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  • German  (4)
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  • 1
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    Können Kontinente untertauchen? Kontinentkollision und -subduktion – Tektonik, Tiefenstruktur und geodynamische Prozesse unter dem Pamir, Tien Shan und Hindukusch (2013)
    In:  System Erde
    Details
    Publication Date: 2020-02-12
    Description: The Pamir and Hindu Kush seismic zones, at the northwest corner of the India-Asia collision zone, are unique in that they are the only seismic zones in the heart of a continent with deep earthquakes at 90 to 250 km depth. Since 2008, the GFZ has operated several temporary seismological networks in the central Asian region in Tajikistan, Kyrgyzstan and most recently Afghanistan, together with local partners. The aims of these experiments have been to try to understand these deep seismic zones and to elucidate the crustal and mantle structure beneath the region. To date, the analysis of the seismological data shows that under the Pamir, the cold Asian mantle lithosphere descends (subducts), together with the lower crust and a part of the overlying middle crust, in a strongly curved, cone-shaped arc. At about 90 to 100 km depth, the middle crust detaches from the lower crust, pools and subsequently either stays there or rises back towards the surface due to its buoyancy. Only the lower crust descends completely to greater depths. Mineral reactions within the lower crust are most probably responsible for the deep earthquakes. Thus, in answer to the question posed by the title, only the lower continental crust seems able to descend (subduct), together with the continental lithospheric mantle, back deep into the Earth. The bulk of the crust (i.e. the upper and middle crust) remains at crustal levels and contributes to crustal thickening and mountain building.
    Language: German
    Type: info:eu-repo/semantics/article
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  • 2
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    Neue Einsichten in den Ablauf großer Erdbeben : Kombination innovativer Analyseverfahren erlaubt Rekonstruktion von Bruchverläufen (2016)
    In:  System Erde
    Details
    Publication Date: 2020-02-12
    Description: In news reports we are accustomed to see earthquakes symbolised with a dot or star on a map and associated with a magnitude, the bigger the scarier. For at least moderately sized earthquakes seismologists additionally have been routinely determining the type of rupture just from observing the pattern of radiated seismic energy. In reality earthquakes do not occur as a point but rupture a fault plane. For small earthquakes this distinction can be neglected but for the largest earthquakes the rupture plane can extend for hundreds of kilometres, and the actual rupture propagation begins to have a strong influence on the hazard that the earthquake presents – whether the rupture proceeds to the north or the south and how deep and shallow it reaches determines which cities will be hit the hardest, whether shaking is moderate or intense, and whether a sizeable tsunami is triggered. The explosion of the availability of ground-, ocean- and space-based observation technologies in the last decade has allowed seismologists to map the rupture process in unprecedented detail even for challenging subduction zone earthquakes. The same technology can be used to observe potential precursory processes and the postseismic relaxation by which the earth regains its equilibrium following the disturbance that a great earthquake represents. Focussing on the Mw 8.1 Iquique earthquake in northern Chile on April 1, 2014, we will discuss the state-of-the-art in monitoring great earthquakes and their aftermath.
    Language: German
    Type: info:eu-repo/semantics/article
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  • 3
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    Beobachtung der letzten Phase eines seismischen Zyklus in Nordchile : IPOC – europäisch-südamerikanisches Netzwerk (2011)
    In:  System Erde
    Details
    Publication Date: 2020-02-12
    Description: The Integrated Plate Boundary Observatory Chile (IPOC) is an international network of institutions and scientists organizing and operating a distributed system of instruments and projects dedicated to the study of earthquakes, deformation and other subduction processes at the continental margin of Chile. This megathrust plate boundary between the South American plate and the oceanic Nazca plate exhibits some of the largest earthquakes on Earth. Earthquakes, volcanoes and other active margin processes are driven by ongoing convergence between the two tectonic plates. Our goal is to improve the understanding of both the physical mechanisms underlying these processes and the natural hazards induced by them. We therefore integrate modern ground- and space-based technologies to observe and interpret active deformation related to the megathrust seismic cycle. The northern part of the Chilean margin offers an exceptional opportunity for such studies: the more than 400 km long plate boundary segment between Antofagasta and Arica, capable of a giant M9+ earthquake, has not been broken for more than 100 years. This is the longest time period between large earthquakes along the Peru-Chile coastal margin, putting this segment presumably in the terminal stage of a seismic cycle. The neighboring segments to the south and north have been broken in 1995 and 2007 and 2001 respectively, enhancing the stress in between.
    Language: German
    Type: info:eu-repo/semantics/article
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  • 4
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    Das Knacken, Knistern und Knirschen beim Verschlucken einer kalten Platte : Das IPOC-Observatorium überwacht seit zehn Jahren die Subduktionszone in Nordchile (2016)
    In:  System Erde
    Details
    Publication Date: 2020-02-12
    Description: The Integrated Plate Boundary Observatory Chile (IPOC) in northern Chile has been monitoring the largest seismic gap along the South American subduction zone for 10 years. When IPOC was initiated, it has been 130 years the last great earthquake in the region had occurred. And since then the Iquique gap had been accumulating a slip deficit along a 〉500 km segment of the plate boundary. Since IPOC’s inception two large events, the 2007 M 7.7 Tocopilla and the M 8.1 2014 Iquique earthquakes, have broken parts of the gap. Both events were well recorded by IPOC, produce valuable data and advance our understanding of the subduction megathrust earthquake cycle. Last year, the Helmholtz Centre for Ocean Research Kiel (GEOMAR) has been extending IPOC with the GeoSEA ocean bottom observatory. In this ambitious project deformation will be measured where it cannot be picked up by land-based instruments, i. e. far offshore near the subduction trench. This will open the crucial updip section of the subduction plate boundary to research. IPOC has thus demonstrated the necessity of long-term monitoring to observe slow or rare events, but also that tenacity and patience pay off.
    Language: German
    Type: info:eu-repo/semantics/article
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