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1.
E. I. Gordeev P. P. Firstov S. N. Kulichkov E. R. Makhmudov 《Izvestiya Atmospheric and Oceanic Physics》2013,49(4):420-431
The IS44 station operates at the observation point of Nachiki on the Kamchatka peninsula, which is part of the International Monitoring System (IMS), and it helps verify compliance with the Comprehensive Nuclear Test-Ban Treaty (CTBT). The Kamchatka Branch, Geophysical Service, Russian Academy of Sciences (KB GS RAS), has a station operating in the village of Paratunka. Both of these stations allow one to monitor strong explosive eruptions of andesitic volcanoes.1 Both kinematic and dynamic parameters of acoustic signals accompanying the eruptions of the Bezymyannyi volcano (at a distance of 361 km from Nachiki) in 2009–2010 and the Kizimen volcano (at a distance of 275 km) on December 31, 2011, are considered. A low-frequency rarefaction phase 60 s in length has been revealed in the initial portion of the record of acoustic signals accompanying such strong eruptions. It is shown that the rarefaction phase occurs due to the rapid condensation of superheated juvenile vapor2 that enters the atmosphere during such explosions.3 The amount of volcanic ash emitted into the atmosphere has been estimated within (3.2–7.3) 106 m3 on the basis of acoustic signals recorded during the eruptions under consideration. 相似文献
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V. N. Chebrov D. V. Droznin S. Ya. Droznina N. Z. Zakharchenko Yu. A. Kugaenko D. V. Melnikov V. N. Mishatkin Ya. D. Murav’ev I. N. Nuzhdina A. V. Rybin S. L. Senyukov V. A. Sergeev S. S. Serovetnikov N. N. Titkov P. P. Firstov V. V. Yaschuk 《Seismic Instruments》2013,49(3):254-264
This work presents the project of the first stage of implementation of the integrated instrumental system of volcanic activity monitoring in Kamchatka and the Kuril Islands. The system of monitoring was designed for the purpose of ensuring public safety, aviation safety, and reducing economic losses caused by volcanic eruptions. The most active and dangerous volcanoes in Kamchatka (North and Avacha groups of volcanoes) and the Kuril Islands (volcanoes on the islands of Kunashir and Paramushir) are of first priority for monitoring. For this purpose, special observation points are planned to be installed on the volcanoes. The system of monitoring will include a complex of observations (broadband seismic station with a large dynamic range, tiltmeter, devices for gas, acoustic, and electromagnetic observations, and video camera). All the data will be passed to information processing centers in real time. New methods and algorithms of automatic and automated identification of the volcanic activity level and the probabilistic volcano hazard assessment have been developed. 相似文献
3.
We have estimated the variations in the atmospheric electrostatic field (AEF, E
Z(0)) strength in the surface layer caused by variations in conductivity due to radon influences, cosmic ray intensity, changes
in the balance of light and heavy ions during sunset and sunrise, and under the effect of the ionospheric electric current
potential on the AEF potential. It is shown that the air conductivity varies due to ionization under the effect of radon emanations
and is determined by the radon exhalation and turbulent diffusion of the surface air layer, while the cosmic ray intensity
affects the surface air conductivity through changes in the ion recombination conditions. A decrease in the air conductivity
due to a decrease in the cosmic ray intensity (Forbush decrease) also decreases E
Z(0), while a decrease in radon fluxes results in an increase in E
Z(0). We have estimated the effect of illumination conditions on the AEF due to variations in the relative concentration of heavy
and light ions under the influence of photodetachment and photoattachment processes. The work has been done on the basis of
data received from the Paratunka observatory (Kamchatka). 相似文献
4.
P. P. Firstov E. A. Ponomarev N. V. Cherneva A. V. Buzevich O. P. Malysheva 《Journal of Volcanology and Seismology》2007,1(6):397-404
A model is studied which claims to describe the effects of air pressure variations on the outflow of radon into the atmosphere from loose deposits that are treated as a porous medium having the gas dynamic properties described by Darcy’s law. It is shown that the model results are in satisfactory agreement with the experimental data acquired from a network for monitoring subsoil radon in the Petropavlovsk-Kamchatskii Geodynamic Site in 1997–2006. A technique has been developed for estimating the Darcy coefficient based on radon concentration data in loose deposits at various depths. 相似文献
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P. P. Firstov R. R. Akbashev R. Holzworth N. V. Cherneva B. M. Shevtsov 《Izvestiya Atmospheric and Oceanic Physics》2017,53(1):24-31
The development of a volcanic plume from the Shiveluch volcano explosion on November 16, 2014, is analyzed using a complex of geophysical methods. The start of the explosion was detected by seismic data. The World Wild Lightning Location Network (WWLLN) allowed the localization of volcanic lightning discharges that occurred during the first stage of the eruption plume. Satellite IR monitoring data made the plume structure obvious. An electrostatic fluxmeter mounted 113 km apart from the volcano recorded the first disturbances of the atmospheric electrical potential gradient (PG) at a distance of 90 km from the eruption cloud front. Two distinct PG anomalies, of 50 and 32 min in length and of more than 100 V/m in amplitude, recorded in 2 h, indicate two separate eruption formations formed by this time. The propagation velocities of two parts of the plume close to the wind speeds at altitudes of temperature inversions (9–10 and 12 km), according to balloon sensing, point out to the plume layering and propagation at two altitudes. 相似文献
9.
I. P. Chunchuzov S. N. Kulichkov P. P. Firstov 《Izvestiya Atmospheric and Oceanic Physics》2013,49(3):258-270
The nonlinear propagation of acoustic pulses from a point source of an explosive character (surface explosion or volcano) throughout the atmosphere with stratified wind-velocity and temperature inhomogeneities is studied. The nonlinear distortions of acoustic pulse and its transformation into an N-wave during its propagation to the upper atmosphere are analyzed in the context of a modified Burgers’ equation which takes into account a geometric ray-tube divergence simultaneously with an increase in both nonlinear and dissipative effects with height due to a decrease in atmospheric density. The problem of reflection of a spherical N-wave from an atmospheric inhomogeneous layer with model vertical wind-velocity and temperature fluctuations having a vertical spectrum that is close to that observed within the middle atmosphere is considered. The relation between the parameters (form, length, frequency spectrum, and intensity) of signals reflected from an atmospheric inhomogeneous layer and the parameters of the atmospheric fine layered structure at reflection heights is analyzed. The theoretically predicted forms of signals reflected from stratified inhomogeneities within the stratosphere and the lower thermosphere are compared to the observed typical forms of both stratospheric and thermospheric arrivals from surface explosions and volcanoes in the zones of an acoustic shadow. 相似文献
10.
Earthquake data from Δ<2° and of indermediate depth of focus in the upper mantle near the Kliuchevskaya volcanic region show a screening effect of longitudinal and transverse waves. The indicated anomalous zones are identified with the region of magma localization. The anomalous zones are at 35–110 km depths. 相似文献