ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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Forschungsfeld Naturgefahren (2014)

Becker, A. ; Becker, P. ; Brienen, S. ; [et al.]

DWD, GFZ

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Publication Date: 2020-02-12

Description: Naturgefahren werden in erster Linie als Risiken gesehen, die vom Menschen nicht verursacht oder beeinflusst werden können. Diese Einschätzung trifft aber nicht durchgängig zu. So spielen bei Überschwemmungen, Dürren und den Auswirkungen des Klimawandels menschliche Aktivitäten oft eine entscheidende Rolle. Das betrifft zum Beispiel die Einflüsse hydrogeologischer Veränderungen durch Flussregulierungen und Eindeichungen oder Veränderungen durch intensive Landnutzungsmaßnahmen wie Waldrodungen oder Überweidungen.

Language: German

Type: info:eu-repo/semantics/book

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FAIR am GFZ (2018)

Elger, K. ; Bertelmann, R. ; Ulbricht, D. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: GFZ German Research Centre for Geosciences has a long tradition in research data management and practice in making data accessible to the scientific community. Since its publication in 2016, the „FAIR Guiding Principles for scientific data management and stewardship“ quickly evolved as a standard for research data management worldwide. GFZ is committed to these standards and has accordingly taken a series of actions which are described here. A key tool for FAIR data management at GFZ is the citable publication of research data with Digital Object Identifier (DOI). GFZ has a long tradition in research data management and practice in making data accessible to the scientific community. Since its publication in 2016, the „FAIR Guiding Principles for scientific data management and stewardship“ quickly evolved as a standard for research data management worldwide. GFZ is committed to these standards and has accordingly taken a series of actions which are described here. A key tool for FAIR data management at GFZ is the citable publication of research data, data collections and software with Digital Object Identifier (DOI) complementary to well-established disciplinary standards and data management.

Language: German

Type: info:eu-repo/semantics/article

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Seismisches Abbilden von Krustenstrukturen (2016)

Bauer, K. ; Ryberg, T. ; Braeuer, B. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: Deep seismic sounding provides important information on the seismic structure of the crust. Seismic experiments make use of controlled sources (explosions, Vibroseis) or natural sources (earthquakes, ambient noise), or combinations of both types. Seismic velocities are derived from modelling or tomographic inversion of diving waves and refractions. Particularly the combined interpretation of compressional and shear velocities allows for insight into the lithological structure of the crust. Seismic reflectivity is derived from imaging of waves reflected at geological boundaries. Typical patterns of crustal reflectivity are observed for specific tectonic settings. Case studies are shown from two studies at plate boundary systems. (1) The old plate boundary at the Namibian margin was formed by Cretaceous continental rifting and its interplay with the activities of the Tristan da Cunha mantle plume. Traces of intensive magmatic overprinting of the crust at the landfall region of Walvis Ridge can be seen in the derived velocity model and also in the reflectivity image. (2) The Dead Sea transform marks the active boundary between the African and Arabian plates. The Dead Sea basin was formed by pull-apart in response to step-over of the fault system. Results from tomography reveal a deep asymmetric basin structure. An anomalous body was found under the basin, between 13 and 18 km depth, which is interpreted as pre-basin sediments. Our results are supported by the distribution of earthquakes. The results provide new constraints for the modeling of plate boundary processes.

Language: German

Type: info:eu-repo/semantics/article

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Trends in seismologischer Instrumentierung (2016)

Haberland, C. ; Giese, R. ; Henninges, J. ; [et al.]

In: System Erde

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Publication Date: 2020-02-12

Description: Significant scientific findings are often directly related to innovations in measurement technology. For investigating the Earth’s interior the invention of the seismography played the most important role. Starting with the first seismograph suitable for scientific investigations by Ewing, Gray and Milne in the 1870s and its improvement by Wiechert around 1900, seismic instrumentation was available in the beginning of the last century to reveal the layered structure of our planet. Since then, instruments were steadily improved, and controlled source experiments and seismic networks significantly contribute today to our understanding of the Earth’s structure and the ongoing dynamic processes as well as to the exploration of resources as oil, gas, water and minerals. At the GFZ German Research Centre for Geosciences we work on technical innovations and apply them in experiments around the world and at a variety of scales. We develop highly portable, low-cost, high-performance seismic data recording systems, which are designed to be used in “large-N” array configurations (〉1000 receivers) and on the sea floor (shallow water). Distributed accoustic sensors (DAS) based on fibre-optic cables allow extremely dense sampling of the seismic wavefields. Seismic sources and receivers integrated in borehole tools illuminate in high-resolution the subsurface during drilling operations (Seismic prediction while drilling, SPWD).

Language: German

Type: info:eu-repo/semantics/article

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5

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Gravitative Massenbewegungen (2014)

Rosenau, M. ; Roessner, S. ; Pilz, M. ; [et al.]

In: Forschungsfeld Naturgefahren

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Publication Date: 2020-02-12

Language: German

Type: info:eu-repo/semantics/bookPart

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Seismische Datengewinnung : moderne Messsysteme verbessern die Abbildung des tiefen Untergrunds (2012)

Haberland, C. ; Ryberg, T.

In: System Erde

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Publication Date: 2020-02-12

Description: Most of our knowledge of the Earth’s interior results from seismological observations. The measurements are based on the fact that different rock types show different physical properties, and that seismic waves (e.g., from earthquakes or explosions) travelling through the Earth can be observed at the surface and be used to infer the internal architecture. Early seismological observations revealed the layered structure of the Earth, and today scientists are working on imaging the regional and local structural variations to better understand the geological processes and dynamics forming the Earth. However, seismic methods are also utilized to reveal the shallow parts bearing important resources such as hydrocarbons, water, or mineral deposits. In every case, the challenge for these seismic methods is to provide ever detailed images of the subsurface. One important step toward this aim is to increase the number of observations which can often be achieved by increasing the number of recording instruments. Recent technological advances in the field of A/D-converters, GPS receivers, and data storage led to the development of very compact autonomous recorders with a significantly reduced power consumption. Now, more instruments can be transported and installed with less personnel and costs, which results in significantly denser spatial sampling of the seismic wave field, thus eventually yielding better resolved subsurface images.

Language: German

Type: info:eu-repo/semantics/article

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