Your search keyword '"Helmut Brückner"' showing total 5 results

1. Identification of humid periods in the Atacama Desert through hillslope activity established by infrared stimulated luminescence (IRSL) dating

Author

Volker Wennrich, Alicia Medialdea, Anja Zander, Olaf Bubenzer, Dirk Hoffmeister, Benedikt Ritter, Philipp Schulte, Helmut Brückner, Marie Gröbner, Melanie Bartz, Simon Matthias May, Dominik Brill, Santiago Hurtado, Klaudia F. Kuiper, Georgina E. King, Stephan Opitz, and Earth Sciences

Subjects

010504 meteorology & atmospheric sciences, 010502 geochemistry & geophysics, Oceanography, Palaeoclimate, 01 natural sciences, Downhill creep, Hillslope processes, Hyper-aridity, SDG 14 - Life Below Water, Hillslope deposits, 0105 earth and related environmental sciences, Colluvium, Atacama Desert, Global and Planetary Change, geography, geography.geographical_feature_category, Alluvial fan, Sedimentation, Arid, Infrared stimulated luminescence dating, Denudation, Physical geography, Surface runoff, Geology, Chronology, IRSL

Abstract

Geological records indicate that the hyper-aridity in the Atacama Desert has prevailed since at least the mid-Miocene, with shorter periods of increased humidity punctuating long-term aridity. The 7-m-high accumulation of colluvial sediments at the Salar Grande (21°S/70°W) studied here provides a key palaeoclimate record to understand hillslope dynamics and its relation to humid periods. While 10Be surface exposure ages point to long-term surface stability of the flat upslope surface, a combination of humidity-driven soil creep, overland flow and soil creep related to seismic shaking, caused denudation of the hillslope and accumulation of several metres of colluvium over much shorter timescales during the last 130 ka. A robust chronology for the hillslope sediments has been established by using Infrared Stimulated luminescence (pIR-IR225 protocol) on K-feldspar extracts from nine samples collected within the accumulation. A series of tests has been carried out to confirm the suitability of the method. The estimated ages indicate accelerated sedimentation at 35–80 ka, and 100–130 ka, which are interpreted as periods with more humid climate conditions than present. These findings agree with climate variations in the hyper-arid Atacama indicated by the activity of coastal alluvial fans and river catchments.

Published

2020

2. Contributors

Author

Daisuke Araoka, Ronan Autret, Joanne Bourgeois, Dominik Brill, Charles S. Bristow, Helmut Brückner, Catherine Chagué, Marinos Charalampakis, Pedro J.M. Costa, Sue Dawson, Alastair Dawson, Dale Dominey-Howes, Tina Dura, Max Engel, Wibke Erdmann, Eric Font, Ed Garrett, James Goff, Christopher Gomez, Beverly N. Goodman-Tchernov, Kazuhisa Goto, Chris Gouramanis, Andrea D. Hawkes, Eileen Hemphill-Haley, Vanessa M.A. Heyvaert, Dirk Hoffmeister, Fumihiko Imamura, T. Yan W.M. Iskandarsyah, Dieter Kelletat, Harvey M. Kelsey, Akihisa Kitamura, Yuho Kumagai, A.Y. Annie Lau, Alessandra Maramai, Simon Matthias May, Koji Minoura, Katrin Monecke, Hiroyuki Nagahama, Norihiro Nakamura, N.A.K. Nandasena, Mikhail Nosov, Jan Oetjen, Gerassimos A. Papadopoulos, Raphaël Paris, Tasnim Patel, Jan Pawłowski, Jessica Pilarczyk, Tatiana K. Pinegina, Gilles Rixhon, Tetsuro Sato, Anja Scheffers, Isa Schön, Holger Schüttrumpf, Klaus Schwarzer, Alexander R. Simms, Michaela Spiske, Daisuke Sugawara, Adam D. Switzer, Witold Szczuciński, Toru Tamura, Davin J. Wallace, Patrick Wassmer, Masashi Watanabe, Robert C. Witter, Jonathan D. Woodruff, and Masaki Yamada

Published

2020

3. Erosive impact of tsunami and storm waves on rocky coasts and post-depositional weathering of coarse-clast deposits

Author

Dieter Kelletat, Wibke Erdmann, Simon Matthias May, Max Engel, Helmut Brückner, and Anja Scheffers

Subjects

Sedimentary depositional environment, Oceanography, Erosion, Storm, Weathering, Rogue wave, Spatial distribution, Relative dating, Geology, Coastal erosion

Abstract

The spatial distribution of boulder deposits along rocky coastlines provides important implications for estimating the hazard of extreme waves (storms or tsunamis). However, rocky coasts are highly dynamic environments, and their changes through time have to be considered when analyzing the coarse-clast record and inferring characteristics of past events. This chapter reviews the impact of extreme waves on the erosion of rocky coasts and the formation of coarse-clast deposits, evaluates the potential of weathering and erosion features for relative dating of coastal erosion and boulder transport, and investigates the relevance of boulder “shrinking” through post-depositional erosion processes.

Published

2020

4. Successful combination of electron spin resonance, luminescence and palaeomagnetic dating methods allows reconstruction of the Pleistocene evolution of the lower Moulouya river (NE Morocco)

Author

Helmut Brückner, Claudia Álvarez Posada, Melanie Bartz, Josep María Parés, Mathieu Duval, Georgina E. King, and Gilles Rixhon

Subjects

010506 paleontology, Archeology, Global and Planetary Change, geography, Paleomagnetism, geography.geographical_feature_category, Pleistocene, Thermoluminescence dating, Fluvial, Geology, Sedimentary basin, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Aggradation, Geochronology, 550 Earth sciences & geology, Quaternary, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences

Abstract

Based on a combination of Electron Spin Resonance (ESR) dating of quartz, luminescence dating of K-feldspar and palaeomagnetism, this study presents the first chronostratigraphic framework for the Pleistocene fluvial deposits of the lower Moulouya river in the Triffa basin (NE Morocco). K-feldspar pIRIR225 and pIRIR290 signals of all samples are saturated, suggesting fluvial deposition at least as early as the Middle Pleistocene (∼0.39–0.80 Ma). Consequently, further chronological information was obtained with ESR dating of quartz grains from the ancient Pleistocene fluvial deposits. As for ESR, the multiple centres approach provides equivalent dose values derived from the Al and Ti centres that mostly agree within 1σ-error, suggesting complete signal resetting from the former during fluvial transport. ESR dating results yield Calabrian deposition ages for all river profiles from ∼1.1 to ∼1.5 Ma. These ages are remarkably consistent with the palaeomagnetic results: the occurrence of mostly reversed polarity in the deposits indicates a Matuyama age (>0.78 Ma). While low incision rates in the Triffa basin (0.025 ± 0.003 mm/a) related to thrusting activity during the Calabrian could be inferred, the fluvial record points to an acyclic and discontinuous sedimentation pattern over the last ∼1.3 Ma. It thereby probably rules out climate as the main driver for fluvial aggradation in the lowermost sedimentary basin. At a regional scale, several indicators point to transient fluvial response resulting from major Quaternary tectonic activity along the Beni Snassen gorge, located directly upstream of the investigated basin. We suggest that a capture event at the margin of the uplifting Beni Snassen massif occurred between 1.04 and 1.36 Ma at the latest and subsequently led to the creation of the gorge.

Published

2018

5. A systematic review of geological evidence for Holocene earthquakes and tsunamis along the Nankai-Suruga Trough, Japan

Author

Marc De-Batist, Yusuke Yokoyama, Aurélia Hubert-Ferrari, Philip Garrett, Masanobu Shishikura, Osamu Fujiwara, Helmut Brückner, Vanessa M.A. Heyvaert, Atsunori Nakamura, and Ed Garrett

Subjects

geography, Marsh, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Subduction, Trough (geology), Paleoseismology, 010502 geochemistry & geophysics, Earthquake swarm, 01 natural sciences, Seismic hazard, General Earth and Planetary Sciences, Maximum magnitude, Geology, Seismology, Holocene, 0105 earth and related environmental sciences

Abstract

The Nankai-Suruga Trough, the subduction zone that lies immediately south of Japan's densely populated southern coastline, generates devastating great earthquakes (magnitude > 8) characterised by intense shaking, crustal deformation and tsunami generation. Forecasting the hazards associated with future earthquakes along this > 700 km long fault requires a comprehensive understanding of past fault behaviour. While the region benefits from a long and detailed historical record, palaeoseismology has the potential to provide a longer-term perspective and additional crucial insights. In this paper, we summarise the current state of knowledge regarding geological evidence for past earthquakes and tsunamis along the Nankai-Suruga Trough. Incorporating literature originally published in both Japanese and English and enhancing available results with new age modelling approaches, we summarise and critically evaluate evidence from a wide variety of sources. Palaeoseismic evidence includes uplifted marine terraces and biota, marine and lacustrine turbidites, liquefaction features, subsided marshes and tsunami deposits in coastal lakes and lowlands. While 75 publications describe proposed evidence from > 70 sites, only a limited number provide compelling, well-dated evidence. The best available records enable us to map the most likely rupture zones of twelve earthquakes that occurred during the historical period. This spatiotemporal compilation suggests that the 1707 CE earthquake ruptured almost the full length of the subduction zone and that earthquakes in 1361 CE and 684 CE may have been predecessors of similar magnitude. Intervening earthquakes were of lesser magnitude, highlighting the variability in rupture mode that characterises the Nankai-Suruga Trough. Intervals between ruptures of the same seismic segment range from < 100 to > 450 years during the historical period. Over longer timescales, palaeoseismic evidence suggests intervals between earthquakes ranging from 100 to 700 years, however these figures reflect a range of thresholds controlling the creation and preservation of evidence at any given site as well as the genuine intervals between earthquakes. At present, there is no geological data that suggest the occurrence of a larger magnitude earthquake than that experienced in 1707 CE, however few studies have sought to establish the relative magnitudes of different earthquake and tsunami events along the Nankai-Suruga Trough. Alongside the lack of research designed to quantify the maximum magnitude of past earthquakes, we emphasise issues over alternative hypotheses for proposed palaeoseismic evidence, the paucity of robust chronological frameworks and insufficient appreciation of changing thresholds of evidence creation and preservation over time as key issues that must be addressed by future research.

Published

2016