48 results on '"Florian Kober"'
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2. Numerically reproduced HE-E experiment of Mont Terri project by Thermo-Hydro-Mechanical coupled model
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Sato Shin, Yamamoto Shuichi, Torisu Seda, Fukaya Masaaki, Tawara Yasuhiro, Tanaka Kei, and Florian Kober
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Environmental sciences ,GE1-350 - Abstract
In this study, numerical simulations of HE-E experiment in Mont Terri rock laboratory were performed with Thermo–Hydro–Mechanical (THM) coupled processes. The aim of this study is to validate modelling, understand THM coupled behaviour and verify applicability of material parameters obtained by a column test to the full-scale model. The results of THM and TH coupled analysis are compared, and the influence of fluid and thermal terms/factors on mechanical behaviour is discussed. The analysis code used for THM and TH coupled analysis was CODE_BRIGHT. An axisymmetric analytical model, which allowed modelling of two heaters, was used for the THM and TH coupled model, and their results were compared. As a result, a better reproducibility of relative humidity in the Engineered Barrier System (EBS) and pore water pressure of the bedrock was achieved by performing mechanical coupling. Furthermore, experimental conditions were simulated more realistically, since two heathers and different backfill materials were also modelled in the analysis.
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- 2020
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3. Geotechnical controls on erodibility in fluvial impact erosion
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Jens Martin Turowski, Gunnar Pruß, Anne Voigtländer, Andreas Ludwig, Angela Landgraf, Florian Kober, and Audrey Bonnelye
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Bedrock incision by rivers is commonly driven by the impacts of moving bedload particles. The speed of incision is modulated by rock properties, which is quantified within a parameter known as erodibility that scales the erosion rate to the erosive action of the flow. Although basic models for the geotechnical controls on rock erodibility have been suggested, large scatter and trends in the remaining relationships indicate that they are incompletely understood. Here, we conducted dedicated laboratory experiments measuring erodibility using erosion mills. In parallel, we measured compressive strength, tensile strength, Young’s modulus, bulk density and the Poisson ratio for the tested lithologies. We find that under the same flow conditions, erosion rates of samples from the same lithology can vary by a factor of up to sixty. This indicates that rock properties that may vary over short distances within the same rock can exert a strong control on its erosional properties. The geotechnical properties of the tested lithologies are strongly cross-correlated, preventing a purely empirical determination of their controls on erodibility. The currently prevailing model predicts that erosion rates should scale linearly with Young’s modulus and inversely with the square of the tensile strength. We extend this model using first-principle physical arguments, taking into account the geotechnical properties of the impactor. The extended model provides a better description of the data than the existing model. Yet, the fit is far from satisfactory. We suggest that the ratio of mineral grain size to the impactor diameter present a strong control on erodibility that has not been quantified so far. We also discuss how our laboratory results upscale to real landscapes and long timescales. For both a revised stream power incision model and a sediment-flux-dependent incision model, we suggest that long-term erosion rates scale linear with erodibility and that, within this theoretical framework, relative laboratory measurements of erodibility can be applied at the landscape scale.
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- 2023
4. Alpine relief limited by glacial occupation time
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Florian Kober, Sebastian Baumann, Günther Prasicek, and Bernhard Salcher
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Geology ,Glacial period ,Physical geography - Abstract
Glaciers exert a major control on the shape of mountain topography. They tend to reduce relief above and scour troughs below the equilibrium line altitude (ELA). While many studies report this dichotomy, relief-limiting effects are controversial due to difficulties in quantifying key factors such as the initial topography, the timing of glacial occupancy, or rock uplift counteracting glacial erosion. Consequently, effectivity and degree of glacial erosion remain ambiguous. In geologically and climatically well-investigated parts of the European Central Alps, our calculation of glacial occupation time (GOT) from Quaternary ELA variations allows the quantification of gradual topographic modifications generated by the cumulative impact of cirque erosion over the Quaternary. We show that under low uplift, relief is effectively limited by glacial and periglacial headwall retreat, leading to a decline in topographic relief as GOT increases. Conversely, higher uplift rates seem to induce more persistent valley glaciation, triggering a positive feedback loop in which steep slopes are protected against erosion and relief increases.
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- 2021
5. Evaluating debris‐flow and anthropogenic disturbance on10Be concentration in mountain drainage basins: implications for functional connectivity and denudation rates across time scales
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Marcus Christl, Corrado Morelli, Florian Kober, Reto Grischott, Francesco Brardinoni, Brardinoni F., Grischott R., Kober F., Morelli C., and Christl M.
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Hydrology ,geography ,Disturbance (geology) ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Functional connectivity ,Geography, Planning and Development ,Drainage basin ,depth of erosion ,10Be concentration ,Denudation rate ,Debris flow ,Depth of erosion ,Geomorphic connectivity ,Deep-seated gravitational slope deformation ,deep-seated gravitational slope deformation ,010502 geochemistry & geophysics ,01 natural sciences ,denudation rate ,Denudation ,geomorphic connectivity ,debris flow ,Earth and Planetary Sciences (miscellaneous) ,Geology ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
We examine the sensitivity of 10Be concentrations (and derived denudation rates), to debris‐flow and anthropogenic perturbations in steep settings of the Eastern Alps, and explore possible relations with structural geomorphic connectivity. Using cosmogenic 10Be as a tracer for functional geomorphic connectivity, we conduct sampling replications across four seasons in Gadria, Strimm and Allitz Creek. Sampling sites encompass a range of structural connectivity configurations, including the conditioning of a sackung, all assessed through a geomorphometric index (IC). By combining information on contemporary depth of erosion and sediment yield, disturbance history and post‐LGM (Last Glacial Maximum) sedimentation rates, we constrain the effects of debris‐flow disturbance on 10Be concentrations at the Gadria sites. Here, we argue that bedrock weakening imparted by the sackung promotes high depth of erosion. Consequently, debris flows recruit sediment beyond the critical depth of spallogenic production (e.g., >3 m), which in turn, episodically, due to predominantly muogenic production pathways, lowers 10Be concentration by a factor of 4, for at least 2 years. In contrast, steady erosion in Strimm Creek yields very stable 10Be concentrations through time. In Allitz Creek, we observe two‐ to fourfold seasonal fluctuations in 10Be concentrations, which we explain as the combined effects of water diversion and hydraulic structures on sediment mixing. We further show that 10Be concentration correlates inversely with the IC index, where sub‐basins characterized by high concentrations (long residence times) exhibit low IC values (structurally disconnected) and vice versa, implying that, over millennial time scales a direct relation exists between functional and structural connectivity, and that the IC index performed as a suitable metric for structural connectivity. The index performs comparably better than other metrics (i.e., mean slope and mean normalized channel steepness index) previously used to assess topographic controls on denudation rates in active unglaciated ranges. In terms of landscape evolution, we argue that the sackung, by favouring intense debris‐flow activity across the Holocene, has aided rapid postglacial reshaping of the Gadria basin, which currently exhibits a topographic signature characteristic of unglaciated debris‐flow systems. © 2020 John Wiley & Sons, Ltd. ISSN:0197-9337 ISSN:1096-9837
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- 2020
6. GIS-based morphostratigraphic analysis of glaciofluvial terrace hypsometry in the North Alpine Foreland using R
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Thomas Pollhammer, Bernhard Salcher, Florian Kober, and Gaudenz Deplazes
- Abstract
The morphology of glaciofluvial terrace staircases is controlled by the interactions of fluvio- and geodynamic factors. Prerequisites for their formation are periodically aggradating rivers (e.g. associated with Quaternary cold periods), in combination with tectonic uplift (e.g. Bridgland & Westaway, 2008). Glaciation can thereby remarkably pronounce this effect where the end of a glacial cycle is typically associated with immediate incision. Abandoned plains represent then a morphologic snapshot, covering a very short period of time. Consequently, they can be highly suitable to act as a morphostratigraphic marker for climatic and geodynamic processes. Especially in this context, regional scale systematic analyses appear very promising and have so far not been subject to intense research.We present a GIS-based morphostratigraphic method and toolset, using the R programming environment. The toolset can be used to project the full elevation information of a high-resolution digital elevation model (DEM) of a river channel (incl. full valley flanks and/or unconfined outwash plains), to 2D (paleo-) river long-profiles, together with other geodata, if available (e.g. existing terrace maps and outcrop information). DEM data is displayed semitransparently in the profile view, making terrace-tops stand out as more or less dark and flat lines. This allows plausibility/quality analysis of existing maps, as well as mapping procedures. Furthermore, on the basis of the projected data, DEM pixels of corelated terraces can be statistically evaluated and models (regression functions) fitted, which allows the reconstruction and measurement of parameters of paleo-riverbeds (e.g. relative height above local base-level, local slope, concavity).We applied this method in the North Alpine Foreland to an extensive terraced landscape, representing a large age span until up to Early Pleistocene age, as well as abundant data on terrace stratigraphy (i.e. from geological mapping, drilling campaigns and relative and absolute age constrains), including high resolution digital elevation models. Despite the long history of Quaternary research in the region, a consistent stratigraphic model of the Quaternary period is currently missing. In fact, the last mountain range scale model was proposed more than 110 years ago by Penck and Brückner (1909). Local findings by geologic surveys (Switzerland, Germany and Austria) unveil strong inconsistencies and an updated model is highly needed.Based on a new code in the R programming environment we evaluate existing stratigraphic models and show how glacio- and geodynamic implications can be statistically derived from terrace hypsometry.References:Bridgland, D., Westaway, R. (2008): Climatically controlled river terrace staircases: A worldwide Quaternary phenomenon. Geomorphology 98, S.285-315. Elsevier. doi:10.1016/j.geomorph.2006.12.032Penck, A., & Brückner, E. (1909): Die Alpen im Eiszeitalter. Leipzig: Tauchnitz.
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- 2022
7. Performance of THM monitoring instrumentation in FEBEX bentonite barrier after 18 years of operation under repository-like conditions
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Toshihiro Sakaki, Florian Kober, María Rey Mazón, and José Luis García-Siñeriz
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Pore water pressure ,Moisture ,Petroleum engineering ,Thermocouple ,Instrumentation ,Capacitive sensing ,Bentonite ,Psychrometrics ,Environmental science ,Radioactive waste ,Computers in Earth Sciences ,Geotechnical Engineering and Engineering Geology ,Safety, Risk, Reliability and Quality - Abstract
The FEBEX (Full-scale Engineered Barrier Experiment in Crystalline Host Rock) was a research and demonstration project, which aimed to study the behaviour of near-field components in a repository for high-level radioactive waste in granite formations. Two electrical heaters were placed in a horizontal drift excavated in the granodiorite of the Grimsel Test Site in Switzerland, and surrounded by a barrier made of highly compacted bentonite blocks (FEBEX bentonite or Serrata type). A wide range of sensors were installed to track the most essential THM parameters: total pressure cells, pore pressure sensors, thermocouples, displacement sensors, moisture sensors of different types (capacitive, psychrometric and TDR) and others. The activities of the FEBEX “in situ” test started in 1994, the installation was completed in 1996 and the operational phase (heating and natural hydration) started in February 1997. A partial dismantling was carried out after 5 years of operation in 2002 and the final dismantling was performed in 2015 after more than 18 years. This paper reports the observations and analysis performed to the sensors recovered during the final dismantling operation. Qualitative and quantitative assessment of performance by type of sensor and measuring technique were done based on the results from data recorded during the operational lifetime, from the dismantling operation and from analysis carried out. As main conclusion, many sensors survived under harsh conditions and their performance was significantly better than initially expected and provided valuable information about the THM parameters for more than 18 years. The damage type/degree varied depending on sensor type/material (specific sensors failed quickly whereas others remained intact even with no need for re-calibration). This allows suggesting possible improvements. The re-calibration results for the surviving sensors indicated that their accuracy had hardly changed and that the obtained data was trustworthy.
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- 2019
8. Interactions of bentonite with metal and concrete from the FEBEX experiment: mineralogical and geochemical investigations of selected sampling sites
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Florian Kober, Kristian Ufer, S. Kaufhold, and Reiner Dohrmann
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Cement ,education.field_of_study ,Materials science ,Precipitation (chemistry) ,Brucite ,Metallurgy ,Population ,020101 civil engineering ,02 engineering and technology ,engineering.material ,010502 geochemistry & geophysics ,01 natural sciences ,0201 civil engineering ,Corrosion ,Metal ,Geochemistry and Petrology ,visual_art ,Bentonite ,Cation-exchange capacity ,engineering ,visual_art.visual_art_medium ,education ,0105 earth and related environmental sciences - Abstract
The FEBEX experiment, a full-scale, high-level radioactive waste repository test, ran for ~18 years and hence is the longest-running disposal test to date. The test consisted of a heater emplaced in an envelope of compacted bentonite at the Grimsel test site, Switzerland. The water content of the bentonite was somewhat lower near the heater and increased towards the granite. This phenomenon probably led to gradients in the exchangeable cation population at various locations within the bentonite buffer. The cement (shotcrete) bentonite interface of one block was characterized by a thin (0.1–1.0 mm) reaction zone in which bentonite constituents, carbonates and sulfates occurred. Cation exchange and a slight decrease of the cation exchange capacity were observed near the heater. Oxic corrosion was observed predominantly at the bentonite/steel liner interfaces, pointing towards a role of air entrapped between the liner and heater during emplacement. At the liner surface, intimate intergrowth of bentonite constituents, metal and corrosion products was observed. At the face of the heater, the bentonite blocks were in direct contact with the heater surface without any signs of metal corrosion. Instead, a significant increase in the Mg content was recorded, which is in agreement with previous large-scale disposal tests. The FEBEX experiment proved that the Mg increase and corrosion were independent processes. The increase in Mg may be explained by the formation of trioctahedral domains or the precipitation of neoformed silicates. For the first time, however, brucite was identified as an additional phase that formed at the metal/bentonite interface, pointing towards a special role for Mg mobility in the bentonite barrier.
- Published
- 2018
9. Delving deeper into cosmogenic 26Al-10Be isochron-burial dating of Swiss Deckenschotter deposits
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Ewelina Broś, Christof Vockenhuber, Susan Ivy-Ochs, Colin Maden, Florian Kober, Hans-Arno Synal, Reto Grischott, and Marcus Christl
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Isochron ,Geochemistry ,Geology - Abstract
The oldest Quaternary deposits of the Swiss Northern Alpine Foreland are found on numerous hilltops, up to 300 m above the current valley bottoms. These Deckenschotter deposits consist mainly of glaciofluvial sediments intercalated with glacial sediments. Traditionally, the Deckenschotter are divided into two units: Höhere Deckenschotter (HDS – Higher Deckenschotter) and Tiefere Deckenschotter (TDS – Lower Deckenschotter). Elevation differences between the two suggest a phase of 100-150 m of incision (Graf, 2009).Knowledge of their age of deposition is necessary for understanding the long-term landscape evolution as well as for assessing the long-term safety of the planned deep geological repository for nuclear waste in northern Switzerland (NTB 14-01, 2014). In this study, the method of isochron-burial dating was implemented to address the question of the age of the Deckenschotter. We aim to reconstruct the chronology of the alternating deposition and incision of the gravel units in the Northern Alpine Foreland. Our focus is placed on similar and complementary Deckenschotter sites located in the Northern Alpine Foreland in crucial locations in order to establish sound long-term landscape evolution scenarios. One of these is a former gravel pit, Feusi, situated in the southern slope of the hill chain called ‘Egg’ or ‘Schliniker Platten’, north of the village Oberweningen. The outcrop comprises several gravel units intercalated with glacigenic diamict layer in the upper part. Previous age estimates with the isochron-burial dating method indicate an age of 1.1 ± 0.2 Ma for the diamict layer (NAB 19-025, 2020). Knudsen et al. (2020) reported an age of 0.93 ± 0.13 Ma for the same layer based on a slightly different age calculation approach.We sampled the lowermost accessible horizon, the Egg Schotter, of the Feusi outcrop at an altitude of ~580 m a.s.l. This horizon is located close to the base of the outcrop, just a few meters above the contact with the underlying Molasse and in a clear stratigraphic position, 20 m below the previously dated diamict. Study of the lowermost unit will allow us to temporally examine the earliest phases of Deckenschotter accumulation. Weathering horizons in the gravel layers overlying the Egg Schotter suggests periodic subaerial exposure. Therefore, the total time contained in the sediment package is difficult to estimate. Having two horizons dated at different depth in the same outcrop may provide insight into the timespan hidden between the deposition and weathering of different gravel layers. Indications of the timespan of HDS activity could be further gleaned by comparing to the age from the glacigenic sediment. In order to achieve this, eight clast samples of quartz-rich lithologies, of various shapes and sizes were collected in the Egg Schotter and processed for isochron-burial dating. The cosmogenic nuclides 10Be and 26Al were extracted and measured with the new MILEA accelerator at the accelerator mass spectrometry facility, ETH Zurich. The first results of this study will be presented. Graf, H.R. 2009: Quaternary Science Journal 58, 12–53Nagra, NTB 14-01, 2014Nagra, NAB 19-025, 2020Knudsen, M.F. et al. 2020. Earth and Planetary Science Letters, 549, 116491
- Published
- 2021
10. 3D lithological structure in a steady state model drives divide migration
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Emma Graf, Andreas Ludwig, Florian Kober, Angela Landgraf, and Simon M. Mudd
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Structure (category theory) ,Steady State theory ,Geometry ,Geology - Abstract
Predicting future relief is a longstanding challenge in the field of geomorphology. Past denudation and incision rates can be reconstructed and modelled from field data such as thermochronometers, cosmogenic nuclides or optically stimulated luminescence, whereas future rates are then, by definition, fully unknown. Predicting future landscape evolution is further complicated by the dynamic nature of drainage networks, as well as the necessity of constraining properties such as erodibility in order to make sensible predictions. One of the few constraints available for future landscape properties is the underground stratigraphy imaged by wells or geophysical methods. The 3D rock structure will eventually be exhumed and can be utilised to constrain the future states of model simulations.In this contribution, we present a landscape evolution model capable of ingesting 3D lithologic information and adapting to alternative channel networks, and demonstrate it using a study area in the Swiss Jura Mountains. The model calculates local relief using steady state solutions of the stream power incision model, and also quantifies hillslope relief using a very simple critical slope gradient where hillslope angles are set to a critical value on pixels that have a small drainage area. Further, drainage divides are allowed to migrate to minimize sharp breaks in relief across drainage divides.We calibrate the values of erodibility, K, for each lithological unit by extracting ranges of apparent K value from the present-day landscape based on drainage area and gradient along the drainage network. This is then further refined by i) using a Monte Carlo approach to create combinations of K based on these ranges, and ii) comparing the real and model landscape for each combination with the aim to minimise the difference between the two. We then run selected model simulations of future base level fall and potential drainage reorganisation events, highlighting the effects of i.) spatially variable erodibility and ii.) lateral changes of the main channel axis on divide migration.
- Published
- 2021
11. A statistical framework to analyse the stratigraphy of glaciofluvial terraces from topographic data
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Bernhard Salcher, Florian Kober, Gaudenz Deplazes, and Thomas Pollhammer
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Stratigraphy ,Geomorphology ,Geology - Abstract
Alluvial staircase terraces are typical Quaternary features of mid- to high latitude rivers. Their formation is linked to i) repeated events of increased sediment production, triggered by Quaternary climatic fluctuations and ii) tectonic uplift. Accordingly, terraces may act as important terrestrial archives of climatic and geodynamic information. Comprehensive stratigraphic and topographic data qualifies the North Alpine Foreland as an ideal study region. Even though it has been subject to extensive investigations for more than a century consistent, basin wide stratigraphic models have not been proposed for more than a century (Penck and Brückner, 1909). Advances in local stratigraphy created major stratigraphic inconsistencies between the related parts of Switzerland, Germany and Austria.In an aim to resolve these inconsistences we focus on foreland-wide high-resolution topographic data by investigating syn- and postdepositional signals behind the hypsometry and morphology of tributary terraces to the rivers Rhine and Danube.By utilizing data from digital elevation models, geologic maps as well as outcrop information, morphostratigraphic analyses are provided via a new toolset within the framework of the software R. Semiautomatic projection of terrace data on 2D profiles allow to perform statistical analysis (based on slope, relative heights, concavity) of river long profiles and terrace-tops. We show that extracted parameters are highly suitable to make quantitative statements on fluvio-, glacio- and geodynamic processes controlling Quaternary terrace formation. Penck, A., & Brückner, E. (1909). Die Alpen im Eiszeitalter. Leipzig: Tauchnitz.
- Published
- 2021
12. Late-Pleistocene catchment-wide denudation patterns across the European Alps
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Hella Wittmann, Naki Akçar, Christoph Glotzbach, Pierre G. Valla, Jean L. Dixon, Fritz Schlunegger, Stéphane Molliex, Kevin Norton, Bernhard Salcher, Florian Kober, Kristina Hippe, Romain Delunel, Marcus Christl, Institute of Geological Sciences [Bern], University of Bern, Institut des Sciences de la Terre (ISTerre), Institut national des sciences de l'Univers (INSU - CNRS)-Institut de recherche pour le développement [IRD] : UR219-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Gustave Eiffel-Université Grenoble Alpes (UGA), Montana State University (MSU), Institut für Geowissenschaften [Tübingen], Eberhard Karls Universität Tübingen = Eberhard Karls University of Tuebingen, Ion Beam Physics [ETH Zürich], Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), National Cooperative for the Disposal of Radioactive Waste (Nagra), Laboratoire Géosciences Océan (LGO), Institut Français de Recherche pour l'Exploitation de la Mer - Brest (IFREMER Centre de Bretagne), Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Bretagne Sud (UBS)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS), Victoria University of Wellington, Universität Salzburg, GeoForschungsZentrum - Helmholtz-Zentrum Potsdam (GFZ), Université de Bretagne Sud (UBS)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Brest (UBO)-Centre National de la Recherche Scientifique (CNRS), and ANR-18-MPGA-0006,MAGICLIM,Climat de montagne, glaciers et dynamique du paysage(2018)
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010504 meteorology & atmospheric sciences ,Pleistocene ,Geomorphology ,Denudation rates ,Cosmogenic nuclides ,Catchment ,Data compilation ,Surface uplift ,European Alps ,Lithology ,Fluvial ,15. Life on land ,010502 geochemistry & geophysics ,01 natural sciences ,Denudation ,13. Climate action ,[SDU]Sciences of the Universe [physics] ,[SDE]Environmental Sciences ,General Earth and Planetary Sciences ,Common spatial pattern ,Physical geography ,Glacial period ,Cosmogenic nuclide ,Surface runoff ,Geology ,550 Earth sciences & geology ,0105 earth and related environmental sciences - Abstract
We compile detrital 10Be concentrations of Alpine rivers, representing the denudation rates pattern for 375 catchments across the entire European Alps. Using a homogeneized framework, we employ state-of-the-art techniques for inverting in-situ 10Be concentrations into denudation rates. From our compilation, we find that (i) while lithologic properties and precipitation/runoff do influence erosion mechanisms and rates at the scale of individual catchments and in some specific Alpine regions, such controls do not directly stand for the entire Alps, (ii) as also previously suggested, catchment-wide denudation rates across the entire European Alps closely follow first-order Alpine topographic metrics at the scale of individual catchments or selected Alpine sub-regions. However, in addition to previous local-scale studies conducted in the European Alps, our large-scale compilation highlights a functional relationship between catchment-wide denudation and mean catchment slope angle. Catchment-wide denudation positively correlates with mean catchment slope up to a threshold angle (25–30°). Above this threshold, any correlation between catchment-wide denudation and slope as well as other catchment metrics breaks apart. We can reconcile these systematic patterns by proposing a regional erosion model based on diffusive-transport laws for catchments located below the slope threshold angle. In oversteepened catchments situated above-threshold slopes, erosion is stochastic in nature, as glacial carving likely caused a partial decoupling between hillslope and fluvial domains with complex topographic relationships and sediment connectivity patterns. Finally, we identify a first-order positive relationship between modern geodetic rock uplift and catchment-wide denudation for the European Alps. The observed spatial pattern is highly variable and possibly reflects the surface response to deep geodynamic mechanisms prevailing in the different Alpine regions. We conclude that today's topography and geomorphic features of the entire Alps are the result of a millenial-scale geomorphic response to past glacial processes and active rock uplift, highlighting a link between external and internal drivers for mountain erosion. ISSN:0012-8252 ISSN:1872-6828
- Published
- 2020
13. New cosmogenic nuclide burial-dating model indicates onset of major glaciations in the Alps during Middle Pleistocene Transition
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David L. Egholm, Florian Kober, Mads Faurschou Knudsen, Thomas Mejer Hansen, Jesper Nørgaard, John D. Jansen, and Reto Grischott
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Isochron ,geography ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Pleistocene ,first major Alpine glaciations ,inverse Monte Carlo modelling ,Glacier ,010502 geochemistry & geophysics ,cosmogenic nuclides ,01 natural sciences ,Paleontology ,Pleistocene climate ,Geophysics ,Space and Planetary Science ,Geochemistry and Petrology ,Outwash plain ,Earth and Planetary Sciences (miscellaneous) ,Ice age ,burial dating ,Glacial period ,Cosmogenic nuclide ,Foreland basin ,Geology ,0105 earth and related environmental sciences - Abstract
A set of four outwash terraces in the northern Alpine Foreland motivated Penck and Brückner's classical scheme of four great Alpine ice ages: Günz, Mindel, Riss, and Würm. While it is now established that the Würm corresponds to marine isotope stages (MIS) 5d–2 (∼117–14 ka) and the Riss type locality to MIS 6 (∼191–130 ka), there is no consensus regarding the age of the older glaciations. The two oldest terraces, known as Höhere Deckenschotter (HDS) and Tiefere Deckenschotter (TDS) in Switzerland and neighbouring Germany, contain interbedded tills that directly indicate the first arrival of glaciers into the northern Alpine Foreland. Here, we set out to constrain the timing of the HDS, which signal the first major glaciations in the Alps. To achieve this goal, we devised a new burial-dating model tailored to glaciogenic sediments: P-PINI (Particle Pathway Inversion of Nuclide Inventories). The method applies a source-to-sink framework to a cosmogenic 10Be-26Al inversion model accounting for variable cosmic-ray exposure and non-steady erosion. Taking published 10Be-26Al data from five HDS sites (Feusi, Tromsberg, Siglistorf, Irchel Steig, and Irchel Hütz) and one TDS site (Iberig), we obtain age distributions (±1σ) that are especially well constrained for Feusi (0.93 ± 0.13 Ma), Iberig (0.93 ± 0.17 Ma), and Tromsberg (0.88 ± 0.14 Ma), less well-constrained for Irchel Steig (0.69 ± 0.25 Ma) and Siglistorf (0.94 ± 0.27 Ma), and very poorly constrained for Irchel Hütz (1.39 ± 0.56 Ma). Consistent with the morphostratigraphy, which dictates that the TDS postdates the HDS, we implemented a Bayesian modelling framework, yielding an age of 0.69 ± 0.12 Ma for Iberig (TDS) and a combined age of 0.95 ± 0.07 Ma for the HDS sites. Based on the P-PINI burial ages as well as the combined, Bayesian burial age, we propose an age around 1.0–0.9 Ma for the onset of the large Alpine glaciations that triggered the accumulation of the HDS outwash sediments. This roughly accords with the first long glaciation of the Pleistocene (MIS 24–22), identified as a step-change to colder climate and larger glaciations towards the end of the Middle Pleistocene Transition. While our results challenge previously reported ages of ∼2 Ma or more for the HDS in Switzerland, they corroborate evidence from the southern Alpine retroforeland and provide quantitative support for the early hypothesis by G.J. Kukla, who ascribed the oldest glacial deposits in the northern Alpine Foreland to around MIS 22. Finally, we suggest that the source-to-sink approach of P-PINI offers a viable alternative to the established isochron burial-dating method in cases involving non-steady exposure and erosion.
- Published
- 2020
14. GIS based morphostratigraphic evaluation of glaciofluvial terraces in the foreland of the European Alps
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Bernhard Salcher, Gaudenz Deplazes, Florian Kober, and Thomas Pollhammer
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Paleontology ,Foreland basin ,Geology - Abstract
Glacial and glaciofluvial sediments of the North Alpine Foreland have been subject to extensive quaternary research for more than a century. Nevertheless, a regional scale stratigraphic model has not been proposed since Penk & Brückner (1909). Since then, geological evidence were fit into local stratigraphic classifications, leading to severe inconsistencies across different countries/regions. The following study aims to solve inconsistencies by a morphostratigraphical approach, applying innovative methods utilizing new high-resolution digital elevation models, existing geodata and information from literature.First, the abundant information from literature was reviewed to create a synopsis of commonly used terrace stratigraphic classifications. Second, geologic maps and (high-resolution) digital elevation models were compiled in a GIS database. To process this data, a new toolset was developed (using software R), fitting the requirements of morphostratigraphic analyses. These mainly involve the processing and statistic evaluation of terrace-top surfaces. Based on these analyses, we discussed fluvial, glacial and geodynamic factors, controlling the observed hypsometric parameters (concavity, slope, relative heights). To stratigraphically compare results across catchments and regions, the modern Danube and Rhine River were used as “fixed” base-levels to which tributary terrace tops were extrapolated. Terrace elevations above these base-levels were used as proxy to evaluate the rare absolute and otherwise inferred terrace ages from literature. Derived morphostratigraphic evidence provides an objective basis to discuss and harmonise the highly complex and diverging stratigraphic classification schemes across North Alpine Foreland regions.Penck, A., & Brückner, E. (1909). Die Alpen im Eiszeitalter. Leipzig: Tauchnitz.
- Published
- 2020
15. Evaluating the effect of variable lithologies on rates of knickpoint migration in the Wutach catchment, southern Germany
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Florian Kober, Andreas Ludwig, Wolfgang Schwanghart, and Angela Landgraf
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Hydrology ,Variable (computer science) ,geography ,geography.geographical_feature_category ,Knickpoint ,Lithology ,Drainage basin ,Geology - Abstract
The topographic evolution of landscapes strongly depends on the resistance of bedrock to erosion. Detachment-limited fluvial landscapes are commonly analyzed and modelled with the stream power incision model (SPIM) which parametrizes erosional efficiency by the bulk parameter K whose value is largely determined by bedrock erodibility. Inversion of the SPIM using longitudinal river profiles enables resolving values of K if histories of rock-uplift or base level change are known. Here, we present an approach to estimate K-values for the Wutach catchment, southern Germany. The catchment is a prominent example of river piracy that occurred ~18 ka ago as response to headward erosion of a tributary to the Rhine. Base level fall of up to 170 m triggered a wave of upstream migrating knickpoints that represent markers for the transient response of the landscape. Knickpoint migration along the main trunk stream and its tributaries passed different lithological settings, which allows us to estimate K for crystalline and sedimentary bedrock units of variable erodibility.
- Published
- 2020
16. Structural-permeability favorability in crystalline rocks and implications for groundwater flow paths: a case study from the Aar Massif (central Switzerland)
- Author
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Alfons Berger, Florian Kober, Marco Herwegh, Daniel Egli, Urs Mäder, Georg W. Lanyon, and Raphael Schneeberger
- Subjects
geography ,geography.geographical_feature_category ,Hydrogeology ,010504 meteorology & atmospheric sciences ,Groundwater flow ,Water flow ,Bedrock ,Massif ,010502 geochemistry & geophysics ,01 natural sciences ,Hydraulic conductivity ,Earth and Planetary Sciences (miscellaneous) ,Petrology ,Groundwater ,Geology ,0105 earth and related environmental sciences ,Water Science and Technology ,Waste disposal - Abstract
Groundwater flow in granitic bedrock is of major interest for underground projects such as radioactive waste disposal. It is generally accepted that granitic rocks of the upper crust are characterized as faulted low-porosity rocks showing fault-related permeability. In this study, the influence of existing faults on the present-day water flow in the Grimsel Test Site (Switzerland), an underground rock laboratory situated in granitoid rocks, was investigated by mapping water discharges. As a result, the link between water flow and faults considering slip-tendency analysis and fault intersections is evaluated. Water-conducting features were combined in a structural-permeability favorability map. Faults and dykes occur as three orientation groups, NE–SW, E–W, and NW–SE trending, all steeply dipping southwards with fault intersections also steeply plunging southwards. In total, 100 water discharges were mapped in summer 2014 and 85 in winter 2016, which are located along faults or fault intersections. A comparison of water discharges with structures showed that high-slip-tendency metabasic dykes and fault or dyke intersections represent the dominant flow paths. Further, it could be demonstrated that higher slip-tendency tends to lead to enhanced average hydraulic conductivity and therefore more constant water flow. Based on water fluxes, fault intersections are inferred to represent first-order locations of water percolation followed by high-slip-tendency metabasic dykes. The combination of all water-conducting features into a structural-permeability map results in covering all water discharges. Therefore, the structural-permeability favorability map can serve as suitable representation for constraining water inflow in fractured granitoid host rocks.
- Published
- 2018
17. Methods and uncertainty estimations of 3-D structural modelling in crystalline rocks: a case study
- Author
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Florian Kober, Daniel Egli, Raphael Schneeberger, Florian Wellmann, Miguel de la Varga, Alfons Berger, and Marco Herwegh
- Subjects
010504 meteorology & atmospheric sciences ,Stratigraphy ,Extrapolation ,Soil Science ,Fault (geology) ,010502 geochemistry & geophysics ,Bayesian inference ,01 natural sciences ,Crystalline bedrock ,lcsh:Stratigraphy ,Geochemistry and Petrology ,550 Earth sciences & geology ,ddc:550 ,Geomorphology ,0105 earth and related environmental sciences ,Earth-Surface Processes ,lcsh:QE640-699 ,geography ,geography.geographical_feature_category ,Delaunay triangulation ,lcsh:QE1-996.5 ,Paleontology ,Geology ,Massif ,Moment of inertia ,lcsh:Geology ,Permeability (earth sciences) ,Geophysics ,Seismology - Abstract
Solid earth 8(5), 987 - 1002 (2017). doi:10.5194/se-8-987-2017, Published by Copernicus Publ., Göttingen
- Published
- 2017
18. Constant denudation rates in a high alpine catchment for the last 6 kyrs
- Author
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Kristina Hippe, Bernhard Salcher, Irka Hajdas, Reto Grischott, Marcus Christl, Florian Kober, Maarten Lupker, and Susan Ivy-Ochs
- Subjects
Delta ,Hydrology ,geography ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Geography, Planning and Development ,Alluvial fan ,Sediment ,010502 geochemistry & geophysics ,01 natural sciences ,Alluvial plain ,Denudation ,Earth and Planetary Sciences (miscellaneous) ,Alluvium ,Cosmogenic nuclide ,Holocene ,Geology ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
Terrestrial cosmogenic nuclides (TCN) have widely been used as proxies in determining denudation rates in catchments. Most studies were limited to samples from modern active streams, thus little is known about the magnitude and causes of TCN variability on millennial time scales. In this work we present a 6 kyrs long, high resolution record of 10Be concentrations (n = 18), which were measured in sediment cores from an alluvial fan delta at the outlet of the Fedoz Valley in the Swiss Alps. This record is paired with a three-year time series (n = 4) of 10Be measured in sediment from the active stream currently feeding this fan delta. The temporal trend in the 10Be concentrations after correction for postdepositional production of 10Be was found to be overall constant and in good agreement with the modern river 10Be concentration. The calculated mean catchment-wide denudation rate amounts to 0.73 ± 0.18 mm/yr. This fairly constant level of 10Be concentrations can be caused by a constant denudation rate over time within the catchment or alternatively by a buffered signal. In this contribution we suggest that the large alluvial floodplain in the Fedoz Valley may act as an efficient buffer on Holocene time scales in which sediments with different 10Be signatures are mixed. Therefore, presumable variations in the 10Be signals derived from changes in denudation under a fluctuating Holocene climate are only poorly transferred to the catchment outlet and not recorded in the 10Be record. However, despite the absence of high frequency signals, we propose that the buffered and averaged 10Be signal could be meaningfully and faithfully interpreted in terms of long-term catchment-averaged denudation rate. Our study suggests that alluvial buffers play an important role in regulating the 10Be signal exported by some alpine settings that needs to be taken into account and further investigated. This article is protected by copyright. All rights reserved.
- Published
- 2016
19. Numerically reproduced HE-E experiment of Mont Terri project by Thermo-Hydro-Mechanical coupled model.
- Author
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Cardoso, R., Jommi, C., Romero, E., Sato, Shin, Yamamoto, Shuichi, Torisu, Seda, Fukaya, Masaaki, Tawara, Yasuhiro, Tanaka, Kei, and Florian, Kober
- Published
- 2020
- Full Text
- View/download PDF
20. A deglaciation model of the Oberhasli, Switzerland
- Author
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Christian Schlüchter, Florian Kober, Susan Ivy-Ochs, Jerzy Zasadni, Marcus Christl, and Christian Wirsig
- Subjects
010506 paleontology ,Arts and Humanities (miscellaneous) ,Earth and Planetary Sciences (miscellaneous) ,Deglaciation ,Paleontology ,Physical geography ,010502 geochemistry & geophysics ,01 natural sciences ,Archaeology ,Geology ,0105 earth and related environmental sciences - Published
- 2016
21. Interlaboratory comparison of cosmogenic 21 Ne in quartz
- Author
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Rainer Wieler, Pieter Vermeesch, Florian Kober, Pierre-Henri Blard, Tibor Dunai, David L. Shuster, Greg Balco, Laurent Zimmermann, Stefan Strasky, Samuel Niedermann, Finlay M. Stuart, Institute of Geochemistry and Petrology [ETH Zurich], Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), London Geochronology Centre, Department of Earth Sciences [UCL London], University College of London [London] (UCL)-University College of London [London] (UCL), Berkeley Geochronology Center (BGC), Centre de Recherches Pétrographiques et Géochimiques (CRPG), Université de Lorraine (UL)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Universität zu Köln, GeoForschungsZentrum - Helmholtz-Zentrum Potsdam (GFZ), Department of Earth and Planetary Science [UC Berkeley] (EPS), University of California [Berkeley], University of California-University of California, Scottish Universities Environmental Research Centre (SUERC), and University of Glasgow-University of Edinburgh
- Subjects
Reproducibility ,010504 meteorology & atmospheric sciences ,Isotope ,Stratigraphy ,[SDU.STU]Sciences of the Universe [physics]/Earth Sciences ,Mineralogy ,Noble gas ,Geology ,Quartz ,010502 geochemistry & geophysics ,Mass spectrometry ,01 natural sciences ,Calibration Standard ,21Ne ,Earth and Planetary Sciences (miscellaneous) ,Calibration ,Cosmogenic nuclides ,Nuclide ,Cosmogenic nuclide ,0105 earth and related environmental sciences - Abstract
International audience; We performed an interlaboratory comparison study with the aim to determine the accuracy of cosmogenic 21Ne measurements in quartz. CREU-1 is a natural quartz standard prepared from amalgamated vein clasts which were crushed, thoroughly mixed, and sieved into 125–250 μm and 250–500 μm size fractions. 50 aliquots of CREU-1 were analyzed by five laboratories employing six different noble gas mass spectrometers. The released gas contained a mixture of 16–30% atmospheric and 70–84% non-atmospheric (predominantly cosmogenic) 21Ne, defining a linear array on the 22Ne/20Ne-21Ne/20Ne three isotope diagram with a slope of 1.108 ± 0.014. The internal reproducibility of the measurements is in good agreement with the formal analytical precision for all participating labs. The external reproducibility of the 21Ne concentrations between labs, however, is significantly overdispersed with respect to the reported analytical precision. We report an average reference concentration for CREU-1 of 348 ± 10 × 106 at [21Ne]/g[SiO2], and suggest that the 7.1% (2σ) overdispersion of our measurements may be representative of the current accuracy of cosmogenic 21Ne in quartz. CREU-1 was tied to CRONUS-A, which is a second reference material prepared from a sample of Antarctic sandstone. We propose a reference value of 320 ± 11 × 106 at/g for CRONUS-A. The CREU-1 and CRONUS-A intercalibration materials may be used to improve the consistency of cosmogenic 21Ne to the level of the analytical precision.
- Published
- 2015
22. The Chironico landslide (Valle Leventina, southern Swiss Alps): age and evolution
- Author
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Peter W. Kubik, Anne Claude, Susan Ivy-Ochs, Marco Antognini, Bernhard Salcher, and Florian Kober
- Subjects
geography ,geography.geographical_feature_category ,Surface exposure dating ,Tributary ,Deglaciation ,Geology ,Landslide ,Stadial ,Cosmogenic nuclide ,Geomorphology ,Gneiss - Abstract
In this study, we focus on the postglacial Chironico landslide in Valle Leventina, the valley of the Ticino river immediately south of the Gotthard pass (southern Swiss Alps). At Chironico, 530 million m3 of granite gneiss detached from the eastern wall of Valle Leventina and slid along valley-ward dipping foliation joints and fractures. The slide mass was deposited into the valley bottom and blocked the Ticino river, as well as a tributary, the Ticinetto stream, on the opposite side of the valley. Wood fragments found in lacustrine sediments in the slide-dammed upstream lake were previously dated, yielding a minimum age for the landslide of approximately 13,500 cal years BP. Based on the deposit morphology, the landslide was in the past interpreted as being composed of two events. In order to directly date the landslide, ten boulders were dated using the cosmogenic nuclides 10Be and 36Cl. Mean exposure ages indicate that the landslide occurred at 13.38 ± 1.03 ka BP, during the Bolling-Allerod interstadial. This implies that the Chironico landslide, one of the few pre-Holocene slides known in Alps, is also the oldest in crystalline rock. With runout modelling using DAN3D we could reproduce the hypothesized single-event failure scenario, as well as the character and extent of motion of the landslide mass. Both the ages and the modelling suggest that the landslide was released in one event around 3,000 years following deglaciation.
- Published
- 2014
23. Supplementary material to 'Methods and uncertainty-estimations of 3D structural modelling in crystalline rocks: A case study'
- Author
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Raphael Schneeberger, Miguel De la Varga, Daniel Egli, Alfons Berger, Florian Kober, Florian Wellmann, and Marco Herwegh
- Published
- 2017
24. Methods and uncertainty-estimations of 3D structural modelling in crystalline rocks: A case study
- Author
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Raphael Schneeberger, Miguel De la Varga, Daniel Egli, Alfons Berger, Florian Kober, Florian Wellmann, and Marco Herwegh
- Abstract
Exhumed basement rocks are often dissected by faults, the latter controlling physical parameters such as rock strength, porosity, or permeability. Knowledge on the three dimensional (3D) geometry of the fault pattern and its continuation with depth is therefore of paramount importance for projects of applied geology (e.g. tunnelling, nuclear waste disposals) in crystalline bedrock. The central Aar massif (Central Switzerland) serves as study area, where we investigate the 3D geometry of the Alpine fault pattern by means of both surface (fieldwork and remote sensing) and underground ground (mapping of the Grimsel Test Site) information. The fault zone pattern consists of planar steep major faults (kilometre-scale) being interconnected with secondary relay faults (hectometre-scale). Starting with surface data, we present a workflow for structural 3D modelling of the primary faults based on a comparison of three extrapolation approaches based on: a) field data, b) Delaunay triangulation and c) a best fitting moment of inertia analysis. The quality of these surface-data-based-3D models is then tested with respect to the fit of the predictions with the underground appearance of faults. All three extrapolation approaches result in
- Published
- 2017
25. Millennial scale variability of denudation rates for the last 15 kyr inferred from the detrital 10Be record of Lake Stappitz in the Hohe Tauern massif, Austrian Alps
- Author
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Reto Grischott, Juergen M. Reitner, Sean D. Willett, Florian Kober, Irka Hajdas, Markus Christl, Maarten Lupker, and Ruth Drescher-Schneider
- Subjects
Archeology ,Global and Planetary Change ,geography ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Ecology ,Earth science ,Paleontology ,Sediment ,Massif ,010502 geochemistry & geophysics ,01 natural sciences ,alpine catchment ,Austria ,climate impact ,cosmogenic nuclides ,denudation rates ,glacier activity ,lake sediment core ,paraglacial cycle ,transient landscape ,Denudation ,Paraglacial ,Erosion ,Period (geology) ,Physical geography ,Cosmogenic nuclide ,Geology ,Holocene ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
Reconstructing paleo-denudation rates over Holocene timescales in an Alpine catchment provides a unique opportunity to isolate the climatic forcing of denudation from other tectonic or anthropogenic effects. Cosmogenic 10Be on two sediment cores from Lake Stappitz (Austrian Alps) were measured yielding a 15-kyr-long catchment-averaged denudation record of the upstream Seebach Valley. The persistence of a lake at the outlet of the valley fixed the baselevel, and the high mean elevation minimizes anthropogenic impacts. The 10Be record indicates a decrease in the proportion of paraglacial sediments from 15 to 7 kyr cal. BP after which the 10Be concentrations are considered to reflect hillslope erosion and thus can be converted to denudation rates. These ones significantly fluctuated over this time period: lower hillslope erosion rates of ca. 0.4 mm/year dated between 5 and 7 kyr cal. BP correlate with a stable climate, sparse flooding events and elevated temperatures that favoured the widespread growth of stabilizing soils and vegetation. Higher hillslope erosion rates of ca. 0.8 mm/year over the last ~4 kyr correlate with a variable, cooler climate where frequent flooding events enhance denudation of less protected hillslopes. Overall, our results suggest a tight coupling of climate and hillslope erosion in alpine landscapes as it has been observed in other parts of the Alps.
- Published
- 2017
26. Glacial impact on short-wavelength topography and long-lasting effects on the denudation of a deglaciated mountain range
- Author
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Bernhard Salcher, Sean D. Willett, Florian Kober, and Eduard Kissling
- Subjects
Global and Planetary Change ,010504 meteorology & atmospheric sciences ,Fluvial ,Last Glacial Maximum ,15. Life on land ,010502 geochemistry & geophysics ,Oceanography ,01 natural sciences ,Denudation ,13. Climate action ,Deglaciation ,Erosion ,Glacial period ,Cosmogenic nuclide ,Geomorphology ,Geology ,Drainage density ,0105 earth and related environmental sciences - Abstract
Distinct alpine landforms in most high to mid-latitude mountain chains highlight the importance of glacial erosion in shaping mountain topography. The modifications to the initially, fluvially shaped landscape are associated with a massive and sustainable change in the distribution and magnitude of denudation following deglaciation. In this paper we focus on the glacially induced modifications to the short-wavelength topography of the deglaciated European Central Alps in an attempt to characterize the degree of glacial erosion on mountain topography and to explore the potential impact on millennial scale catchment denudation. We propose that short-wavelength topography is characteristically obliterated by glacial action and a measure of this process is provided by drainage density, which can be obtained by measuring the topographic curvature extracted from a DEM. Drainage density is well correlated with catchment-wide denudation rates from cosmogenic nuclides ( 10 Be), but in two separate domains, identified by the degree of glacial conditioning. At lower elevations, where fluvial erosion processes dominate at present, drainage density tends to increase with denudation rate and mean slope. At higher elevations drainage density tends to decrease with increasing denudation rate but is not sensitive to mean slope. The transition between these domains is approximately coincident with the equilibrium line altitude of the last glacial maximum. Our results indicate that the decreasing drainage density in the higher domain reflects the cumulative impact of glacial erosion. We speculate that the commensurate lengthening of hillslopes increases slope instability and mass flux, thereby resulting in higher denudation rates. Rock mass strength seems to have a further significant effect on these relationships.
- Published
- 2014
27. Denudation rates of small transient catchments controlled by former glaciation: The Hörnli nunatak in the northeastern Swiss Alpine Foreland
- Author
-
Bernhard Salcher, Florian Kober, Peter W. Kubik, Marius W. Buechi, Susan Ivy-Ochs, and Marcus Christl
- Subjects
geography ,Nunatak ,geography.geographical_feature_category ,Stratigraphy ,Fluvial ,Geology ,Glacier morphology ,Denudation ,Interglacial ,Earth and Planetary Sciences (miscellaneous) ,Glacial period ,Cosmogenic nuclide ,Foreland basin ,Geomorphology - Abstract
Extensive glaciers repeatedly occupied the northern Alpine Foreland during the Pleistocene and left a strongly glacially overprinted low slope landscape. Only few islands appeared as nunataks standing above the surface of the large piedmont glacier lobes. These nunatak areas kept their original shape, manifested in steep catchments with mean slopes up to 33 . Even though not glaciated, these catchments where significantly affected by base-level changes occurring as a consequence of phases of glacier advances and retreats. Both domains, the glacially eroded and non-eroded, are therefore prone to different mechanisms and time-scales of fluvial and colluvial re-adjustment. In this study we investigate these effects by exploring the spatial distribution and magnitude of denudation in the Hornli region of the eastern Swiss Alpine Foreland in the present Interglacial. The area represents both domains in a relatively small area with largely uniform tectonic, lithologic and climatic conditions. The differences in Holocene andscape evolution are investigated using topographic analyses and catchment-averaged denudation rates derived from 10Be concentrations in fluvial quartz sand. We find that in formerly non-glaciated, fluvially dominated catchments close hillslope-channel coupling prevails and that these catchments yield high average denudation rates of 350 mm/ka. Glacially overprinted catchments yielded catchment-wide denudation rates an order of magnitude lower. These low denudation rates are hypothesized to be the consequence of both (i) a dominance of slow hillslope processes and (ii) admixture of high concentration, pre-LGM glacial sediment. This suggests that a) a careful field investigation must accompany the denudation rate studies and b) that the concept of area-weighted cosmogenic nuclide denudation rates must be considered in light of the predominant catchment processes.
- Published
- 2014
28. Chronology of Lateglacial ice flow reorganization and deglaciation in the Gotthard Pass area, Central Swiss Alps, based on cosmogenic 10Be and in situ 14C
- Author
-
Susan Ivy-Ochs, Christian Schlüchter, Kristina Hippe, L. Wacker, Jerzy Zasadni, Rainer Wieler, Peter W. Kubik, and Florian Kober
- Subjects
geography ,geography.geographical_feature_category ,Stratigraphy ,Ice stream ,Geology ,Glacier ,Surface exposure dating ,Earth and Planetary Sciences (miscellaneous) ,Deglaciation ,Glacial period ,Ice divide ,Physical geography ,Younger Dryas ,Geomorphology ,Holocene - Abstract
We reconstruct the timing of ice flow reconfiguration and deglaciation of the Central Alpine Gotthard Pass, Switzerland, using cosmogenic 10Be and in situ14C surface exposure dating. Combined with mapping of glacial erosional markers, exposure ages of bedrock surfaces reveal progressive glacier downwasting from the maximum LGM ice volume and a gradual reorganization of the paleoflow pattern with a southward migration of the ice divide. Exposure ages of ∼16–14 ka (snow corrected) give evidence for continuous early Lateglacial ice cover and indicate that the first deglaciation was contemporaneous with the decay of the large Gschnitz glacier system. In agreement with published ages from other Alpine passes, these data support the concept of large transection glaciers that persisted in the high Alps after the breakdown of the LGM ice masses in the foreland and possibly decayed as late as the onset of the Bolling warming. A younger group of ages around ∼12–13 ka records the timing of deglaciation following local glacier readvance during the Egesen stadial. Glacial erosional features and the distribution of exposure ages consistently imply that Egesen glaciers were of comparatively small volume and were following a topographically controlled paleoflow pattern. Dating of a boulder close to the pass elevation gives a minimum age of 11.1 ± 0.4 ka for final deglaciation by the end of the Younger Dryas. In situ14C data are overall in good agreement with the 10Be ages and confirm continuous exposure throughout the Holocene. However, in situ14C demonstrates that partial surface shielding, e.g. by snow, has to be incorporated in the exposure age calculations and the model of deglaciation.
- Published
- 2014
29. An update on in situ cosmogenic 14C analysis at ETH Zürich
- Author
-
Simon Fahrni, L. Wacker, Naki Akçar, Florian Kober, Susan Ivy-Ochs, Christian Schlüchter, Rainer Wieler, and Kristina Hippe
- Subjects
In situ ,Nuclear and High Energy Physics ,Improved performance ,Chemistry ,Extraction (chemistry) ,Radiochemistry ,Cosmogenic nuclide ,Instrumentation - Abstract
We present the improved performance of the modified in situ cosmogenic 14C extraction system at ETH Zurich. Samples are now processed faster (2 days in total) and are measured with a high analytical precision of usually
- Published
- 2013
30. Rate of crustal shortening and non-Coulomb behaviour of an active accretionary wedge: The folded fluvial terraces in Makran (SE, Iran)
- Author
-
Negar Haghipour, Peter W. Kubik, Mohammad Faridi, Florian Kober, Gerold Zeilinger, Jean-Pierre Burg, and Susan Ivy-Ochs
- Subjects
Décollement ,Accretionary wedge ,Subduction ,Fluvial ,Fold (geology) ,Tectonics ,Geophysics ,Space and Planetary Science ,Geochemistry and Petrology ,Earth and Planetary Sciences (miscellaneous) ,Institut für Ernährungswissenschaft ,Sedimentary rock ,Petrology ,Quaternary ,Geology ,Seismology - Abstract
We surveyed fluvial terraces to decipher the Quaternary increment of crustal shortening and shortening rate in the on-shore Makran Accretionary Wedge. We focused on three major catchment basins and associated fold systems. Terrace profiles reconstructed from differential GPS measurements combined with DEM revealed two regional dominant wavelengths, about 5 km in the northern part of the study area and about 15 km to the south. These two wavelengths suggest the existence of two active decollement layers at two rooting depths. The average shortening rate due to folding is estimated at 0.8-1.2 mm/a over the last 130 ka. This accounts for 10-15% of the shortening rate (similar to 8 mm/a) given by kinematic GPS measurements between Chabahar and Bazman and 3% of the convergence between Arabia and Eurasia, across the Makran subduction zone. Despite active deformation and a relatively high shortening rate, the geophysical record shows nearly absent seismic activity in Makran. We propose that strain accumulated in folds over intermediate decollement levels within a thick, incompletely lithified sedimentary cover explains the essentially aseismic, recent tectonics in this region. The importance of folds points to imperfect Coulomb behaviour of the wedge. (C) 2012 Elsevier B.V. All rights reserved.
- Published
- 2012
31. Debris-flow–dependent variation of cosmogenically derived catchment-wide denudation rates
- Author
-
Peter W. Kubik, Kristina Hippe, Susan Ivy-Ochs, N. Hählen, Bernhard Salcher, Florian Kober, and Lukas Wacker
- Subjects
Hydrology ,geography ,geography.geographical_feature_category ,Drainage basin ,Sediment ,Geology ,Atmospheric sciences ,Debris ,Debris flow ,Denudation ,Cosmogenic nuclide ,Holocene ,Colluvium - Abstract
Catchment-wide denudation rates (CWDRs) obtained from cosmogenic nuclides are an efficient way to determine geomorphic processes quantitatively in alpine mountain ranges over Holocene time scales. These rate estimations assume steady geomorphic processes. Here we use a time series (3 yr) in the Aare catchment (central Swiss Alps) to test the impact of spatially heterogeneous stochastic sediment supply on CWDRs. Our results show that low-frequency, high-magnitude debris-flow events significantly perturb cosmogenic nuclide ( 10 Be, 14 C) concentrations and thus CWDRs. The 10 Be concentrations decrease by a factor of two following debris-flow events, resulting in a doubling of inferred CWDRs. The variability indicates a clear time and source dependency on sediment supply, with restricted area-weighted mixing of sediment. Accordingly, in transient environments, it is critical to have an understanding of the history of geomorphic processes to derive meaningful CWDRs. We hypothesize that the size of debris flows, their connectivity with the trunk stream, and the ability of the system to sufficiently mix sediment from low- and high-order catchments control the magnitude of CWDR perturbations. We also determined in situ 14 C in a few samples. In conjunction with 10 Be, these data suggest partial storage for colluvium of a few thousand years within the catchment prior to debris-flow initiation.
- Published
- 2012
32. The cosmogenic 21Ne production rate in quartz evaluated on a large set of existing 21Ne–10Be data
- Author
-
Vasily Alfimov, Susan Ivy-Ochs, Florian Kober, Rainer Wieler, and Peter W. Kubik
- Subjects
Geophysics ,Muon ,Space and Planetary Science ,Geochemistry and Petrology ,Earth and Planetary Sciences (miscellaneous) ,Mineralogy ,Spallation ,Cosmogenic nuclide ,Exposure history ,Quartz ,Geology ,Production rate - Abstract
Based on a compilation of published combined 10 Be and 21 Ne cosmogenic nuclide data sets from quartz samples obtained at ETH Zurich we assess the 21 Ne/ 10 Be (P21/P10) production rate ratio with the goal to determine the 21 Ne production rate (P21) in quartz. A variety of sliding “erosion islands” in a 21 Ne/ 10 Be versus 10 Be diagram were evaluated to find the one that fits the data best, which in turn yields the most probable P21 if the 10 Be production rate is known. The approach minimizes the influence of samples with a complex exposure history. A best-fit value for P21/P10 sp ( sp — the 10 Be fraction being produced by spallation, as opposed to production by muons) of 4.23 ± 0.17 is obtained for a 10 Be half-life of 1.39 Ma. Adopting a P10 sp value in quartz of 4.41 ± 0.52 at g −1 yr −1 this yields a P21 of 18.7 ± 2.3 at g −1 yr −1 . It is possible that 2% of the 21 Ne is produced by fast muons.
- Published
- 2011
33. Sand residence times of one million years in the Namib Sand Sea from cosmogenic nuclides
- Author
-
Florian Kober, Giles F.S. Wiggs, Sheng Xu, Cassandra R. Fenton, Charlie S. Bristow, and Pieter Vermeesch
- Subjects
Hydrology ,Provenance ,Geochronology ,Geochemistry ,General Earth and Planetary Sciences ,Cosmogenic nuclide ,Quaternary ,Geology - Abstract
The Namib Sand Sea is one of the world’s oldest and largest sand deserts1, yet little is known about the source of the sand in this, or other large deserts2. In particular, it is unclear whether the sand is derived from local sediment or comes from remote sources. The relatively uniform appearance of dune sands and low compositional variability within dune fields3 make it difficult to address this question. Here we combine cosmogenic-nuclide measurements and geochronological techniques to assess the provenance and migration history of sand grains in the Namib Sand Sea. We use U–Pb geochronology of detrital zircons to show that the primary source of sand is the Orange River at the southern edge of the Namib desert. Our burial ages obtained from measurements of the cosmogenic nuclides 10Be, 26Al and 21Ne suggest that the residence time of sand within the sand sea is at least one million years. We therefore conclude that, despite large climatic changes in the Namib region associated with Quaternary glacial–interglacial cycles4, 5, the area currently occupied by the Namib Sand Sea has never been entirely devoid of sand during the past million years.
- Published
- 2010
34. Sedimentology-based reconstructions of paleoclimate changes in the Central Andes in response to the uplift of the Andes, Arica region between 19 and 21°S latitude, northern Chile
- Author
-
Fritz Schlunegger Florian Kober Gerold Zeilinger Ruedi von Rotz
- Abstract
We focus on the sedimentological record of the Middle Miocene to modern deposits in the Andes of northern Chile between 19 and 21S. These sediments deposited at the Western Escarpment of the Central Depression indicate successively more moisture on the western margin of the Altiplano and the Western Cordillera where the sources are. At the Pacific Coast 20 Ma old exposure ages and salic gypsisols reflect an existing and ongoing hyperarid climate. We interpret the increased divergence of climates between the Coast and the Altiplano as consequence of the Andean rise to elevations higher than approximately 2500 m a.s.l. when the topography of the Altiplano was sufficiently high and areally extensive to attract Atlantic moisture. Accordingly the inferred general increase in run off was closely coupled with the uplift of the Andes if the steady rise model applies. In case that the rapid rise model for Andean uplift is correct the inferred changes in sediment transport would have occurred independently of uplift requiring an alternative yet unknown driver.
- Published
- 2010
35. The current performance of the in situ 14C extraction line at ETH
- Author
-
Rainer Wieler, Matthias Ruff, Florian Kober, Lukas Wacker, Kristina Hippe, and Heinrich Baur
- Subjects
In situ ,Stratigraphy ,Extraction (chemistry) ,Earth and Planetary Sciences (miscellaneous) ,Analytical chemistry ,Geology ,Sample dilution ,Current (fluid) ,Quartz ,Ion source ,Accelerator mass spectrometry ,Line (formation) - Abstract
We present the new 14 C extraction line at ETH Zurich. This system is designed to extract in situ -produced cosmogenic 14 C from terrestrial quartz samples, and to obtain pure CO 2 gas for analysis with a gas ion source Accelerator Mass Spectrometry (AMS) system. Samples are degassed at 1550–1600 °C without the use of a fluxing agent. Gas purification is achieved by a series of cryogenic traps and passage through hot Ag and Cu wool/mesh. Graphitization and, thus, sample dilution is not required. Tests to determine the CO 2 recovery after gas extraction and cleaning yielded consistently good recovery rates of >99.8% ( n = 7). The 14 C blank contribution from the all-metal tubing system is negligible. Our preliminary procedural blank estimate – deriving mostly from the hot extraction furnace – is 5 14 C atoms. Extraction tests on two quartz samples by stepped-heating show a quantitative separation of atmospheric 14 C at ≤500 °C from the in situ component above 1200 °C. Based on these data, we estimate to achieve a complete 14 C extraction from a quartz sample.
- Published
- 2009
36. Cosmogenic 3He and 21Ne measured in quartz targets after one year of exposure in the Swiss Alps
- Author
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Christian Schlüchter, Rainer Wieler, Pieter Vermeesch, Florian Kober, P. Oberholzer, Joerg M. Schaefer, Veronika S. Heber, Stefan Strasky, and Heinrich Baur
- Subjects
Radionuclide ,Neutron monitor ,Attenuation length ,chemistry.chemical_element ,Cosmic ray ,Atmospheric sciences ,Nuclear physics ,Neon ,Geophysics ,chemistry ,Space and Planetary Science ,Geochemistry and Petrology ,Neutron flux ,Earth and Planetary Sciences (miscellaneous) ,Cosmogenic nuclide ,Geology ,Helium - Abstract
All currently used scaling models for Terrestrial Cosmogenic Nuclide (TCN) production rates are based on neutron monitor surveys. Therefore, an assumption underlying all TCN studies is that production rates are directly proportional to secondary cosmic ray intensities for all cosmogenic nuclides. To test this crucial assumption, we measured cosmogenic 3 He and 21 Ne in artificial quartz targets after one year of exposure at mountain altitudes in the Swiss Alps. The targets were inconel steel tubes containing 1 kg of artificial quartz sand (250–500 µm), degassed for one week at 700 °C in vacuum prior to exposure. From August 2006 until August 2007, ten of these targets were exposed at five locations in Switzerland and Italy: Zurich (556 m), Davos (1560 m), Santis (2502 m), Jungfraujoch (3571 m), and Monte Rosa (4554 m). Additionally, a sixth set of two blank targets was kept in storage and effectively shielded from cosmic ray exposure. Cosmogenic noble gases were measured at room temperature and at 700 °C. Up to 9% of the cosmogenic 3 He was measured in the cold step, indicating that 3 He diffuses out of quartz at room temperature on short time scales. The remaining 3 He and all 21 Ne were released at 700 °C, as shown by a repeat measurement at 800 °C for the Monte Rosa target, which yielded no additional cosmogenic helium and neon. As expected, the Monte Rosa target contained the highest cosmogenic nuclide content, with 1.56 ± 0.07 × 10 6 atoms of excess 3 He and 4.5 ± 1.2 × 10 5 atoms of excess 21 Ne (all errors are 2 σ ). The raw measurements were corrected for non-atmospheric blanks, shielding (roof + container wall), tritiogenic helium and solar modulation (normalised to the average neutron flux over the past five solar cycles). The 3 He/ 21 Ne production rate ratio of 6.8 ± 0.9 indicates that cosmogenic 3 He production by the container walls is negligible. The main goal of the artificial target experiment was to determine the production rate attenuation length. Because all our targets had an identical design and were exposed under identical conditions, all systematic errors cancel out in the calculation of an attenuation length. Our best estimates for the 3 He and 21 Ne attenuation lengths are 134.8 ± 5.9 g/cm 2 and 135 ± 25 g/cm 2 , respectively, agreeing very well with currently used scaling models. We conclude that TCN production rates are indeed proportional to neutron monitor count rates, and that 3 He and 21 Ne production rates follow the same altitudinal scaling relationships as the cosmogenic radionuclides. Finally, the measurements were scaled to sea level and high latitude using the empirical attenuation length, yielding weighted mean production rates of 107.6 ± 6.6 at/g/yr for 3 He and 15.4 ± 2.1 at/g/yr for 21 Ne. Despite the significant uncertainties associated with the corrections for shielding, solar modulation and especially the 3 He/ 3 H branching ratio, these estimates are in good agreement with production rates derived from long-term exposure experiments at natural calibration sites and physics-based simulations.
- Published
- 2009
37. Goldschmidt Abstracts 2009 – K
- Author
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P. W. Kubik, Florian Kober, Rainer Wieler, Susan Ivy-Ochs, and Vasily Alfimov
- Subjects
Materials science ,Geochemistry and Petrology ,Mineralogy ,Quartz ,Production rate - Published
- 2009
38. Surface exposure dating with cosmogenic nuclides
- Author
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Florian Kober and Susan Ivy-Ochs
- Subjects
551.7 ,Radionuclide ,Lithology ,lcsh:QE1-996.5 ,Geochemistry ,cosmogenic radionuclides ,VAR 000 ,cosmogenic noble gases ,lcsh:Geology ,Stratigraphy ,Surface exposure dating ,Glazialgeologie ,Uranium-uranium dating ,Geochronology ,Nuclide ,Cosmogenic nuclide ,surface exposure dating ,Geology - Abstract
Im letzten Jahrzehnt hat sich die Methode der Oberflächendatierung mittels kosmogener Nuklide zu einer leistungsfähigen Methode in der Quartärchronologie und quantitativen Landschaftsanalyse entwickelt. Kosmogene Nuklide werden durch kosmische Strahlung in Fest- und Lockergestein gebildet. Die Konzentrationen der kosmogenen Nuklide kann mittels Massenspektrometrie ermittelt werden. Dies ermöglicht - je nach Verwitterungssrate - die Datierung von Landschaftselementen und Landschaftsformen mit Altern zwischen einigen 100 Jahren bis über 10 Millionen Jahren. Neben einem Abriss der historischen Entwicklung und Theorie der Oberflächendatierung mittels kosmogener Nuklide enthält dieser Artikel eine ausführliche Übersicht der zahlreichen Anwendungsgebiete dieser Methode. Probenahmestrategien und die Eigenheiten der einzelnen Nuklide werden im Detail besprochen. Die Vielzahl der mit dieser Methode in den verschiedensten Mineralien bestimmbaren Nuklide (Radionuklide 10Be, 14C, 26Al und 36Cl und Edelgase 3He und 21Ne) erlaubt die Beprobung und Analyse verschiedenster Lithologien. Der erreichte hohe Entwicklungsstand der Methode erlaubt es den Fokus auf die eigentlichen geomorphologischen Fragestellungen zu legen. Die Sensitivität der kosmogenen Oberflächendatierungsmethode muss trotzdem sorgfältig im Rahmen ausführlicher Feldstudien erfolgen, wie zum Beispiel durch die Analyse von lokalen und regionalen Terrassen- oder Moränenstratigraphien oder durch den Vergleich mit anderen Datierungsmethoden., research
- Published
- 2008
39. Cosmogenic 10Be, 21Ne and 36Cl in sanidine and quartz from Chilean ignimbrites
- Author
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Florian Kober, Susan Ivy-Ochs, Vasily Alfimov, Hans-Arno Synal, and P. W. Kubik
- Subjects
Nuclear and High Energy Physics ,geography ,geography.geographical_feature_category ,Mineralogy ,Silicic ,Sanidine ,Volcanic rock ,Stable nuclide ,Phenocryst ,Cosmogenic nuclide ,Instrumentation ,Alkali feldspar ,Quartz ,Geology - Abstract
Our initial results indicate that three cosmogenic nuclides: 10Be, 21Ne and 36Cl can be analyzed in sanidine. To uncover complex exposure histories or marked changes in denudation rates over time several nuclides with different half-lives (or stable) must be measured. Because of its shorter half-life, the combination of 36Cl and a long-lived nuclide 10Be or stable nuclide 21Ne will provide more information than the pairs 10Be and 26Al or 10Be and 21Ne (in quartz). Sanidine (alkali feldspar) is a common high temperature mineral and often dominates the phenocryst assemblage in silicic to intermediate volcanic rocks. Bedrock surfaces studied come from the Oxaya (erupted 19–23 Ma) and Lauca (erupted 2.7 Ma) ignimbrites of northern Chile. Quartz and sanidine phenocrysts coexist; therefore, we can check the viability of sanidine through direct comparison with nuclide concentrations in quartz. In addition, as quartz has no target for 36Cl in significant abundance we show that the unique power of sanidine is that 36Cl can be measured. We have obtained very good agreement between 10Be and 21Ne concentrations measured in sanidine and coexisting quartz. No meteoric 10Be was apparent in these sanidines. Concentrations of all three nuclides in mineral separates from rock sample CN309 from the Lauca ignimbrite in the Western Cordillera agree well and correspond to minimum exposure ages of 30–50 ka. 10Be and 21Ne measured in both sanidine and quartz from three rock samples from the Oxaya ignimbrite (CN19, CN23, CN104a) in the Western Escarpment record low average landscape modification rates (
- Published
- 2007
40. Denudation rates and a topography-driven rainfall threshold in northern Chile: Multiple cosmogenic nuclide data and sediment yield budgets
- Author
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Susan Ivy-Ochs, Peter W. Kubik, Florian Kober, Rainer Wieler, Fritz Schlunegger, and Heinrich Baur
- Subjects
geography ,Tectonics ,geography.geographical_feature_category ,Denudation ,Outcrop ,Bedrock ,Spatial variability ,Escarpment ,Nuclide ,Cosmogenic nuclide ,Geomorphology ,Geology ,Earth-Surface Processes - Abstract
The quantification of geomorphic process rates on the outcrop- and the orogen-scale is important to describe accurately the interaction between the relative effects of erosion, tectonics and climate on landscape evolution. We report single and paired cosmogenic nuclide ( 10 Be, 26 Al and 21 Ne) derived erosion rates and exposure ages on hillslope interfluves from the tectonically active western central Andes that show a distinct spatial variation. A positive correlation of erosion rates with elevation and present-day rainfall rates is observed. Erosion rates at lower altitudes–the hyperarid Coastal Cordillera and the Western Escarpment with the northern part of the Atacama Desert –are extremely low and of the order of 10–100 cm/My (nominal exposure ages 1–6 My). In contrast, erosion rates at higher altitudes–the semiarid Western Cordillera –range up to 4600 cm/My (nominal exposure ages 0.02–0.1 My). This latter average long-term bedrock erosion rate record, suggested to be coupled to an orographically controlled pattern of rainfall, is also reflected in the pattern of denudation rates derived from a short-term decadal record of limited sediment yield data. Specifically, denudation rates calculated from sediment flux data are of a similar order of magnitude as erosion rates deduced from long-lived cosmogenic nuclides from bedrock hillslope interfluves of the Western Cordillera . Nevertheless, the production and the supply of sediment from the western Andean slope are very limited. Analysis of multiple cosmogenic nuclides allows simultaneous determination of erosion rates and exposure ages but also reveals complex exposure histories of non-bedrock samples, such as boulders or amalgamated clast samples. Notably, this study shows that saturation of nuclides, usually assumed in studies where only a single nuclide is analyzed, is rather the exception than the rule, as revealed by erosion island plots. Constant erosion that started much later than the formation age of the rocks or episodic erosion by spalling can partially explain non-steady-state concentrations and more complicated exposure scenarios. Furthermore, the use of multiple nuclides with different half-lives allowed us to infer that no significant variations in long-term erosion rates have occurred and that at the Western Escarpment erosion rates have been low and constant for most of the late Neogene . Nevertheless, the time intervals necessary to reach steady-state concentrations for cosmogenic nuclides can be quite different from those needed for landscapes to reach steady state.
- Published
- 2007
41. Tectonic and lithological controls on denudation rates in the central Bolivian Andes
- Author
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T. Lendzioch, Reto Grischott, Kristina Hippe, Florian Kober, Gerold Zeilinger, Peter W. Kubik, Odin Marc, Marcus Christl, and R. Zola
- Subjects
010504 meteorology & atmospheric sciences ,Lithology ,Drainage basin ,cosmogenic nuclides ,010502 geochemistry & geophysics ,01 natural sciences ,Cosmogenic nuclide ,Geomorphology ,0105 earth and related environmental sciences ,Earth-Surface Processes ,geography ,geography.geographical_feature_category ,rock strength ,Sediment ,15. Life on land ,Tectonics ,Geophysics ,Rio Grande ,Denudation ,uplift ,denudation ,Sedimentary rock ,Institut für Geowissenschaften ,seismicity ,Seismicity ,Uplift ,Rock strength ,Cosmogenic nuclides ,Geology ,Channel (geography) - Abstract
The topographic signature of a mountain belt depends on the interplay of tectonic, climatic and erosional processes, whose relative importance changes over times, while quantifying these processes and their rates at specific times remains a challenge. The eastern Andes of central Bolivia offer a natural laboratory in which such interplay has been debated. Here, we investigate the Rio Grande catchment which crosses orthogonally the eastern Andes orogen from the Eastern Cordillera into the Subandean Zone, exhibiting a catchment relief of up to 5000 m. Despite an enhanced tectonic activity in the Subandes, local relief, mean and modal slopes and channel steepness indices are largely similar compared to the Eastern Cordillera and the intervening Interandean Zone. Nevertheless, a dataset of 57 new cosmogenic 10Be and 26AI catchment wide denudation rates from the Rio Grande catchment reveals up to one order of magnitude higher denudation rates in the Subandean Zone (mean 0.8 mm/yr) compared to the upstream physiographic regions. We infer that tectonic activity in the thrusting dominated Subandean belt causes higher denudation rates based on cumulative rock uplift investigations and due to the absence of a pronounced climate gradient. Furthermore, the lower rock strength of the Subandean sedimentary units correlates with mean slopes similar to the ones of the Eastern Cordillera and Interandean Zone, highlighting the fact, that lithology and rock strength can control high denudation rates at low slopes. Low denudation rates measured at the outlet of the Rio Grande catchment (Abapo) are interpreted to be a result of a biased cosmogenic nuclide mixing that is dominated by headwater signals from the Eastern Cordillera and the Interandean zone and limited catchment sediment connectivity in the lower river reaches. Therefore, comparisons of short- (i.e., sediment yield) and millennial denudation rates require caution when postulating tectonic and/or climatic forcing without detailed studies. (C) 2015 The Authors. Published by Elsevier B.V.
- Published
- 2015
42. Scale of relief growth in the forearc of the Andes of Northern Chile (Arica latitude, 18oS)
- Author
-
Bernice Hüsser, Florian Kober, Fritz Schlunegger, Gerold Zeilinger, and Alexandre Kounov
- Subjects
geography ,geography.geographical_feature_category ,Bedrock ,Erosion ,Drainage basin ,Fluvial ,Geology ,Late Miocene ,Scale (map) ,Forearc ,Geomorphology ,Latitude - Abstract
The stream profiles of rivers of northern Chile reveal two graded segments separated by 20-km-long knickzones. Their formation was initiated in the Late Miocene in response to surface uplift of the western flank of the Altiplano. This phase of uplift that was coeval with the shift of deformation from the Altiplano to the sub-Andean zone caused relief to grow at the scale of the whole drainage basin. Above and beneath these knickzones, the presence of braided channels and the absence of erosion on adjacent pediplains suggest no substantial modification in the local relief. The knickzones, however, show bedrock channels, and fluvial dissection rates have exceeded erosion rates on adjacent pediplains by two orders of magnitudes. Hence, the data imply that the only geomorphic recorders of relief growth are the knickzones that currently transpose the effects of the Late Miocene phase of surface uplift from the coast to the Altiplano.
- Published
- 2006
43. In situ cosmogenic 10Be and 21Ne in sanidine and in situ cosmogenic 3He in Fe–Ti-oxide minerals
- Author
-
P. W. Kubik, Susan Ivy-Ochs, Florian Kober, Rainer Wieler, Heinrich Baur, T. Magna, and Ingo Leya
- Subjects
Mineral ,Olivine ,chemistry.chemical_element ,Mineralogy ,Pyroxene ,engineering.material ,Sanidine ,Neon ,Geophysics ,chemistry ,Space and Planetary Science ,Geochemistry and Petrology ,Earth and Planetary Sciences (miscellaneous) ,engineering ,Nuclide ,Cosmogenic nuclide ,Quartz ,Geology - Abstract
We report concentrations of in situ cosmogenic 10 Be and 21 Ne from coexisting quartz and sanidine separates and of cosmogenic 3 He in coexisting Fe–Ti-oxide minerals from ignimbritic successions of northern Chile (Oxaya and Lauca ignimbrites). New mineral-isotope pairs such as sanidine and Fe–Ti-oxide minerals are helpful in quantitative geomorphology for geological settings where the lithology lacks the commonly used minerals quartz, pyroxene or olivine. Production rates in sanidine and Fe–Ti-oxide minerals were determined by normalizing nuclide concentrations to established production rates in quartz. The experimentally determined production rates are compared to model production rates calculated with new cross-sections for 3 He, 21 Ne, and 10 Be production from the individual target elements. The mean experimental 21 Ne production rate for five sanidine samples is 30.4 ± 3.7 atoms g − 1 yr − 1 (30.4 ± 5.4 atoms g − 1 yr − 1 including the uncertainty of the 21 Ne production rate in quartz, P 21 Ne qtz ). This is in excellent agreement with the modelled value of 28.3 atoms g − 1 yr − 1 , which has an estimated uncertainty of 20%. The 21 Ne production rate in sanidine is thus about 50% higher than that in quartz. The cosmogenic neon in sanidine is entirely released in low temperature steps (400–600 °C) and no signs of an interfering nucleogenic neon component were observed. This is in stark contrast to quartz and makes sanidine an attractive mineral for terrestrial cosmogenic neon studies. 3 He diffuses out of the sanidine structure. Preliminary results also indicate that sanidine is well suited for 10 Be studies. The mean experimental 10 Be production rate from two sanidine samples is 4.45 ± 0.38 atoms g − 1 yr − 1 (4.45 ± 0.42 atoms g − 1 yr − 1 including uncertainty of P 10 Be qtz ), very close to the modelled value of 4.55 atoms g − 1 yr − 1 , which has an estimated uncertainty of 20%. We emphasize that 10 Be and 21 Ne production in sanidine is composition dependent. Therefore, major element analyses should be carried out and production rates calculated on a sample by sample basis. Fe–Ti-oxide minerals retain 3 He quantitatively. Experimentally derived production rates are in excellent agreement with new values derived from physical modelling. The mean experimental 3 He production rate for five Fe–Ti-oxide minerals samples is 120 ± 11 atoms g − 1 yr − 1 (120 ± 12 atoms g − 1 yr − 1 including the uncertainties of P 21 Ne qtz ), compared to a mean modelled value of 124 atoms g − 1 yr − 1 , which has an estimated uncertainty of 20%. The variable chemical and structural composition of the solid solution lines of Fe–Ti-oxide minerals has little effect on the total 3 He production rate. Cosmogenic 21 Ne is not produced in significant quantities in Fe–Ti-oxide minerals due to the absence of suitable target elements.
- Published
- 2005
44. Quantifying denudation rates and sediment storage on the eastern Altiplano, Bolivia, using cosmogenic Be-10, Al-26, and in situ C-14
- Author
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Kristina Hippe, Rainer Wieler, Susan Ivy-Ochs, Colin Maden, Gerold Zeilinger, Peter W. Kubik, Florian Kober, and Lukas Wacker
- Subjects
Hydrology ,Pleistocene ,Denudation ,Sediment ,Fluvial ,Alluvium ,Institut für Geowissenschaften ,Cosmogenic nuclide ,Structural basin ,Sediment transport ,Geology ,Earth-Surface Processes - Abstract
Denudation processes and sediment transfer are investigated in a high-elevation, low-relief environment (eastern Altiplano, Bolivia) using Be-10, Al-26, and in situ C-14 analysis in fluvial sediments. Concentrations of the long-lived nuclides Be-10 and Al-26 yield consistently low catchment-wide denudation rates of similar to 3-29 mm ky(-1) (integrating over 21-194 ky), which reflect the low geomorphic gradients and the discontinuity of fluvial transport along the eastern Altiplano margin. No significant correlation is recorded between denudation rates of individual catchments and morphological basin parameters (slope, area, elevation). This is attributed to the overall little variability in morphology. The agreement between the denudation rates and published modern sediment discharge data suggests steady landscape evolution of the eastern Altiplano from the latest Pleistocene until today. While Be-10 and Al-26 provide long-term estimates on sediment production, in situ cosmogenic C-14 is used to trace short-term sediment storage. In situ C-14 concentrations are comparatively low indicating that C-14 decayed during alluvial storage over at least the past similar to 11-20 ky. We assume storage at shallow depth (2 m) and consider the influence of soil-mantled hillslopes on the in situ C-14 concentration. Our results illustrate the importance of sediment storage even over short distances and demonstrate the potential of in situ C-14 to study sediment routing and transfer times within drainage systems. However, this study also demonstrates that the long-lived Be-10 and Al-26 nuclides can provide adequate estimates on long-term denudation rates even if sediment transport is not fast but interrupted by several thousands of years of storage.
- Published
- 2012
45. Sedimentology-based reconstructions of paleoclimate changes in the Central Andes in response to the uplift of the Andes, Arica region between 19 and 21 degrees S latitude, northern Chile
- Author
-
Ruedi von Rotz, Fritz Schlunegger, Gerold Zeilinger, and Florian Kober
- Subjects
geography ,geography.geographical_feature_category ,Escarpment ,Mineral resource classification ,Latitude ,Paleontology ,Stratigraphy ,Paleoclimatology ,General Earth and Planetary Sciences ,Sedimentology ,Structural geology ,Geomorphology ,Sediment transport ,Geology - Abstract
We focus on the sedimentological record of the Middle Miocene to modern deposits in the Andes of northern Chile between 19 and 21°S. These sediments, deposited at the Western Escarpment of the Central Depression, indicate successively more moisture on the western margin of the Altiplano and the Western Cordillera where the sources are. At the Pacific Coast, 20-Ma-old exposure ages and salic gypsisols reflect an existing and ongoing hyperarid climate. We interpret the increased divergence of climates between the Coast and the Altiplano as consequence of the Andean rise to elevations higher than approximately 2,500 m a.s.l., when the topography of the Altiplano was sufficiently high and areally extensive to attract Atlantic moisture. Accordingly, the inferred general increase in run-off was closely coupled with the uplift of the Andes if the steady rise model applies. In case that the rapid rise model for Andean uplift is correct, the inferred changes in sediment transport would have occurred independently of uplift, requiring an alternative, yet unknown driver.
- Published
- 2010
- Full Text
- View/download PDF
46. Complex multiple cosmogenic nuclide concentration and histories in the arid Rio Lluta catchment, northern Chile
- Author
-
Rainer Wieler, Susan Ivy-Ochs, P. W. Kubik, Florian Kober, Fritz Schlunegger, Heinrich Baur, and Gerold Zeilinger
- Subjects
Hydrology ,geography ,geography.geographical_feature_category ,Institut für Erd- und Umweltwissenschaften ,Bedrock ,Geography, Planning and Development ,Sediment ,Escarpment ,Sedimentary depositional environment ,Denudation ,Earth and Planetary Sciences (miscellaneous) ,Erosion ,Nuclide ,Cosmogenic nuclide ,Geology ,Earth-Surface Processes - Abstract
Terrestrial cosmogenic nuclide (TCN) concentrations measured in river sediments can be used to estimate catchment-wide denudation rates. By investigating multiple TCN the steadiness of sediment generation, transport and depositional processes can be tested. Measurements of 10Be, 21Ne and 26Al from the hyper- to semi-arid Rio Lluta catchment, northern Chile, yield average single denudation rates ranging from 12 to 75 m Myr–1 throughout the catchment. Paired nuclide analysis reveals complex exposure histories for most of the samples and thus the single nuclide estimates do not exclusively represent catchment-wide denudation rates. The lower range of single nuclide denudation rates (12–17 m Myr–1), established with the noble gas 21Ne, is in accordance with palaeodenudation rates derived from 21Ne/10Be and 26Al/10Be ratio analysis. Since this denudation rate range is measured throughout the system, it is suggested that a headwater signal is transported downstream but modulated by a complex admixture of sediment that has been stored and buried at proximal hillslope or terrace deposits, which are released during high discharge events. That is best evidenced by the stable nuclide 21Ne, which preserves the nuclide concentration even during storage intervals. The catchment-wide single 21Ne denudation rates and the palaeodenuation rates contrast with previous TCN-derived erosion rates from bedrock exposures at hillslope interfluves by being at least one order of magnitude higher, especially in the lower river course. These results support earlier studies that identified a coupling of erosional processes in the Western Cordillera contrasting with decoupled processes in the Western Escarpment and in the Coastal Cordillera. Copyright © 2008 John Wiley & Sons, Ltd.
- Published
- 2009
- Full Text
- View/download PDF
47. Surface uplift and climate change: The geomorphic evolution of the Western Escarpment of the Andes of northern Chile between the Miocene and present
- Author
-
Gerold Zeilinger, Heinz Schneider, Fritz Schlunegger, and Florian Kober
- Subjects
geography ,geography.geographical_feature_category ,Sediment ,Escarpment ,Headward erosion ,Altitude ,550 Earth sciences & geology ,Paleoclimatology ,Erosion ,Alluvium ,Physical geography ,Geomorphology ,Geology ,Orographic lift - Abstract
The Western Escarpment of the Andes at 18.30°S (Arica area, northern Chile) is a classical example for a transient state in landscape evolution. This part of the Andes is characterized by the presence of >10,000 km2 plains that formed between the Miocene and the present, and >1500 m deeply incised valleys. Although processes in these valleys scale the rates of landscape evolution, determinations of ages of incision, and more importantly, interpretations of possible controls on valley formation have been controversial. This paper uses morphometric data and observations, stratigraphic information, and estimates of sediment yields for the time interval between ca. 7.5 Ma and present to illustrate that the formation of these valleys was driven by two probably unrelated components. The first component is a phase of base-level lowering with magnitudes of∼300–500 m in the Coastal Cordillera. This period of base-level change in the Arica area, that started at ca. 7.5 Ma according to stratigraphic data, caused the trunk streams to dissect headward into the plains. The headward erosion interpretation is based on the presence of well-defined knickzones in stream profiles and the decrease in valley widths from the coast toward these knickzones. The second component is a change in paleoclimate. This interpretation is based on (1) the increase in the size of the largest alluvial boulders (from dm to m scale) with distal sources during the last 7.5 m.y., and (2) the calculated increase in minimum fluvial incision rates of ∼0.2 mm/yr between ca. 7.5 Ma and 3 Ma to ∼0.3 mm/yr subsequently. These trends suggest an increase in effective water discharge for systems sourced in the Western Cordillera (distal source). During the same time, however, valleys with headwaters in the coastal region (local source) lack any evidence of fluvial incision. This implies that the Coastal Cordillera became hyperarid sometime after 7.5 Ma. Furthermore, between 7.5 Ma and present, the sediment yields have been consistently higher in the catchments with distal sources (∼15 m/m.y.) than in the headwaters of rivers with local sources (
- Published
- 2006
48. Catchment wide denudation rates in debris flow dominated catchments
- Author
-
Florian Kober
- Subjects
Hydrology ,geography ,geography.geographical_feature_category ,Denudation ,Drainage basin ,Geology ,Earth-Surface Processes ,Debris flow - Published
- 2012
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