Geodesic monitoring of ground deformations at Klyuchevskoy Volcano in 1978–2014, Kamchatka

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Abstract

Measured values are given - slant distances and elevations between geodetic marks on the northeast slope of Klyuchevskaya volcano for 1978–2014. As a rule, a rise was observed before the secondary and summit eruptions, and the end of the eruptions was accompanied by the lowering of the volcano slope. According to the longest series of observations of vertical displacements from 1979 to 2014. on the “Kirgurich” radial profile, the rise of the volcano slope is determined to increase as it approaches its crater. The maximum displacements occurred two years before the start of the “Predskazannuy” side breakthrough in 1983, and before the summit eruptions of 2003–2004 and 2007. At a distance of 27 km from the crater of the volcano, the vertical displacements become insignificant. It is shown that points located at altitudes from 2000 meters to 3000 meters are subject to deep creep, i.e. sliding down. The displacement rates of such points reached 5–20 cm/year. Significant horizontal displacements of geodetic points occurred near incidental breaks on March 6, 1980 and March 8, 1983. From 1989–1993. until 2014, reductions of all lengths of lines from 5 to 20 mm were observed, which indicated compression of the northeast slope of Klyuchevskaya volcano.

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About the authors

М. А. Maguskin

Institute of Volcanology and Seismology, Far East Branch, Russian Academy of Sciences

Author for correspondence.
Email: magma@kscnet.ru
Russian Federation, bul’var Piipa 9, Petropavlovsk-Kamchatsky, 683006

N. А. Zharinov

Institute of Volcanology and Seismology, Far East Branch, Russian Academy of Sciences

Email: nzhar@kscnet.ru
Russian Federation, bul’var Piipa 9, Petropavlovsk-Kamchatsky, 683006

Yu. V. Demyanchuk

Institute of Volcanology and Seismology, Far East Branch, Russian Academy of Sciences

Email: nzhar@kscnet.ru
Russian Federation, bul’var Piipa 9, Petropavlovsk-Kamchatsky, 683006

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Supplementary files

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2. Fig. 1. Scheme for measuring line lengths at Klyuchevskoye State Border Guard Inspectorate. a - light-range finders SG-3 and Geodimeter-8 in 1978–1984. (1 - lava outflow crack 05.03.1980); b - the light range finder SG-3 of the KLUC - MALY line and the light range finder SP-2 of all other lines in 1988–2007.

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3. Fig. 2. Graphs of changes in inclined distances in 1989–2013. Volcanic eruption periods are shown according to [Fedotov, Zharinov, 2007; Zharinov, Demyanchuk, 2016]. 1 - side eruptions; 2 - vertex eruptions.

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4. Fig. 3. Local installations of satellite geodetic receivers (horizontal deformations of the earth's surface in 2012–2013). (b) 2013–2014 (AT).

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5. Fig. 4. The approximate area of distribution of horizontal deformations of the earth's surface in connection with the TTI - 2012–2013: in 2011–2013. (a), 1 - place of eruption; in 2013–2014 (B); a modern installation scheme for satellite geodetic receivers at Klyuchevoye GDP (c).

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6. Fig. 5. Scheme of high-precision leveling profiles laid down at Klyuchevskoye State Border Inspectorate in 1978–1985. 1 - ground benchmarks (rp. Hl1, hl2, hl3 - laid at a depth of 6-12 m); 2 - rocky benchmarks; 3 - points of triangulation.

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7. Fig. 6. Vertical displacements of benchmarks on the “Kirgurich” profile for 1979–2014. The lower part of the figure shows the periods of eruptions of the Klyuchevskaya volcano [Fedotov, Zharinov, 2007; Zharinov, Demyanchuk, 2016]. 1 - side eruptions; 2 - vertex eruptions.

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8. Fig. 7. Vertical displacements along the radial profile from column rp. "Hapitsa" - column rp. 702 (a), as well as vertical offsets along subhorizontal profiles: sc. rp. 10 - speed rp. 6 (b), sk. rp. 10 - column rp. 5985 - column rp. 702 (c).

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