L. N. Poplavskaya scite author profile

L. N. Poplavskaya

4Publications

13Citation Statements Received

4Citation Statements Given

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Institute of Marine Geology and Geophysics, Institute of Marine Geology and Geophysics, Russian Academy of Sciences

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The Neftegorsk, Sakhalin Island, earthquake of 27 May 1995

et al. 1997

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Past seismic catastrophes were unknown in Sakhalin Island before 1995 except those suggested from findings of paleoseismodislocations. The first time that dwellers have experienced such a catastrophe in the Sakhalin Island history was on 27 May 1995. The devastating Neftegorsk earthquake occurred in Northern Sakhalin (cp = 52.8" north; h = 143.2' east; H = 18 km; M, = 7.2), killed almost 2000 people in the small city of Neftegorsk, caused damage and destruction of buildings, bridges, railways and roads, breakage of oil and gas pipelines, electric and communication lines, and was accompanied by large-scale surface phenomena within a source area. It was felt all over the Sakhalin Island, as well as over the closest part of the Eurasian continent. Surface fracturing was the most impressive effect of the Neftegorsk earthquake. The 37-km long, right-lateral strike-slip fault, with a strike of north 15" east and a horizontal displacement up to a maximum of 8m, has been observed from Taxon Mountain at the south to the junction of the Cadylanye and Keniga Rivers at the north. According to the results of a detailed geological survey and study of the aftershocks, the total extent of the source area was -80 km. Various secondary phenomena have been observed at the Earth's surface, such as landslides, falls, soil liquefaction, mud volcanoes etc. The earthquake was followed by hundreds of aftershocks within the following 1-2 months. Spatially, the earthquake fault coincides with the pre-existing Upper Piltun fault, known earlier from geological studies. Recent high activity of the latter fault has been recognized only after the Neftegorsk event because of findings of traces of significant past dislocations within the fault zone. From a tectonic viewpoint it can be suggested that the Upper Piltun fault is a Riedel-type shear fracture located between two main regional faults: the Gyrgylanye-Dagy fault at the west and the Piltun-Ekhaby fault at the east. Therefore, its present activity, expressed by the destructive Neftegorsk earthquake, seems to be explained by a long strain accumulation within a broad zone of regional right-lateral shear faulting.

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Improvements on the magnitude-geographic criterion of tsunami hazard

Poplavskii

Poplavskaya

Spirin

et al. 2009

J. Volcanolog. Seismol.

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A series of strong and catastrophic Simushir earthquakes, 2006–2009: General features and seismotectonics of the source zones

2009

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The catastrophic Simushir earthquake occurred on 15 November 2006 in the Kuril-Okhotsk region in the Middle Kuril Islands which is a transition zone between the Eurasian continent and the Pacific Ocean. It was followed by numerous strong earthquakes. It is established that the catastrophic earthquake was prepared on a site characterized by increased relative effective pressures which is located at the border of the low-pressure area (Figure 1). Based on data from GlobalCMT (Harvard), earthquake focal mechanisms were reconstructed, and tectonic stresses, the seismotectonic setting and the earthquakes distribution pattern were studied for analysis of the field of stresses in the region before to the Simushir earthquake (Figures 2 and 3; Table 1). Five areas of various types of movement were determined. Three of them are stretched along the Kuril Islands. It is established that seismodislocations in earthquake focal areas are regularly distributed. In each of the determined areas, displacements of a specific type (shear or reverse shear) are concentrated and give evidence of the alteration and change of zones characterized by horizontal stretching and compression. The presence of the horizontal stretching and compression zones can be explained by a model of subduction (Figure 4). Detailed studies of the state of stresses of the Kuril region confirm such zones (Figure 5).

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Possibility of the reconstruction of the real dynamics of the Earth’s crust (The example of the southern regions of Sakhalin and Kuril Islands)

2009

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L. N. Poplavskaya

The Neftegorsk, Sakhalin Island, earthquake of 27 May 1995

Improvements on the magnitude-geographic criterion of tsunami hazard

A series of strong and catastrophic Simushir earthquakes, 2006–2009: General features and seismotectonics of the source zones

Possibility of the reconstruction of the real dynamics of the Earth’s crust (The example of the southern regions of Sakhalin and Kuril Islands)

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