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В Russian Journal of Earth Sciences опубликован специальный выпуск “Kamchatka Earthquake M 8.8 on July 29, 2025”, посвященный Камчатскому землетрясению 29 июля 2025 года. Это событие магнитудой 8,8 стало самым сильным сейсмическим событием в мире со времени землетрясения Тохоку магнитудой 9,1 у побережья Японии в 2011 году и является шестым по силе из когда-либо зарегистрированных. Спецвыпуск объединяет работы ведущих специалистов, которые представляют всесторонний анализ Камчатского землетрясения.
Организатор специального выпуска: Главный редактор “Russian Journal of Earth Sciences” академик РАН А. Д. Гвишиани (научный руководитель Геофизического центра РАН)
Главный редактор специального выпуска: академик РАН А. О. Глико
Заместитель главного редактора специального выпуска: д.ф.-м.н. Б. А. Дзебоев
Выпускающий редактор: к.ф.-м.н. Э. О. Кедров
Вступительное слово от главных редакторов:
Preface to the Special Issue “Kamchatka Earthquake M 8.8 on July 29, 2025”
A. D. Gvishiani, A. O. Gliko
https://doi.org/10.2205/2026es001110
Основное содержание выпуска разделено на две тематические секции:
Section 1. Seismological and Geodynamic Studies
1. Long-Term Earthquake Prediction by S. A. Fedotov for the Kuril–Kamchatka Arc and the Kamchatka Megathrust Earthquake of July 29, 2025. Review
A. D. Gvishiani, A. O. Gliko, B. A. Dzeboev, B. V. Dzeranov, E. O. Kedrov
https://doi.org/10.2205/2026es001111
2. Deformation Anomalies of 2025 Kamchatka Earthquake
G. I. Dolgikh and S. G. Dolgikh
https://doi.org/10.2205/2026es001112
3. Assessing Pre-Seismic Deformation in Southern Kamchatka: A Joint SBAS-InSAR and GNSS Analysis Prior to the July 29, 2025 Earthquake
V. G. Bondur, T. N. Chimitdorzhiev, A. V. Dmitriev, I. I. Kirbizhekova, and N. N. Titkov
https://doi.org/10.2205/2026es001113
4. Built-Up Strain and the Predictability of the 29(30) July 2025 Kamchatka Earthquake
I. S. Vladimirova, I. A. Vorobieva, K. V. Krushelnitskii, G. M. Steblov, and P. N. Shebalin
https://doi.org/10.2205/2026es001114
5. Coseismic Effect of the 2025 Kamchatka Earthquakes
I. M. Aleshin, A. A. Soloviev, A. G. Goev, and D. V. Kudin
https://doi.org/10.2205/2026es001115
6. The July 29, 2025 Kamchatka Earthquake, MW 8.9: Examination Based on Regional Data Through End-2025
D. V. Chebrov, E. A. Matveenko, I. R. Abubakirov, D. V. Droznin, S. Ya. Droznina, A. V. Lander, S. V. Mityushkina, V. M. Pavlov, A. A. Raevskaya, S. L. Senyukov, and N. N. Titkov
https://doi.org/10.2205/2026es001116
7. Crustal Movements and Deformations in Relation to Seismicity in Continuation of the Preparation Period of the Kamchatka Megathrust Earthquake (2020–2025)
P. A. Dokukin, V. I. Kaftan, N. N. Titkov, and D. V. Chebrov
https://doi.org/10.2205/2026es001117
8. Study of Seismic Activity Between the Mainshock and the First Aftershock of the Kamchatka Earthquake on July 29, 2025
I. O. Kitov, I. A. Sanina, I. N. Sokolova, and Yu. A. Vinogradov
https://doi.org/10.2205/2026es001118
9. Moment Magnitude Estimation of the July 29, 2025, Kamchatka Earthquake Based on Accelerometers Data
V. V. Pupatenko, D. A. Safonov, and N. V. Shestakov
https://doi.org/10.2205/2026es001119
10. Kamchatka Megaearthquake on July 29, 2025: Reflection of the Preparation Process in the Results of Multi-Instrumental Geophysical Measurements in the Avacha Bay Area
V. A. Gavrilov, E. V. Poltavtseva, Yu. Yu. Buss, Yu. V. Morozova. and I. A. Sagaryarov
https://doi.org/10.2205/2026es001120
11. On the Features of the Kamchatka Earthquake on July 29, 2025 (The View of a Seismological Engineer)
A. S. Aleshin
https://doi.org/10.2205/2026es001121
12. Source Parameters of Strong Kamchatka Earthquakes in 2025 (MW > 7.0) from Surface Wave Data
A. I. Filippova and A. S. Fomochkina
https://doi.org/10.2205/2026es001122
13. Stress-Strain State of the Lithosphere of the Kamchatka Pacific Coast Before the July 29, 2025 Earthquake
A. Yu. Polets, Yu. L. Rebetsky, and V. A. Gavrilov
https://doi.org/10.2205/2026es001123
14. Response of Geofluid Systems to the Activation of Regional Seismicity in Kamchatka in July 2025
A. V. Solomatin, A. V. Kiryukhin, A. Yu. Polyakov, M. V. Lemzikov, D. N. Burnaikin, V. P. Petrochenko, G. N. Kopylova, G. V. Ryabinin, Yu. V. Demyanchuk, and O. O. Usacheva
https://doi.org/10.2205/2026es001124
15. Centroid Moment Tensor of the Kamchatka Earthquake on July 29, 2025 Determined on GNSS Data and ISOLA Software Package
D. A. Safonov, N. V. Shestakov, V. V. Pupatenko, and A. S. Prytkov
https://doi.org/10.2205/2026es001125
16. Seismic Monitoring in Severo-Kurilsk Before and After the July 29 (30), 2025 Earthquake Based on Data from an Engineering Seismometric Station
N. V. Kostyleva, and D. V. Kostylev
https://doi.org/10.2205/2026es001126
Section 2. Geomagnetic and Space Weather Studies
17. Anomalous Changes in Ionospheric Parameters During the Preparation and Occurrence of the M8.8 Earthquake and a Series of Earthquakes With M ≥ 6 That Occurred Near the Kamchatka Peninsula From June to September 2025 According to the Data of Satellite Navigation Systems
V. G. Bondur, M. N. Tsidilina, O. S. Voronova, M. V. Gaponova, and G. A. Timoshina
https://doi.org/10.2205/2026es001127
18. Coseismic Multiple Cusp Signatures in VIPIR Ionograms from SKiKP-Excited Infrasound following the 2025 MW 8.8 Kamchatka Earthquake
J. Mabie, A. Skorkina, A. Molockova, T. Bullett, and S. Hollahan
https://doi.org/10.2205/2026es001128
19. Analysis of Ionospheric Parameter Dynamics during a Strong Earthquake in Kamchatka on July 29, 2025, Based on a Complex Approach (According to the Data of Ionosphere Vertical Radio Sounding and GNSS)
A. V. Pavlov, O. V. Mandrikova, and N. N. Titkov
https://doi.org/10.2205/2026es001129
20. Gravity Waves Driven by Tsunami after the Kamchatka Earthquake on July 29, 2025
S. A. Riabova, and S. L. Shalimov
https://doi.org/10.2205/2026es001130
21. Ionospheric Response to the Seismic Wave Induced by the Kamchatka Earthquake on July 29, 2025
A. V. Oinats, M. V. Cedrik, I. Yu. Dyukov, A. V. Podlesny, A. Yu. Belinskaya, A. A. Borovko, A. G. Sorokin, V. A. Dobrynin, and P. A. Dergach
https://doi.org/10.2205/2026es001131
22. Using Open GNSS Stations to Determine Earth Surface Displacements and Ionospheric Response Following the Kamchatka Earthquake of July 29, 2025
R. V. Zagretdinov, V. F. Bakhtiarov, V. V. Kalinnikov, D. A. Kogogin, D. S. Maksimov, I. A. Nasyrov, and A. A. Zagretdinov
https://doi.org/10.2205/2026es001132
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Редакционная коллегия
Russian Journal of Earth Sciences