GLORIA — GEOMAR Library Ocean Research Information Access

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INDEPTH Wide-Angle Reflection Observation of P-Wave-to-S-Wave Conversion from Crustal Bright Spots in Tibet (1996)

Makovsky, Y. ; Klemperer, S. ; Ratschbacher, L. ; [et al.]

In: Science

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Publication Date: 2020-02-12

Description: Three-component wide-angle seismic data acquired in southern Tibet during Project INDEPTH show strong P-to-S converted reflections from reflectors that are aligned at a depth of ∼15 kilometers beneath the northern Yadong-Gulu rift. These converted reflections are locally higher in amplitude than the corresponding P-wave reflections. Modeling of reflection mode conversion as a function of incidence angle indicates that this condition obtains for a reflector that is a solid over fluid interface; it is not typical of a solid-solid interface. The likely candidates for a fluid trapped within the crystalline crust of southern Tibet are granitic magma and water (brine).

Language: English

Type: info:eu-repo/semantics/article

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Seismicity of Central Tibet from Project INDEPTH III Seismic Recordings (2003)

Langin, W. ; Brown, L. ; Sandvol, E.

In: Bulletin of the Seismological Society of America

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Publication Date: 2020-02-12

Description: As part of Project International Deep Profiling of Tibet and the Himalaya III, a 400-km-long, densely spaced array of 57 broadband and short-period seismic stations was deployed in central Tibet from August 1998 through May 1999. Although originally designed to image the lithosphere with teleseismic events, the array also recorded numerous local and regional seismic events. More than 900 local and regional events were detected on at least 10 stations during the 1-year deployment, and we were able to locate 267 local earthquakes. A substantial number of the events were found to cluster in or near large grabens and along known strike-slip faults, while other events show no obvious correlation with known structures. In addition to spatial clustering, at least one of the large clusters also exhibits temporal clustering that may be associated with magmatic or geothermal activity in the upper crust. The average Vp and Vs are estimated to be 5.85 and 3.35 km/sec for the upper crust and 7.0 and 3.9 km/sec for the lower crust, respectively. The 50 focal mechanisms computed from this set of events are consistent with north–south shortening and east–west extension; there are no clear indications of significant local perturbations in the regional stress field induced by the collision between India and Eurasia. The majority of the focal mechanisms indicate normal and strike-slip faulting. At least six of the newly computed focal mechanisms, however, indicate thrust faulting, which is a phenomenon not well documented previously. Ninety-nine percent of the local earthquakes have focal depths shallower than 25 km, and the locations of the few deeper events are poorly constrained. The shallow earthquake focal depths are consistent with high temperatures and proposed ductile or aseismic behavior in the middle to lower crust of central Tibet.

Language: English

Type: info:eu-repo/semantics/article

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Structure of the crust and the lithosphere beneath the southern Puna plateau from teleseismic receiver functions (2014)

Heit, B. ; Bianchi, M. ; Yuan, X. ; [et al.]

In: Earth and Planetary Science Letters

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Publication Date: 2020-02-12

Language: English

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Teleseismic tomography of the southern Puna plateau in Argentina and adjacent regions (2013)

Bianchi, M. ; Heit, B. ; Jakovlev, A. ; [et al.]

In: Tectonophysics

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Publication Date: 2020-02-12

Description: We performed a teleseismic P wave tomography study using seismic events at both teleseismic and regional distances, recorded by a temporary seismic array in the Argentine Puna Plateau and adjacent regions. The tomographic images show the presence of a number of positive and negative anomalies in a depth range of 20–300 km beneath the array. The most prominent of these anomalies corresponds to a low-velocity body, located in the crust, most clearly seen in the center of the array (27°S, 67°W) between the Cerro Peinado volcano, the Cerro Blanco caldera and the Farallon Negro in the east. This anomaly (southern Puna Magmatic Body) extends from the northern most part of the array and follows the line with the highest density of stations towards the south where it becomes smaller. It is flanked by high velocities on the west and the east respectively. On the west, the high velocities might be related to the subducted Nazca plate. On the northeast the high velocity block coincides with the position of the Hombre Muerto basin in the crust and could be indicating an area of lithospheric delamination where we detected a high velocity block at 100 km depth on the eastern border of the Puna plateau, north of Galan. This block might be related to a delamination event in an area with a thick crust of Paleozoic metamorphic rocks at the border between Puna and Eastern Cordillera. In the center of the array the Southern Puna magmatic body is also flanked by high velocities but the most prominent region is located on the east and is interpreted as part of the Sierras Pampeanas lithosphere with high velocities. The position of the Sierras Pampeanas geological province is key in this area as it appears to limit the extension of the plateau towards the south.

Keywords: 550 - Earth sciences

Language: English

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Central Andean mantle and crustal seismicity beneath the Southern Puna plateau and the northern margin of the Chilean-Pampean flat slab (2014)

Mulcahy, P. ; Chen, C. ; Kay, S. ; [et al.]

In: Tectonics

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Publication Date: 2020-02-12

Description: Earthquake hypocenters recorded in the Andean Southern Puna seismic array (25–28°S, 70–65°W) provide new constraints on the shape of the subducting Nazca plate beneath the Puna plateau, the transition into the Chilean‐Pampean flat slab and the thermal state of the mantle and crust. Some 270 new mantle hypocenters suggest that the subducting slab under the Puna shoals into the flat‐slab segment more abruptly and farther to the north than previously indicated. The revised geometry is consistent with the Central Volcanic Zone Incapillo caldera being the southernmost center with Pleistocene activity until reaching the southern side of the flat‐slab region. Evidence for the revised slab geometry includes three well‐defined hypocenter clusters in the Pipanaco nest (27.5–29°S, 68–66°W), which are interpreted to reflect slab‐bending stresses. A few low‐magnitude earthquakes with strongly attenuated S waves in the long‐recognized Antofalla teleseismic gap (25.5–27.5°S) support a continuous slab under the Southern Puna. The paucity of gap earthquakes and the presence of mafic magmas are consistent with a hot mantle wedge reflecting recent lithospheric delamination. Evidence for a hot overlaying Puna crust comes from new crustal earthquake hypocenters concentrated at depths shallower than 5 km. Two notable short‐duration swarms were recorded under the resurgent dome of the ~2 Ma back‐arc Cerro Galán caldera and the near‐arc Cerro Torta dome. New crustal earthquake focal mechanisms from 17 events in the array along with two existing mechanisms have strike slip, oblique reverse, and oblique normal solutions fitting with regional E‐W compression and N‐S extension.

Language: English

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Delamination of southern Puna lithosphere revealed by body wave attenuation tomography (2014)

Liang, X. ; Sandvol, E. ; Kay, S. ; [et al.]

In: Journal of Geophysical Research

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Publication Date: 2020-02-12

Description: The southern Puna Plateau has been proposed to result from a major Pliocene delamination event that has previously been inferred from geochemical, geological, and some preliminary geophysical data. Seventy-five seismic stations were deployed across the southern Puna Plateau in 2007–2009 by scientists fromthe U.S., Germany, Chile, and Argentina to test the delamination model for the region. The Puna passive seismic stations were located between 25 and 28°S. Using the seismic waveform data collected from the PUNA experiment,we employ attenuation tomography methods to resolve both compressional and shear quality factors (Qp and Qs, respectively) in the crust and uppermost mantle. The images clearly show a high-Q Nazca slab subducting eastward beneath the Puna plateau and another high-Q block with a westward dip beneath the Eastern Cordillera. We suggest that the latter is a piece of delaminated South American lithosphere. A significant low-Q zone lies between the Nazca slab and the South American lithosphere and extends southward from the northernmargin of the seismic array at 25°S before vanishing around 27.5°S. This low-Q zone extends farther west in the crust and uppermost mantle at the southern end of the seismic array. The low-Q zone reaches ~100 km depth beneath the northern part of the array but only ~50 km depth in the south. Lateral variations of the low-Q zone reflect the possible mechanism conversion between mantle upwelling related to delamination and dehydration. The depth of the Nazca slab as defined by Q images decreases from north to south beneath the plateau, which is consistentwith the steep-flat transition of the angle of the subducting slab as defined by previous earthquake studies.

Language: English

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Lithosphere-Scale Seismic Image of the Southern Urals from Explosion-Source Reflection Profiling (1996)

Knapp, J. ; Steer, D. ; Brown, L. ; [et al.]

In: Science

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Publication Date: 2020-02-12

Description: Explosive-source deep seismic reflection data from the southern Ural Mountains of central Russia provided a lithosphere-scale image of the central Eurasian plate that reveals deep reflections (35 to 45 seconds in travel time; ∼130 to 170 kilometers deep) from the mantle. The data display laterally variable reflectivity at the base of the crust that deepens beneath the central part of the profile, documenting a crustal thickness of ∼55 to 60 kilometers beneath the axis of the orogen. These data provide an image of the structure of the crust and underlying mantle lithosphere in a preserved collisional orogen, perhaps to the base of the lithosphere.

Language: English

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Receiver-function imaging of the lithosphere at the Kunlun-Qaidam boundary, Northeast Tibet (2019)

Karplus, M. ; Klemperer, S. ; Zhao, W. ; [et al.]

In: Tectonophysics

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Publication Date: 2020-11-24

Description: We studied the crustal structure and tectonics in the north Tibetan Plateau from the Songpan-Ganzi terrane to the Qaidam Basin using teleseismic receiver-function imaging, across a major lithospheric boundary, the Kunlun- Qaidam boundary, where previous studies suggest a ~15–20-km change in crustal thickness from thicker crust in the Kunlun Mountains to thinner crust in the Qaidam Basin. We report P receiver functions for 70 stations, largely the International Deep Profiling of Tibet and the Himalaya (INDEPTH), phase IV, experiment. Our most dense station coverage is located along the roughly north-south INDEPTH-IV active-source seismic profile at approximately 95° E longitude. Azimuthal and geographical changes in the receiver functions reveal significant changes in crustal structure and Vp/Vs from across the study area. Receiver functions show strong converters that we interpret as the Moho at ~70 km depth beneath the Qiangtang, Songpan-Ganzi terranes and Kunlun Mountains and at ~50 km depth beneath the central Qaidam Basin. This large change in crustal thickness occurs〉 50 km north of the North Kunlun strike-slip fault, on which the 2001 M8.1 Kunlun earthquake occurred. Receiver functions for some of the stations north of the thickness change at the Kunlun-Qaidam boundary also show a deeper ~70-km bright converter in addition to the 50-km converter. The two converters appear to overlap by up to ~30 km in some locations along the south Qaidam Basin. We combine previous results with these new results to discuss implications for mechanisms for crustal thickening in the north Tibetan Plateau including crustal flow and crustal injection. At depths imaged here, shallower than ~100 km, we see no evidence of southward subduction of Eurasian lithosphere.

Language: English

Type: info:eu-repo/semantics/article

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Seismology Across the Northeastern Edge of the Tibetan Plateau (2008)

Zhao, W. ; Brown, L. ; Wu, Z. ; [et al.]

In: Eos, Transactions American Geophysical Union

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Publication Date: 2020-02-12

Description: On 12 May, a great earthquake (Ms=8.0) on the Longmenshan thrust fault rumbled through Chinas Sichuan province, killing more than 69,000 people and injuring 374,000. The Longmenshan thrust is part of the eastern border of the Tibetan Plateau, but it is not the plateaus only restless margin. An even larger earthquake (Ms=8.1) on the Kunlun fault shook northeastern Tibet in 2001, fortunately in a sparsely populated area. These massive quakes underscore the importance of understanding the tectonic response of Asia to collision by India. The International Deep Profiling of Tibet and the Himalaya (INDEPTH) program explores the dynamics of the India-Asia collision. Though many past geophysical studies have focused on the Himalayas and the southern Tibetan Plateau, the INDEPTH IV project examines the deep structure of the northeastern margin of the Tibetan Plateau.

Keywords: 550 - Earth sciences

Language: English

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Airborne Ku- and L-band polarimetric SAR observations of seasonal snow at a field site in Ontario during Winter 2023 (2023)

Kelly, R. ; Thompson, A. ; Derksen, C. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-07-07

Description: Airborne Ku- (13.5 GHz) and L-band (1.3 GHz) polarimetric synthetic aperture radar (SAR) observations were made of snow and lake ice at Ontario field sites during the 2022-2023 winter season. The airborne radar system, called CryoSAR, is a fully polarimetric SAR configured for repeat pass observations of snow and lake ice. A primary goal of this experiment is to acquire SAR observations for estimating changes in snow mass and lake ice properties using microwave backscatter and land surface models. Field campaigns at Powassan (terrestrial snow) and Haliburton Highlands (lake ice) were conducted to provide correlative ground reference data of snow and lake ice. A combination of traditional field observations of snow properties, and detailed state-of-the-art measurements of microstructure properties was made to quantify the bulk and stratigraphic characteristics of the snow and lake ice at the two sites. At Powassan, six soil moisture monitoring stations and a weather station provided observations of soil moisture/state and temperature, and snow and atmospheric variables. Drone-based lidar snow depth estimates provided snow depth maps during the season. Lake ice and atmospheric variables were measured at Haliburton Highlands. CryoSAR repeat pass overflights were conducted at both sites during the season. This presentation discusses the Ku- and L-band polarimetric SAR responses from snow and lake ice during the winter season and the impact that snow mass has on the Ku-band response. This unique experimental data set is being used to support Ku-band retrieval science from snow and lake ice for the Terrestrial Snow Mass Mission.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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