| Reviews |
| A.N. Safonova, Yu.A. Maglinets, D.I. Kaplun Artificial intelligence and remote sensing in agriculture: A review | 9-24 |
| A.A. Miatlev, M.Yu. Kolobakhin, A.V. Kashnitskii Review of works in mapping of land use types in Russia based on remote sensing data | 25-43 |
| Satellite data processing: methods and techniques |
| A.V. Polyakov, Yu.M. Timofeev, V.D. Bloshchinskiy, P.M. Nerobelov, Yu.A. Shamilova, A.V. Boroditskaya, G.M. Nerobelov Validation of total ozone measurements from Arktika-M Russian satellite | 47-58 |
| E.V. Zabolotskikh, D.E. Yakovlev, E.V. Lvova, M.D. Kudel, K.I. Yarusov Improvement of daily averaged fields of satellite microwave radiometer measurements | 59-73 |
| M.E. Gorbunov Canonical transform method for detection of superrefraction | 74-87 |
| E.S. Khnyryova Study of the stability of the -Bdot control algorithm using the example of the SXC3-219 small Earth remote sensing spacecraft based on onboard measurements of angular velocity vector components | 88-95 |
| A.A. Karsakov, E.I. Ponomarev Effectiveness of methods for extracting ground surface temperature from Landsat data for northern Siberian landscapes | 96-108 |
| E.G. Shvetsov Comparative analysis of fire radiative energy and carbon emissions in Siberia using satellite observations | 109-120 |
| D.S. Sazonov Express algorithm for determining cloud liquid water from measurements of the MTVZA-GYa No. 2-2 radiometer | 121-133 |
| Instruments and systems for satellite remote sensing |
| A.S. Taneeva, E.S. Khnyryova Improving the quality of images obtained from a small Earth observation satellite by vibration isolation of the target equipment | 137-145 |
| Remote sensing in geology and geophysics |
| E.I. Smolyaninova, V.O. Mikhailov Joint interpretation of Sentinel-1 InSAR results and Google Earth optical images in analysis of landslide slope dynamics in the coastal part of Greater Sochi in 2015–2025 | 149-160 |
| A.I. Zakharov, L.N. Zakharova, A.L. Strom Study of landslide activity in Limestone Dagestan using radar interferometry technique | 161-175 |
| Remote sensing of vegetation and soils |
| O.N. Vorobev, E.A. Kurbanov, S.A. Lezhnin, D.M. Dergunov, B. Bui, D.D. Golovkov, A.V. Yelsukova, D.A. Primechaev Retrospective analysis of forest burnt area dynamics in Mari El using historical and geospatial data | 179-194 |
| E.A. Terekhin Changes in forest cover parameters in the south of Central Russian Upland in recent decades | 195-209 |
| Kh.B. Kuular Spatial and temporal dynamics of wildfire impact in the Republic of Tyva based on Landsat data (2015–2024) | 210-222 |
| S.S. Shinkarenko, S.A. Bartalev, V.A. Egorov, S.A. Khvostikov A method for mapping the degradation degree of natural pastures based on long-term remote sensing data time series | 223-238 |
| N.D. Yakimov, T.V. Ponomareva, E.I. Ponomarev Vegetation and thermal spectral features of the heterogeneity level of Arctic landscapes | 239-251 |
| N.A. Vaseykina, I.V. Agarkova-Lyakh Spatio-temporal changes in land-use patterns across the Sevastopol territory: A long-term analysis (1987–2020) | 252-262 |
| M.V. Tsydypova Mapping coniferous forest dieback using Earth remote sensing data: A case study of Khamar-Daban ridge forests | 263-275 |
| Remote sensing of water objects, ocean and ice cover |
| G.A. Kochergin, M.A. Kupriyanov, O.I. Sokolkov, O.A. Baysalyamova, A.M. Zolotareva, M.A. Rusanov, A.V. Melnikov, Yu.M. Polishchuk Analysis of errors in determining the phenology of lake ice cover using MODIS satellite data and neural networks | 279-290 |
| A.V. Bocharov, A.G. Kostianoy, S.A. Lebedev, S.I. Bidenko Changes in the area of the Caspian Sea and the Kara-Bogaz-Gol Bay under conditions of water level decline (1993–2025) | 291-303 |
| G.V. Pryakhina, D.O. Andreeva, E.S. Zelepukina, V.A. Rasputina On the issue of quantitative assessment of groundwater outflow from periglacial lakes using remote sensing data | 304-315 |
| A.N. Romanov Calculation of radio-emitting characteristics of salt water in microwave range based on ionic composition of dissolved mineral salts | 316-327 |
| A.I. Ginzburg, A.G. Kostianoy, N.A. Sheremet Elements of mesoscale water dynamics in the eastern part of the Middle Caspian: satellite observations, in situ measurements, modeling results | 328-341 |
| O.A. Danilicheva, S.A. Ermakov Analysis of the modulation transfer function of fragmented ice based on satellite synthetic aperture radar data | 342-350 |
| Remote sensing of atmosphere and climate |
| A.V. Skorokhodov, V.A. Shishko Climatology of crystalline clouds over Tomsk based on MODIS and ERA5 data for 2000–2025 as a basis for organizing ground-based lidar observations | 353-368 |
| In brief |
| A.G. Terekhov, G.N. Sagatdinova, R.I. Mukhamediev On importance of satellite information in the task of reservoir storage monitoring | 371-377 |
| D.B. Balter, A.I. Baskakov, V.V. Egorov, A.A. Komarov, M.V. Stalnaya Potential accuracy of vertical velocity measurements by the lunar landing module radar | 378-382 |
| O.Yu. Lavrova Results of the 14th International School-Seminar “Satellite methods and systems for Earth exploration” | 383-386 |
| Congratulations |
| 80th birthday of Professor G.S. Bordonsky | 389-390 |
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| Imprint page
| 391 |