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  • 1
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    High‐Frequency (6 Hz) PKPab Precursors and Their Sensitivity to Deep Earth Heterogeneity (2021)
    Details
    Publication Date: 2021-07-04
    Description: We present observations on a new precursory phase of seismic waves scattered in the deep Earth. This phase arrives prior to the PKPab wave at epicentral distances larger than 155°, and we call it PKPab precursor. We show that the presence of the PKPab precursor is a necessary consequence of scattering in D″, which is the commonly accepted cause of the PKPdf precursor at distances smaller than 145°. PKPdf waves that propagate through the inner core should arrive before the PKPab precursor but those, are strongly attenuated in the inner core at frequencies between 4 Hz and 8 Hz used here, making the PKPab precursor the earliest teleseismic signal at distances larger than 155°. Calculated PKPab precursor sensitivity kernel shows that this phase is mostly sensitive to scattering along the closest PKPbc path between source and receiver. It can thus help to constrain the lateral distribution of heterogeneity along D″.
    Description: Plain Language Summary: A new discovered seismic signal recorded far away from earthquakes, by stations on the other side of Earth, will help to study the properties of the core–mantle boundary. We use high frequencies at which seismic waves do not propagate through the Earth's inner core but are instead propagated around it by deflection at heterogeneity located along the core–mantle boundary.
    Description: Key Points: PKP precursor observed at distance beyond 155°. D″ scattering of teleseismic waves at 6 Hz. Radiative transfer simulation used to locate regions of heterogeneity.
    Description: Deutscher Akademischer Austauschdienst (DAAD) http://dx.doi.org/10.13039/501100001655
    Keywords: 551.22 ; CMB ; deep Earth ; PKP precursor ; radiative transfer simulation ; scattering sensitivity ; wave scattering
    Type: article
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  • 2
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    Amphibious Seismic Survey Images Plate Interface at 1960 Chile Earthquake (2003)
    AGU (American Geophysical Union)
    In:  Eos, Transactions American Geophysical Union, 84 (32). 301,304-305.
    Details
    Publication Date: 2017-02-14
    Description: The southern central Chilean margin at the site of the largest historically recorded earthquake in the Valdivia region, in 1960 (Mw = 9.5), is part of the 5000-km-long active subduction system whose geodynamic evolution is controversially debated and poorly understood. Covering the area between 36° and 40°S, the oceanic crust is segmented by prominent fracture zones. The offshore forearc and its onshore continuation show a complex image with segments of varying geophysical character, and several fault systems active during the past 24 m.y. In autumn 2001, the project SPOC was organized to study the Subduction Processes Off Chile, with a focus on the seismogenic coupling zone and the forearc. The acquired seismic data crossing the Chilean subduction system were gathered in a combined offshore-onshore survey and provide new insights into the lithospheric structure and evolution of active margins with insignificant frontal accretion.
    Type: Article , NonPeerReviewed
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  • 3
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    Seismicity and geometry of the south Chilean subduction zone (41.5°S-43.5°S): Implications for controlling parameters (2007)
    AGU (American Geophysical Union)
    In:  Geophysical Research Letters, 34 (L06311).
    Details
    Publication Date: 2018-02-15
    Description: In 2005 an amphibious seismic network was deployed on the Chilean forearc between 41.75°S and 43.25°S. 364 local events were observed in a 11-month period. A subset of the P and S arrival times were inverted for hypocentral coordinates, 1-D velocity structure and station delays. Main seismic activity occurred predominantly in a belt parallel to the coast of Chiloé Island in a depth range of 12–30 km presumably related to the plate interface. The 30° inclination of the shallow part of the Wadati-Benioff zone is similar to observations further north indicating that oceanic plate age is not controlling the subduction angle of the shallower part for the Chilean subduction zone. The down-dip termination of abundant intermediate depth seismicity at approximately 70 km depth seems to be related to the young age (and high temperature) of the oceanic plate. Crustal seismicity is associated with the Liquiñe-Ofqui fault zone and active volcanoes.
    Type: Article , PeerReviewed
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  • 4
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    The Maule Mw 8.8 earthquake seen with the SFB574 volcanic network (2010)
    In:  [Poster] In: SFB 574 Subduction Workshop, 04.-07.11.2010, Pucon, Chile .
    Details
    Publication Date: 2012-01-27
    Description: Chile is one of the most seismically active countries in the world with a M〉8 earthquake occurring approximately every ten years. The recent 27th February 2010 (Mw=8.8) earthquake released the energy accumulated in the Concepción-Constitución seismic gap, contained since the last 1835 earthquake. The hypocenter was located at the subduction interface of the Nazca plate under the South American plate, near the coast of Talcahuano, at a depth of 30 km. The rupture area extended approximately for 450 km long, from the Arauco Peninsula northwards to Pichilemu. Hundreds of aftershocks have taken place in the rupture area, the largest of which was the Pichilemu M=6.9 earthquake on 11th March. A volcano-surrounding network was installed in Llaima and Villarrica volcanoes in Southern Chile in November, 2009. Each network comprises one Broad Band station, one “Ocean” Bottom Station and three Short-Period stations arranged in a circular disposition. The seismological data recording at the two volcanoes is still ongoing until April 2011. Data examples and first results from the analysis of the data recorded from November, 2009 until April, 2010 are presented. The mainshock, foreshocks and aftershocks were retrieved, and are being separated from the local seismicity in the records. During the same time frame, volcanic events are identified to characterize the volcano seismicity at Llaima and Villarrica volcanoes, to correlate this activity with degassing emissions (SO2) measured with mini-DOAS. Any influence of the Maule earthquake on the volcanoes behaviour is also investigated based on the seismic records.
    Type: Conference or Workshop Item , NonPeerReviewed
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  • 5
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    First seismic record for intra-arc strike-slip tectonics along the Liquiñe-Ofqui fault zone at the obliquely convergent plate margin of the southern Andes (2008)
    Elsevier
    In:  Tectonophysics, 455 (1-4). pp. 14-24.
    Details
    Publication Date: 2016-06-22
    Description: A temporal seismic network recorded local seismicity along a 130 km long segment of the transpressional dextral strike-slip Liquiñe-Ofqui fault zone (LOFZ) in southern Chile. Seventy five shallow crustal events with magnitudes up to M(tief)w 3.8 and depths shallower than 25 km were observed in an 11-month period mainly occurring in different clusters. Those clusters are spatially related to the LOFZ, to the volcanoes Chaitén, Michinmahuida and Corcovado, and to active faulting on secondary faults. Further activity along the LOFZ is indicated by individual events located in direct vicinity of the surface expression of the LOFZ. Focal mechanisms were calculated using deviatoric moment tensor inversion of body wave amplitude spectra which mostly yield strike-slip mechanisms indicating a NE–SW direction of the P-axis for the LOFZ at this latitude. The seismic activity reveals the present-day activity of the fault zone. The recent M(tief)w 6.2 event near Puerto Aysén, Southern Chile at 45.4°S on April 21, 2007 shows that the LOFZ is also capable of producing large magnitude earthquakes and therefore imposing significant seismic hazard to this region.
    Type: Article , PeerReviewed
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  • 6
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    Interaction between forearc and oceanic plate at the south-central Chilean margin as seen in local seismic data (2006)
    AGU (American Geophysical Union)
    In:  Geophysical Research Letters, 33 (L23302).
    Details
    Publication Date: 2016-04-04
    Description: We installed a dense, amphibious, temporary seismological network to study the seismicity and structure of the seismogenic zone in southern Chile between 37° and 39°S, the nucleation area of the great 1960 Chile earthquake. 213 local earthquakes with 14.754 onset times were used for a simultaneous inversion for the 1-D velocity model and precise earthquake locations. Relocated artificial shots suggest an accuracy of the earthquake hypocenter of about 1 km (horizontally) and 500 m (vertically). Crustal events along trench-parallel and transverse, deep-reaching faults reflect the interseismic transpressional deformation of the forearc crust due to the subduction of the Nazca plate. The transverse faults seems to accomplish differential lateral stresses between subduction zone segments. Many events situated in an internally structured, planar seismicity patch at 20 to 40 km depth near the coast indicate a stress concentration at the plate's interface at 38°S which might in part be induced by the fragmented forearc structure.
    Type: Article , PeerReviewed
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