) sparsity of observational data, (II) lacking implementation of salt infiltration mechanisms in models, and (III) poor understanding of the regional differences in key driving parameters. This study tested the combination of spectral ratios of the ambient vibration seismic wavefield, together with estimated shear wave velocity from seismic interferometry analysis, for estimating the thickness of the unfrozen sediment overlying the ice-bonded permafrost offshore. Mesoscale numerical calculations (10^1 to 10^2 m, thousands of years) were employed to develop and solve the coupled heat diffusion and salt transport equations including phase change effects. Model soil parameters were constrained by borehole data, and the impact of a variety of influences during the transgression was tested in modelling studies. In addition, two inversion schemes (particle swarm optimization and a least-square method) were used to reconstruct temperature histories for the past 200-300 years in the Laptev Sea region in Siberia from two permafrost borehole temperature records. These data were evaluated against larger scale reconstructions from the region. It was found (I) that peaks in spectral ratios modelled for three-layer, one-dimensional systems corresponded with thaw depths. Around Muostakh Island in the central Laptev Sea seismic receivers were deployed on the seabed. Derived depths of the ice-bonded permafrost table were between 3.7-20.7 m ± 15 %, increasing with distance from the coast. (II) Temperatures modelled during the transition to subsea permafrost resembled isothermal conditions after about 2000 years of inundation at Cape Mamontov Klyk, consistent with observations from offshore boreholes. Stratigraphic scenarios showed that salt distribution and infiltration had a large impact on the ice saturation in the sediments. Three key factors were identified that, when changed, shifted the modelled permafrost thaw depth most strongly: bottom water temperatures, shoreline retreat rate and initial temperature before inundation. Salt transport based on diffusion and contribution from arbitrary density-driven mechanisms only accounted for about 50 % of observed thaw depths at offshore sites hundreds to thousands of years after inundation. This bias was found consistently at all three sites in the Laptev Sea region. (III) In the temperature reconstructions, distinct differences in the local temperature histories between the western Laptev Sea and the Lena Delta sites were recognized, such as a transition to warmer temperatures a century later in the western Laptev Sea as well as a peak in warming three decades later. The local permafrost surface temperature history at Sardakh Island in the Lena Delta was reminiscent of the circum-Arctic regional average trends. However, Mamontov Klyk in the western Laptev Sea was consistent to Arctic trends only in the most recent decade and was more similar to northern hemispheric mean trends. Both sites were consistent with a rapid synoptic recent warming. In conclusion, the consistency between modelled response, expected permafrost distribution, and observational data suggests that the passive seismic method is promising for the determination of the thickness of unfrozen sediment on the continental Arctic shelf. The quantified gap between currently modelled and observed thaw depths means that the impact of degradation on climate forcing, ecosystems, and infrastructure is larger than current models predict. This discrepancy suggests the importance of further mechanisms of salt penetration and thaw that have not been considered – either pre-inundation or post-inundation, or both. In addition, any meaningful modelling of subsea permafrost would have to constrain the identified key factors and their regional differences well. The shallow permafrost boreholes provide missing well-resolved short-scale temperature information in the coastal permafrost tundra of the Arctic. As local differences from circum-Arctic reconstructions, such as later warming and higher warming magnitude, were shown to exist in this region, these results provide a basis for local surface temperature record parameterization of climate and, in particular, permafrost models. The results of this work bring us one step further to understanding the full picture of the transition from terrestrial to subsea permafrost. N2 - Als zu glazialen Zeiten der Meeresspiegel niedriger lag, konnte sich tiefer Permafrost (Dauerfrostboden) in weiten Teilen der Kontinentalschelfgebiete des arktischen Ozeans bilden. Durch den darauf folgenden Meeresspiegelanstieg und Küstenerosion wurde dieser überflutet und es entstand submariner Permafrost. Seit der Überflutung wird dieser durch eine Reihe komplexer mariner Prozesse in der küstennahen Zone degradiert. Die Klimaerwärmung ist in der Arktis besonders ausgeprägt, wodurch sich die Überflutung durch Küstenerosion sowie diese Degradationsprozesse in Zukunft weiter intensivieren werden. Dies wird weitreichende Konsequenzen für das Klimasystem (Freisetzung von Treibhausgasen), Offshore-Infrastruktur als auch aquatische Ökosysteme haben. Diese Dissertation kombiniert neue geophysikalische, Bohrlochbeobachtungs-basierte und Modellierungsansätze, um unser Verständnis der speziellen Dynamik des submarinen Permafrosts zu verbessern. Drei spezifische Bereiche wurden identifiziert, welche das derzeitige Verständnis zum submarinen Permafrost maßgeblich einschränken, und in dieser Arbeit gezielt weiterentwickelt wurden: (I) Die spärliche Verfügbarkeit von Beobachtungsdaten, (II) die fehlende Implementation von Salzinfiltrationsmechanismen in Modelbeschreibungen und (III) das mangelnde Verständnis der regionalen Unterschiede von treibenden Einflußparametern. Hierfür wurde die Kombination spektraler Amplitudenverhältnisse der Umgebungsschwingungen im seismischen Wellenfeld (seismisches Hintergrundrauschen) mit der aus seismischer Interferometrie abgeschätzten Scherwellengeschwindigkeit zur Bestimmung der Mächtigkeit der aufgetauten Sedimentschicht oberhalb des eisgebundenen Permafrosts im Meeresboden getestet. Numerische Simulationen (auf der Skala von 10^1 bis 10^2 m, tausende Jahre) wurden zur Entwicklung und Lösung der gekoppelten Wärmeleitungs- und Salztransportgleichungen unter Berücksichtigung von Phasenübergängen angewandt. Hierbei wurden die Modelparameter zur Untergrundbeschaffenheit aus Bohrlochdaten bestimmt und die Auswirkungen verschiedener Parameter während der Meeresüberflutung untersucht. Zusätzlich wurden zwei Inversionsalgorithmen (Partikelschwarmoptimierung und ein Verfahren der kleinsten Quadrate) verwendet, um die Temperaturen der letzten 200-300 Jahre in der Laptewsee-Region in Sibirien anhand zweier Temperaturdatensätze aus Permafrostbohrlöchern zu rekonstruieren. Diese Daten wurden im Vergleich zu größerskaligen Rekonstruktionen aus der Region ausgewertet. Es konnte gezeigt werden, (I) dass die Höchstwerte im spektralen Amplitudenverhältnis, die für den eindimensionalen Fall eines 3-Schicht-Systems modelliert wurden, mit der Auftautiefe zusammenhingen. Seismische Instrumente wurden auf dem Meeresboden um die Insel Muostakh, in der zentralen Laptewsee gelegen, ausgebracht. Die gefundenen Tiefen der eisgebundenen Permafrosttafel lagen zwischen 3.7-20.7 m ± 15 %, und nahmen mit zunehmender Entfernung zur Küste zu. (II) Die modellierten Temperaturen während des Übergangs zum submarinen Permafrost entsprachen ab etwa 2000 Jahren nach der Überflutung isothermischen Bedingungen bei Cape Mamontov Klyk, in Übereinstimmung zu den Beobachtungen in den Bohrlöchern. Stratigrafische Szenarien zeigten, dass die Salzverteilung und -infiltration großen Einfluß auf den Sättigungszustand des Poreneises im Sediment hatte. Drei Schlüsselfaktoren wurden identifiziert, welche, wenn diese verändert wurden, die modellierte Auftautiefe des Permafrosts am stärksten beeinflussten: Die Temperaturen am Meeresboden, die Küstenerosionsrate und die Anfangstemperatur zum Zeitpunkt der Überflutung. Salztransport unter Berücksichtigung von Diffusion und beliebigen dichte-getriebenen Mechanismen unterschätzte die beobachteten Auftautiefen um circa 50 % über hunderte bis tausende von Jahren nach der Überflutung. Diese Abweichung wurde konsistent an allen drei Untersuchungsstandorten in der Laptewsee-Region gefunden. (III) In den Temperaturrekonstruktionen wurden deutliche Unterschiede im lokalen Temperaturverlauf zwischen den Standorten in der westlichen Laptewsee und im Lena Delta festgestellt. Dazu gehörte ein Übergang zu wärmeren Temperaturen ein Jahrhundert später in der westlichen Laptewsee, sowie ein Maximum der Erwärmung drei Jahrzehnte später als im Lena Delta. Die lokale Permafrost-Oberflächentemperaturhistorie auf der Insel Sardakh im Lena Delta glich den zirkumarktischen mittleren Trends. Im Gegensatz dazu stimmte Mamontov Klyk in der westlichen Laptewsee nur im jüngsten Jahrzehnt mit den arktischen Trends überein und glich vielmehr dem mittleren Trend der Nordhemisphäre. Beide Standorte stimmten mit einer schnellen, synoptischen und kürzlichen Erwärmung überein. Abschließend lässt sich festhalten, dass auf Grund der Übereinstimmung zwischen modelliertem Verhalten, erwarteter Permafrostverteilung und Beobachtungsdaten die passiv-seismische Methode vielversprechend für die Dickebestimmung der ungefrorenen Sedimente im arktischen Meeresboden ist. Durch die hier quantifizierte Diskrepanz zwischen aktuell modellierter und beobachteter Auftautiefen wird klar, dass die Auswirkung der Degradation auf Klimaantrieb, Ökosysteme und Infrastruktur größer ist als dies von aktuellen Modellen vorhergesagt wird. Um diese Diskrepanz zu eliminieren, müssen weitere bisher unberücksichtigte Mechanismen der Salzeindringung und des Auftauens vor oder nach der Überflutung in zukünftigen Modellen mit einbezogen werden. Des weiteren folgt aus dieser Arbeit, dass Modellierungen des submarinen Permafrosts die hier identifizierten Schlüsselfaktoren und ihre regionalen Unterschiede berücksichtigen müssen, um ihre Aussagekraft sicher zu stellen. Die Permafrostbohrlöcher liefern bisher fehlende, auf kurzer Zeitskala gut-aufgelöste Temperaturinformationen in der arktischen Küstentundra. Da lokale Abweichungen von zirkumarktischen Rekonstruktionen in dieser Region nachgewiesen werden konnten, stellen die Ergebnisse eine Grundlage für lokale Temperaturverlaufs-Parametrisierungen in Klima- und insbesondere Permafrostmodellen zur Verfügung. Die Ergebnisse dieser Arbeit weisen die Richtung für zukünftige Forschungs- und Modellierungsvorhaben und stellen einen wichtigen Schritt dar, um den Übergang von terrestrischem zu submarinem Permafrost zu verstehen. T2 - Submariner Permafrost in der Laptewsee KW - Subsea permafrost KW - Submarine permafrost KW - Inundation KW - Ambient noise KW - Passive seismic interferometry KW - H/V ratio KW - Coupled heat and mass transport KW - Salt transport KW - Diffusion KW - Temperature reconstruction KW - Borehole reconstruction KW - GST KW - Submariner Permafrost KW - Überflutung KW - seismisches Hintergrundrauschen KW - Passiv-seismische Interferometrie KW - H/V Verhältnis KW - Gekoppelter Wärme- und Massetransport KW - Salztransport KW - Diffusion KW - Temperaturerekonstruktion KW - Bohrloch-Rekonstruktion KW - GST Y1 - 2019 ER - TY - THES A1 - Pohlenz, Julia T1 - Structural insights into sodium-rich silicate - carbonate glasses and melts T1 - Strukturelle Eigenschaften von natriumreichen silikatisch-karbonatischen Gläsern und Schmelzen mittels in-situ XAFS an Spurenelementen und Molekular Dynamik BT - a combined study of trace element in-situ XAFS and Molecular Dynamics N2 - Carbonate-rich silicate and carbonate melts play a crucial role in deep Earth magmatic processes and their melt structure is a key parameter, as it controls physical and chemical properties. Carbonate-rich melts can be strongly enriched in geochemically important trace elements. The structural incorporation mechanisms of these elements are difficult to study because such melts generally cannot be quenched to glasses, which are usually employed for structural investigations. This thesis investigates the influence of CO2 on the local environments of trace elements contained in silicate glasses with variable CO2 concentrations as well as in silicate and carbonate melts. The compositions studied include sodium-rich peralkaline silicate melts and glasses and carbonate melts similar to those occurring naturally at Oldoinyo Lengai volcano, Tanzania. The local environments of the three elements yttrium (Y), lanthanum (La) and strontium (Sr) were investigated in synthesized glasses and melts using X-ray absorption fine structure (XAFS) spectroscopy. Especially extended X-ray absorption fine structure spectroscopy (EXAFS) provides element specific information on local structure, such as bond lengths, coordination numbers and the degree of disorder. To cope with the enhanced structural disorder present in glasses and melts, EXAFS analysis was based on fitting approaches using an asymmetric distribution function as well as a correlation model according to bond valence theory. Firstly, silicate glasses quenched from high pressure/temperature melts with up to 7.6 wt % CO2 were investigated. In strongly and extremely peralkaline glasses the local structure of Y is unaffected by the CO2 content (with oxygen bond lengths of ~ 2.29 Å). Contrary, the bond lengths for Sr-O and La-O increase with increasing CO2 content in the strongly peralkaline glasses from ~ 2.53 to ~ 2.57 Å and from ~ 2.52 to ~ 2.54 Å, respectively, while they remain constant in extremely peralkaline glasses (at ~ 2.55 Å and 2.54 Å, respectively). Furthermore, silicate and unquenchable carbonate melts were investigated in-situ at high pressure/temperature conditions (2.2 to 2.6 GPa, 1200 to 1500 °C) using a Paris-Edinburgh press. A novel design of the pressure medium assembly for this press was developed, which features increased mechanical stability as well as enhanced transmittance at relevant energies to allow for low content element EXAFS in transmission. Compared to glasses the bond lengths of Y-O, La-O and Sr-O are elongated by up to + 3 % in the melt and exhibit higher asymmetric pair distributions. For all investigated silicate melt compositions Y-O bond lengths were found constant at ~ 2.37 Å, while in the carbonate melt the Y-O length increases slightly to 2.41 Å. The La-O bond lengths in turn, increase systematically over the whole silicate – carbonate melt joint from 2.55 to 2.60 Å. Sr-O bond lengths in melts increase from ~ 2.60 to 2.64 Å from pure silicate to silicate-bearing carbonate composition with constant elevated bond length within the carbonate region. For comparison and deeper insight, glass and melt structures of Y and Sr bearing sodium-rich silicate to carbonate compositions were simulated in an explorative ab initio molecular dynamics (MD) study. The simulations confirm observed patterns of CO2-dependent local changes around Y and Sr and additionally provide further insights into detailed incorporation mechanisms of the trace elements and CO2. Principle findings include that in sodium-rich silicate compositions carbon either is mainly incorporated as a free carbonate-group or shares one oxygen with a network former (Si or [4]Al) to form a non-bridging carbonate. Of minor importance are bridging carbonates between two network formers. Here, a clear preference for two [4]Al as adjacent network formers occurs, compared to what a statistical distribution would suggest. In C-bearing silicate melts minor amounts of molecular CO2 are present, which is almost totally dissolved as carbonate in the quenched glasses. The combination of experiment and simulation provides extraordinary insights into glass and melt structures. The new data is interpreted on the basis of bond valence theory and is used to deduce potential mechanisms for structural incorporation of investigated elements, which allow for prediction on their partitioning behavior in natural melts. Furthermore, it provides unique insights into the dissolution mechanisms of CO2 in silicate melts and into the carbonate melt structure. For the latter, a structural model is suggested, which is based on planar CO3-groups linking 7- to 9-fold cation polyhedra, in accordance to structural units as found in the Na-Ca carbonate nyerereite. Ultimately, the outcome of this study contributes to rationalize the unique physical properties and geological phenomena related to carbonated silicate-carbonate melts. N2 - Karbonatische und karbonatreiche silikatische Schmelzen spielen eine entscheidende Rolle in den magmatischen Prozessen der Erde. Die interne Schmelzstruktur bestimmt dabei maßgeblich ihre physikalischen und chemischen Eigenschaften. Karbonatreiche Schmelzen können sehr stark mit geochemisch wichtigen Spurenelementen angereichert sein. Die strukturellen Einbaumechanismen sind jedoch kaum verstanden, da diese Schmelzen nicht zu homogenen Gläsern abgeschreckt werden können, welche üblicherweise für strukturelle Untersuchungen genutzt werden. Die vorliegende Arbeit widmet sich dem Einfluss von CO2 auf die lokale Umgebung von ausgewählten Spurenelementen in karbonathaltigen silikatischen Gläsern sowie silikatisch bis karbonatischen Schmelzen. Untersucht werden natriumreiche, stark bis extrem peralkaline silikatische und karbonatische Zusammensetzungen, wie sie vom Vulkan Oldoinyo Lengai, Tansania, bekannt sind. Zum einen werden die lokale Umgebungen von Yttrium (Y), Lanthan (La) und Strontium (Sr) in synthetisierten Gläsern und Schmelzen mit Röntgen-Absorption-Feinstruktur-Spektroskopie (engl. X-ray absorption fine structure (XAFS) spectroscopy) untersucht. Insbesondere extended X-ray absorption fine structure (EXAFS) spectroscopy liefert elementspezifisch strukturelle Informationen über Bindungslängen, Koordinationszahlen und Ordnungsgrad. Dem hohen Grad struktureller Unordnung in Gläsern und Schmelzen wird in den vorliegenden EXAFS-Analysen mit der Verwendung einer asymmetrischen Verteilungsfunktion und eines Korrelationsmodells, basierend auf der Bindungsvalenztheorie, Rechnung getragen. Für silikatische Gläser mit steigendem CO2-Gehalt zwischen 0 und bis zu 7,6 Gew.-% ist festzustellen: (1) Konstante Bindungslängen für Sr-O (~ 2,55 Å) und La-O (~ 2,54 Å) in extrem peralkaliner Zusammensetzung, sowie für Y-O (~ 2,29 Å) in stark und extrem peralkaliner Zusammensetzung. (2) Zunehmende Bindungslängen für Sr-O (~ von 2,53 auf 2,57 Å) und La-O in stark peralkaliner Zusammensetzung (~ von 2,52 auf 2,54 Å). Weiterhin werden silikatische sowie nicht-abschreckbare karbonatische Schmelzen in-situ unter hohem Druck und hoher Temperatur (2,2 bis 2,6 GPa, 1200 bis 1500 °C, untersucht in einer Paris-Edinburgh-Presse) analysiert. Ein neu entwickelter Aufbau des Druckübertragungsmediums garantiert eine hohe mechanische Festigkeit und ermöglicht aufgrund hervorragender Transmissivität im relevanten Energiebereich Transmissions-EXAFS an niedrigkonzentrierten Elementen. Im Vergleich zu den Gläsern zeigen die Schmelzen generell ~ 3 % höhere Y-O-, La-O-, und Sr-O-Bindungslängen und eine erhöhte Asymmetrie in der Paarverteilung. In silikatischen Schmelzen sind Y-O-Bindungslängen konstant (~ 2,37 Å), wohingegen sie in karbonatischen Schmelzen zunehmen (bis zu 2,41 Å). La-O-Abstände vergrößern sich systematisch von silikatischen zu karbonatischen Schmelzen (von 2,55 auf 2,60 Å). Sr-O-Abstände steigen von 2,60 auf 2,64 Å in silikatischen Zusammensetzungen mit steigendem CO2-Gehalt und sind für alle karbonatischen Zusammensetzungen konstant. Zum Vergleich und besserem Verständnis wurden Y- und Sr-haltige, silikatische und karbonatische Glas- und Schmelzstrukturen in einer explorativen ab-initio Molekular Dynamik (MD) Studie simuliert. Die MD-Studie bestätigt die CO2-abhängigen lokalen Veränderungen um Y und Sr und liefert zusätzliche Einblicke in silikatische und karbonatische Glas- und Schmelzstrukturen. In natriumreicher silikatischer Zusammensetzung wird CO2 hauptsächlich als freie Karbonatgruppe eingebaut oder teilt sich als nicht-brückenbildendes Karbonat genau ein Sauerstoffatom mit einem Netzwerkbildner (Si oder [4]Al). Seltener tritt es als brückenbildendes Karbonat zwischen zwei Netzwerkbildnern auf; dabei allerdings mit einer gegenüber der statistischen Verteilung deutlich erhöhten Präferenz für zwei [4]Al als anliegende Netzwerkbildner. C-haltige Schmelzen weisen geringe Mengen an molekularem CO2 auf, welches in den abgeschreckten Gläsern fast vollständig als Karbonat gelöst ist. Die Kombination aus Experiment und Simulation gewährt außerordentliche Einblicke in nur schwierig zu untersuchende Glas- und Schmelzstrukturen. Die gewonnenen Daten werden auf Grundlage der Bindungsvalenztheorie gedeutet und hinsichtlich potentieller Mechanismen des strukturellen Spurenelementeinbaus sowie dem daraus ableitbaren Fraktionierungsverhalten in natürlichen Schmelzen diskutiert. Neue Erkenntnisse über den strukturellen CO2-Einbau werden genutzt, um ein Strukturmodell für karbonatische Schmelzen abzuleiten. Dieses basiert auf der Verknüpfung von 7- bis 9-fach koordinierten Kationenpolyedern durch die planaren Karbonat-Gruppen, ähnlich wie es im Na-Ca-Karbonat Nyerereite zu beobachten ist. Letztendlich leisten die Erkenntnisse der Arbeit somit ihren Beitrag, das Verständnis um die einzigartigen physikalischen Eigenschaften und geologischen Phänomene dieser Schmelzen zu vertiefen. KW - glass structure KW - melt structure KW - X-ray absorption spectroscopy KW - Glasstruktur KW - Schmelzstruktur KW - Röntgenabsorptionsspektroskopie Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-423826 ER - TY - THES A1 - Ghani, Humaad T1 - Structural evolution of the Kohat and Potwar fold and thrust belts of Pakistan T1 - Strukturelle Entwicklung des Kohat und Potwar Falten- und Überschiebungsgürtel in Pakistan N2 - Fold and thrust belts are characteristic features of collisional orogen that grow laterally through time by deforming the upper crust in response to stresses caused by convergence. The deformation propagation in the upper crust is accommodated by shortening along major folds and thrusts. The formation of these structures is influenced by the mechanical strength of décollements, basement architecture, presence of preexisting structures and taper of the wedge. These factors control not only the sequence of deformation but also cause differences in the structural style. The Himalayan fold and thrust belt exhibits significant differences in the structural style from east to west. The external zone of the Himalayan fold and thrust belt, also called the Subhimalaya, has been extensively studied to understand the temporal development and differences in the structural style in Bhutan, Nepal and India; however, the Subhimalaya in Pakistan remains poorly studied. The Kohat and Potwar fold and thrust belts (herein called Kohat and Potwar) represent the Subhimalaya in Pakistan. The Main Boundary Thrust (MBT) marks the northern boundary of both Kohat and Potwar, showing that these belts are genetically linked to foreland-vergent deformation within the Himalayan orogen, despite the pronounced contrast in structural style. This contrast becomes more pronounced toward south, where the active strike-slip Kalabagh Fault Zone links with the Kohat and Potwar range fronts, known as the Surghar Range and the Salt Range, respectively. The Surghar and Salt Ranges developed above the Surghar Thrust (SGT) and Main Frontal Thrust (MFT). In order to understand the structural style and spatiotemporal development of the major structures in Kohat and Potwar, I have used structural modeling and low temperature thermochronolgy methods in this study. The structural modeling is based on construction of balanced cross-sections by integrating surface geology, seismic reflection profiles and well data. In order to constrain the timing and magnitude of exhumation, I used apatite (U-Th-Sm)/He (AHe) and apatite fission track (AFT) dating. The results obtained from both methods are combined to document the Paleozoic to Recent history of Kohat and Potwar. The results of this research suggest two major events in the deformation history. The first major deformation event is related to Late Paleozoic rifting associated with the development of the Neo-Tethys Ocean. The second major deformation event is related to the Late Miocene to Pliocene development of the Himalayan fold and thrust belt in the Kohat and Potwar. The Late Paleozoic rifting is deciphered by inverse thermal modelling of detrital AFT and AHe ages from the Salt Range. The process of rifting in this area created normal faulting that resulted in the exhumation/erosion of Early to Middle Paleozoic strata, forming a major unconformity between Cambrian and Permian strata that is exposed today in the Salt Range. The normal faults formed in Late Paleozoic time played an important role in localizing the Miocene-Pliocene deformation in this area. The combination of structural reconstructions and thermochronologic data suggest that deformation initiated at 15±2 Ma on the SGT ramp in the southern part of Kohat. The early movement on the SGT accreted the foreland into the Kohat deforming wedge, forming the range front. The development of the MBT at 12±2 Ma formed the northern boundary of Kohat and Potwar. Deformation propagated south of the MBT in the Kohat on double décollements and in the Potwar on a single basal décollement. The double décollement in the Kohat adopted an active roof-thrust deformation style that resulted in the disharmonic structural style in the upper and lower parts of the stratigraphic section. Incremental shortening resulted in the development of duplexes in the subsurface between two décollements and imbrication above the roof thrust. Tectonic thickening caused by duplexes resulted in cooling and exhumation above the roof thrust by removal of a thick sequence of molasse strata. The structural modelling shows that the ramps on which duplexes formed in Kohat continue as tip lines of fault propagation folds in the Potwar. The absence of a double décollement in the Potwar resulted in the preservation of a thick sequence of molasse strata there. The temporal data suggest that deformation propagated in-sequence from ~ 8 to 3 Ma in the northern part of Kohat and Potwar; however, internal deformation in the Kohat was more intense, probably required for maintaining a critical taper after a significant load was removed above the upper décollement. In the southern part of Potwar, a steeper basement slope (β≥3°) and the presence of salt at the base of the stratigraphic section allowed for the complete preservation of the stratigraphic wedge, showcased by very little internal deformation. Activation of the MFT at ~4 Ma allowed the Salt Range to become the range front of the Potwar. The removal of a large amount of molasse strata above the MFT ramp enhanced the role of salt in shaping the structural style of the Salt Range and Kalabagh Fault Zone. Salt accumulation and migration resulted in the formation of normal faults in both areas. Salt migration in the Kalabagh fault zone has triggered out-of-sequence movement on ramps in the Kohat. The amount of shortening calculated between the MBT and the SGT in Kohat is 75±5 km and between the MBT and the MFT in Potwar is 65±5 km. A comparable amount of shortening is accommodated in the Kohat and Potwar despite their different widths: 70 km Kohat and 150 km Potwar. In summary, this research suggests that deformation switched between different structures during the last ~15 Ma through different modes of fault propagation, resulting in different structural styles and the out-of-sequence development of Kohat and Potwar. N2 - Falten- und Überschiebungsgürtel sind charakteristische Merkmale von Kollisionsorogenen, die sich im Laufe der Zeit als Reaktion auf konvergente Spannungen in das Vorland vorbauen. Die Deformationsausbreitung in der oberen Kruste erfolgt durch die Verkürzung entlang von Falten und Überschiebungen. Die Bildung dieser Strukturen wird durch die mechanische Eigenschaft des Décollements (Abscherhorizonts), dem Aufbau des Grundgebirges, der strukturellen Vorprägung und der Geometrie des Verfomungskeils beeinflusst. Diese Faktoren steuern nicht nur die Verformungsabfolge, sondern führen auch zu unterschiedlichen Strukturen im Falten- und Überschiebungsgürtel. Der Himalaya Falten- und Überschiebungsgürtel zeigt signifikante Unterschiede im strukturellen Bau von Ost nach West. Die äußere Zone des Himalaya Falten- und Überschiebungsgürtel, auch Subhimalaya genannt, ist hinsichtlich der zeitliche Entwicklung und des strukturellen Baus in der Region von Bhutan, Nepal und Indien gut untersucht. Im Gegensatz dazu ist die Geologie des pakistanischen Subhimalayas erst in groben Zügen verstanden. Der Kohat- und der Potwar- Falten- und Überschiebungsgürtel (im Folgenden einfach Kohat und Potwar genannt) sind Teil der externe Sedimentationszone des Himalaya- Falten- und Überschiebungsgürtel in Pakistan. Die „Main Boundary Thrust“ (MBT) markiert ihre nördliche Grenze und zeigt, dass beide, sowohl Kohat als auch Potwar, trotz ihres unterschiedlichen strukturellen Baus durch eine gemeinsame, ins Vorland gerichteten Verformung des Himalaya-Orogens entstanden sind. Der Kontrast im strukturelle Bau wird nach Süden ausgeprägter, wo die aktive Kalabagh Seitenverschiebung die frontalen Deformationszonen Kohats und Potwars verbindet, die als „Surghar Range“ bzw. „Salt Range“ bekannt sind. Die „Surghar Range“ und die „Salt Range“ entwickeln sich oberhalb der Surghar Überschiebung (Surghar Thrust, SGT) und der frontalen Hauptüberschiebung (Main Frontal Thrust, MFT). Ziel dieser Studie ist es, die Deformationsentwicklung und den strukturellen Bau Kohats und Potwars als Beispiel für die Vielfalt der Entwicklung im frontalen Bereich von Orogenen zu entschlüsseln. Um den strukturellen Stil und die räumlich-zeitliche Entwicklung der Hauptstrukturen in Kohat und Potwar zu untersuchen, werden in dieser Studie Strukturmodellierungs- und Niedertemperatur-Thermochronologie-Methoden verwendet. Die Strukturmodellierung basiert auf der Erstellung bilanzierter Profile, deren Grundlage die Kombination von Oberflächengeologie, seismischen Reflexionsprofilen und Bohrlochdaten bildet. Die Niedertemperatur-Thermochronologie-Methoden gründen einerseits auf Apatit (U-Th-Sm)/He (AHe) und andererseits auf Apatit-Spaltspur (AFT) Datierungen. Die Resultate beider Methoden erlauben die zeitliche Rekonstruktion von Kohat und Potwar vom Paläozoikum bis zur jüngsten Geschichte. Die Ergebnisse dieser Studie deuten auf zwei Hauptereignisse in der Verformungsgeschichte hin. Das erste große Deformationsereignis steht im Zusammenhang mit der spätpaläozoischen Riftbildung im Zuge der Öffnung der Neotethys. Das zweite große Deformationsereignis steht im Zusammenhang mit der spätmiozänen bis pliozänen Entwicklung des Himalaya Falten- und Überschiebungsgürtel. Die spät-paläozoische Riftbildung wird mittels einer inversen thermischen Modellierung der Apatit-AFT und AHe-Alter aus der „Salt Range“ rekonstruiert. Der Prozess des Riftbildung verursachte Abschiebungen, die zur Exhumierung bzw. Erosion früh- bis mittelpaläozoischer Schichten führte und eine bedeutende Diskordanz zwischen kambrischen und permischen Schichten ausbildet, die heute in der „Salt Range“ aufgeschlossen ist. Diese im Spätpaläozoikum entstandenen Abschiebungen wurden dann während der miozän-pliozänen Bildung des Falten- und Überschiebungsgürtel reakiviert. Die Rekonstruktion der Strukturen, kombiniert mit der Datierung (AFT, AHe), deutet darauf hin, dass die Verformung um ca. 15±2 Ma auf der SGT-Rampe im südlichen Teil Kohats aktiv war. Diese erste Deformation entlang der SGT hat das Vorland an den Kohat-Verformungskeil geschweisst und bildet damit die neue Verformungsfront. Die MBT bildete um ca. 12±2 Ma die nördliche Grenze von Kohat und Potwar. Die Deformation breitete sich in südlicher Richtung von der MBT aus in Kohat auf zwei Décollements aus, während sich in Potwar ein einziges basales Décollement bildete. Die beiden parallelen Décollements in Kohat formten aktive Dachüberschiebungen aus, die zum disharmonischen Stil im oberen und unteren Teil des Profils führten. Die inkrementelle Verkürzung formte Duplex-Strukturen zwischen den beiden Décollements und Schuppen oberhalb der Dachüberschiebung. Auf die tektonische Verdickung durch die Duplex-Strukturen folgte die Abkühlung bzw. Exhumation oberhalb der Dachüberschiebung durch die Abtragung mächtiger Molasseschichten. Die Rekonstruktion der Strukturen zeigt, dass die Rampen, auf denen die Duplex-Strukturen in Kohat gebildet wurden, sich in Potwar als Frontallinien der frontalen Knickung fortsetzen. Das Fehlen der beiden parallelen Décollements in Potwar führte zur Erhaltung dicker Molassenschichten in der stratigraphischen Abfolge. Die Ergebnisse der Datierung deuten darauf hin, dass sich die Verformung dann von ca. 8 bis 3 Ma normal im nördlichen Teil von Kohat und Potwar in Richtung Süden ausbreitete. Die Verformung in Kohat war intensiver durch die Bildung eines kritischen Winkels im Deformationskeil, als die signifikante Auflast über dem oberen Décollement entfernt wurde. Der südliche Teil Potwars dagegen ist durch eine geringe interne Verfomung gekennzeichnet, hervorgerufen durch eine geringere Neigung der basalen Überschiebung (β≥3°) und das Vorhandensein von Salz an der Basis der stratigraphischen Abfolge. Dabei ist stratigraphische Abfolge innerhalb des Deformationskeils erhalten. Mit der Deformation entlang der MFT um ca. 4 Ma begann die Entwicklung der „Salt Range“ als frontale Deformationszone von Potwar. Die Abtragung dicker Molassenschichten über der MFT-Rampe verstärkte die Rolle des Salzes bei der Deformation der „Salt Range“ und der Kalabagh-Störungszone. In beiden Gebieten kam es zu Abschiebungen duch Salzakkumulation und Salzmigration. Die Salzmigration in der Kalabagh- Störungszone hat durchbrechende Überschiebungen entlang der Rampen in Kohat ausgelöst. Der Verkürzungsbetrag zwischen MBT und SGT beträgt für Kohat 75±5 km und für Potwar zwischen MBT und MFT 65±5 km. Sowohl Kohat und Potwar haben trotz ihrer unterschiedlichen räumlichen Ausdehnung (70 km Kohat und 150 km Potwar) eine vergleichbare Verkürzung erfahren. Zusammenfassend lässt sich sagen, dass diese Studie aufzeigt, wie die Verformung zwischen den einzelnen Strukturen in den letzten ~15 Ma, verursacht durch unterschiedliche Deformationsausbreitung, gesprungen ist und damit für die unterschiedlichen spezifischen Struktur-Stile und durchbrechende Deformationssequenzen in Kohat und Potwar verantwortlich ist. KW - Himalaya KW - folds KW - faults KW - décollement KW - exhumation KW - Himalaja KW - Falten KW - Störungen KW - Abschiebungshorizonte KW - Exhumierung Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-440775 ER - TY - JOUR A1 - Zaccarelli, Riccardo A1 - Bindi, Dino A1 - Strollo, Angelo A1 - Quinteros, Javier A1 - Cotton, Fabrice T1 - Stream2segment: An Open-Source Tool for Downloading, Processing, and Visualizing Massive Event-Based Seismic Waveform Datasets JF - Seismological research letters N2 - The task of downloading comprehensive datasets of event-based seismic waveforms has been made easier through the development of standardized webservices but is still highly nontrivial because the likelihood of temporary network failures or subtle data errors naturally increases when the amount of requested data is in the order of millions of relatively short segments. This is even more challenging because the typical workflow is not restricted to a single massive download but consists of fetching all possible available input data (e.g., with several repeated download executions) for a processing stage producing any desired user-defined output. Here, we present stream2segment, a highly customizable Python 2+3 package helping the user in the entire workflow of downloading, inspecting, and processing event-based seismic data by means of a relational database management system as archiving storage, which has clear performance and usability advantages, and an integrated processing subroutine requiring a configuration file and a single Python function to produce user-defined output. Stream2segment can also produce diagnostic maps or user-defined plots, which, unlike existing tools, do not require external software dependencies and are not static images but instead are interactive browser-based applications ideally suited for data inspection or annotation tasks and subsequent training of classifiers in foreseen supervised machine-learning applications. Stream2segment has already been used as a data quality tool for datasets within the European Integrated Data Archive and to create a weak-motion database (in the form of a so-called flat file) for the stable continental region of Europe in the context of the European Ground Shaking Intensity Model service, in turn an important building block for seismic hazard studies. Y1 - 2019 U6 - https://doi.org/10.1785/0220180314 SN - 0895-0695 SN - 1938-2057 VL - 90 IS - 5 SP - 2028 EP - 2038 PB - Seismological Society of America CY - Albany ER - TY - JOUR A1 - Döhmann, Maximilian J.E.A. A1 - Brune, Sascha A1 - Nardini, Livia A1 - Rybacki, Erik A1 - Dresen, Georg T1 - Strain Localization and Weakening Processes in Viscously Deforming Rocks BT - Numerical Modeling Based on Laboratory Torsion Experiments JF - Journal of geophysical research : JGR N2 - Localization processes in the viscous lower crust generate ductile shear zones over a broad range of scales affecting long‐term lithosphere deformation and the mechanical response of faults during the seismic cycle. Here we use centimeter‐scale numerical models in order to gain detailed insight into the processes involved in strain localization and rheological weakening in viscously deforming rocks. Our 2‐D Cartesian models are benchmarked to high‐temperature and high‐pressure torsion experiments on Carrara marble samples containing a single weak Solnhofen limestone inclusion. The models successfully reproduce bulk stress‐strain transients and final strain distributions observed in the experiments by applying a simple, first‐order softening law that mimics rheological weakening. We find that local stress concentrations forming at the inclusion tips initiate strain localization inside the host matrix. At the tip of the propagating shear zone, weakening occurs within a process zone, which expands with time from the inclusion tips toward the matrix. Rheological weakening is a precondition for shear zone localization, and the width of this shear zone is found to be controlled by the degree of softening. Introducing a second softening step at elevated strain, a high strain layer develops inside the localized shear zone, analogous to the formation of ultramylonite bands in mylonites. These results elucidate the transient evolution of stress and strain rate during inception and maturation of ductile shear zones. KW - dislocation creep KW - torsion KW - 2-D numerical model KW - rheological weakening KW - two phase aggregates KW - strain localization Y1 - 2018 U6 - https://doi.org/10.1029/2018JB016917 SN - 0148-0227 SN - 2169-9356 VL - 124 IS - 1 SP - 1120 EP - 1137 PB - Union CY - Washington, DC ER - TY - GEN A1 - Kämpf, Lucas A1 - Plessen, Birgit A1 - Lauterbach, Stefan A1 - Nantke, Carla A1 - Meyer, Hanno A1 - Chapligin, Bernhard A1 - Brauer, Achim T1 - Stable oxygen and carbon isotopes of carbonates in lake sediments as a paleoflood proxy T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Lake sediments are increasingly explored as reliable paleoflood archives. In addition to established flood proxies including detrital layer thickness, chemical composition, and grain size, we explore stable oxygen and carbon isotope data as paleoflood proxies for lakes in catchments with carbonate bedrock geology. In a case study from Lake Mondsee (Austria), we integrate high-resolution sediment trapping at a proximal and a distal location and stable isotope analyses of varved lake sediments to investigate flood-triggered detrital sediment flux. First, we demonstrate a relation between runoff, detrital sediment flux, and isotope values in the sediment trap record covering the period 2011-2013 CE including 22 events with daily (hourly) peak runoff ranging from 10 (24) m(3) s(-1) to 79 (110) m(3) s(-1). The three- to ten-fold lower flood-triggered detrital sediment deposition in the distal trap is well reflected by attenuated peaks in the stable isotope values of trapped sediments. Next, we show that all nine flood-triggered detrital layers deposited in a sediment record from 1988 to 2013 have elevated isotope values compared with endogenic calcite. In addition, even two runoff events that did not cause the deposition of visible detrital layers are distinguished by higher isotope values. Empirical thresholds in the isotope data allow estimation of magnitudes of the majority of floods, although in some cases flood magnitudes are overestimated because local effects can result in too-high isotope values. Hence we present a proof of concept for stable isotopes as reliable tool for reconstructing flood frequency and, although with some limitations, even for flood magnitudes. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1357 KW - detrital carbonate KW - varved sediments KW - record KW - Baldeggersee KW - delta-c-13 KW - alps Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-550004 SN - 1866-8372 IS - 1 ER - TY - JOUR A1 - Kämpf, Lucas A1 - Plessen, Birgit A1 - Lauterbach, Stefan A1 - Nantke, Carla A1 - Meyer, Hanno A1 - Chapligin, Bernhard A1 - Brauer, Achim T1 - Stable oxygen and carbon isotopes of carbonates in lake sediments as a paleoflood proxy JF - Geology / the Geological Society of America N2 - Lake sediments are increasingly explored as reliable paleoflood archives. In addition to established flood proxies including detrital layer thickness, chemical composition, and grain size, we explore stable oxygen and carbon isotope data as paleoflood proxies for lakes in catchments with carbonate bedrock geology. In a case study from Lake Mondsee (Austria), we integrate high-resolution sediment trapping at a proximal and a distal location and stable isotope analyses of varved lake sediments to investigate flood-triggered detrital sediment flux. First, we demonstrate a relation between runoff, detrital sediment flux, and isotope values in the sediment trap record covering the period 2011-2013 CE including 22 events with daily (hourly) peak runoff ranging from 10 (24) m(3) s(-1) to 79 (110) m(3) s(-1). The three- to ten-fold lower flood-triggered detrital sediment deposition in the distal trap is well reflected by attenuated peaks in the stable isotope values of trapped sediments. Next, we show that all nine flood-triggered detrital layers deposited in a sediment record from 1988 to 2013 have elevated isotope values compared with endogenic calcite. In addition, even two runoff events that did not cause the deposition of visible detrital layers are distinguished by higher isotope values. Empirical thresholds in the isotope data allow estimation of magnitudes of the majority of floods, although in some cases flood magnitudes are overestimated because local effects can result in too-high isotope values. Hence we present a proof of concept for stable isotopes as reliable tool for reconstructing flood frequency and, although with some limitations, even for flood magnitudes. KW - detrital carbonate KW - varved sediments KW - record KW - Baldeggersee KW - delta-c-13 KW - alps Y1 - 2019 U6 - https://doi.org/10.1130/G46593.1 SN - 1943-2682 SN - 0091-7613 VL - 48 IS - 1 SP - 3 EP - 7 PB - American Institute of Physics CY - Melville, NY ER -