Статья в периодическом издании
№ 121031500515-8 «Молисмологические и биогеохимические основы гомеостаза морских экосистем» (предыдущий номер АААА-А18-118020890090-2)
Web of Science: Да
Записи 1 - 20 из 76Influx of Streaming Methane into Anoxic Waters of the Black Sea Basin // Oceanology. 2019. Vol. 59, iss. 6. P. 860-870. https://doi.org/10.1134/S0001437019060018 Перевод SCOPUS 0.474/Q2 WoS 0.892/Q3
Запись создана: 28-02-2020 20:52
Bryukhanov A. L., Vlasova M. A.,
Phylogenetic Diversity of the Sulfur Cycle Bacteria in the Bottom Sediments of the Chersonesus Bay // Microbiology. 2018. Vol. 87, no. 3. P. 372–381. https://doi.org/10.1134/S0026261718030025 Перевод SCOPUS 0.302/Q3 WoS 0.855/Q4
, Perevalova A. A., Pimenov N. V.Phylogenetic Diversity of the Sulfur Cycle Bacteria in the Bottom Sediments of the Chersonesus Bay // Microbiology. 2018. Vol. 87, no. 3. P. 372–381. https://doi.org/10.1134/S0026261718030025 Перевод SCOPUS 0.302/Q3 WoS 0.855/Q4
Запись создана: 12-08-2018 11:18
Budnikov A. A., Ivanova I. N.,
Monitoring of Methane Bubble Seepage and Hydrological Parameters in Laspi Bay (Crimea) // Moscow University Physics Bulletin. 2023. Vol. 78, no. 4. P. 571-577. https://doi.org/10.3103/S0027134923040057 Перевод SCOPUS 0.157/Q4 WoS 0.300/Q4
, Monitoring of Methane Bubble Seepage and Hydrological Parameters in Laspi Bay (Crimea) // Moscow University Physics Bulletin. 2023. Vol. 78, no. 4. P. 571-577. https://doi.org/10.3103/S0027134923040057 Перевод SCOPUS 0.157/Q4 WoS 0.300/Q4
Запись создана: 24-10-2023 13:53
Budnikov A. A.,
Application of a Passive Acoustic Method for Detection and Estimation of Shallow-Water Bubble Gas Emissions // Moscow University Physics Bulletin. 2019. Vol. 74, no. 6. P. 690-696. https://doi.org/10.3103/S0027134919060109 Перевод SCOPUS 0.256/Q3 WoS 0.580/Q4
, Ivanova I. N., Linchenko E. V.Application of a Passive Acoustic Method for Detection and Estimation of Shallow-Water Bubble Gas Emissions // Moscow University Physics Bulletin. 2019. Vol. 74, no. 6. P. 690-696. https://doi.org/10.3103/S0027134919060109 Перевод SCOPUS 0.256/Q3 WoS 0.580/Q4
Запись создана: 21-03-2020 07:57
Dovhyi I. I., Kremenchutskii D. A.,
Atmospheric depositional fluxes of cosmogenic 32P, 33P and 7Be in the Sevastopol region // Journal of Radioanalytical and Nuclear Chemistry. 2017. Vol. 314, iss. 3. P. 1643–1652. https://doi.org/10.1007/s10967-017-5577-3 SCOPUS 0.470/Q2 WoS 1.181/Q2
, Kozlovskaya O. N.Atmospheric depositional fluxes of cosmogenic 32P, 33P and 7Be in the Sevastopol region // Journal of Radioanalytical and Nuclear Chemistry. 2017. Vol. 314, iss. 3. P. 1643–1652. https://doi.org/10.1007/s10967-017-5577-3 SCOPUS 0.470/Q2 WoS 1.181/Q2
Запись создана: 10-09-2018 17:43
Cystoseira phytocenosis as a biological barrier for heavy metals and organochlorine compounds in the SPNA Cape Martyan marine area (the Black Sea) // Regional Studies in Marine Science. 2021. Vol. 41. Article no. 101572 (10 p.). https://doi.org/10.1016/j.rsma.2020.101572 SCOPUS 0.487/Q2 WoS 1.183/Q3
Запись создана: 14-12-2020 11:53
Rating Water Quality in Sevastopol Bay by the Fluxes of Pollutant Deposition in Bottom Sediments // Water Resources. 2018. Vol. 45, iss. 2. P. 222-230. https://doi.org/10.1134/S0097807818020069 Перевод SCOPUS 0.324/Q3 WoS 0.395/Q4
Запись создана: 15-08-2018 06:50
The Influence of Phytoplankton Primary Production on the Cycle of Biogenic Elements in the Coastal Waters off Sevastopol, Black Sea // Russian Journal of Marine Biology. 2018. Vol. 44, iss. 3. P. 240–247. https://doi.org/10.1134/S1063074018030057 Перевод SCOPUS 0.277/Q4 WoS 0.409/Q4
Запись создана: 16-08-2018 06:29
Gulin S. B.,
Recent multi-tracer dating of the Black Sea sediments: Recovery of the late post-Chernobyl trends of radioactive contamination // Journal of Environmental Radioactivity. 2019. Vol. 203. P. 154-162. https://doi.org/10.1016/j.jenvrad.2019.03.016 SCOPUS 0.989/Q1 WoS 2.263/Q2
, Recent multi-tracer dating of the Black Sea sediments: Recovery of the late post-Chernobyl trends of radioactive contamination // Journal of Environmental Radioactivity. 2019. Vol. 203. P. 154-162. https://doi.org/10.1016/j.jenvrad.2019.03.016 SCOPUS 0.989/Q1 WoS 2.263/Q2
Запись создана: 25-03-2019 15:45
Gulin S. B.,
The Seasonal Dynamics of Biosedimentation and Primary Production in Sevastopol Bay: Assessment of the Relationship Using 234Th and 40K // Russian Journal of Marine Biology. 2019. Vol. 45, iss. 3. P. 185-190. https://doi.org/10.1134/S1063074019030040 Перевод SCOPUS 0.253/Q3 WoS 0.493/Q4
, The Seasonal Dynamics of Biosedimentation and Primary Production in Sevastopol Bay: Assessment of the Relationship Using 234Th and 40K // Russian Journal of Marine Biology. 2019. Vol. 45, iss. 3. P. 185-190. https://doi.org/10.1134/S1063074019030040 Перевод SCOPUS 0.253/Q3 WoS 0.493/Q4
Запись создана: 24-07-2019 11:05
Kotelyanets E. A., Gurov K. I.,
Pollutants in Bottom Sediments in the Balaklava Bay (the Black Sea) // Physical Oceanography. 2019. Vol. 26, iss. 5. P. 414-424. https://doi.org/10.22449/1573-160X-2019-5-414-424 Перевод РИНЦ 0.455 SCOPUS –/– WoS –/–
, Kondratev S. I.Pollutants in Bottom Sediments in the Balaklava Bay (the Black Sea) // Physical Oceanography. 2019. Vol. 26, iss. 5. P. 414-424. https://doi.org/10.22449/1573-160X-2019-5-414-424 Перевод РИНЦ 0.455 SCOPUS –/– WoS –/–
Запись создана: 11-12-2019 14:29
Age and Growth of the Black Scorpionfish Scorpaena porcus Linnaeus, 1758 (Scorpaeniformes: Scorpaenidae) under Anthropogenic Pressure in the Black Sea // Journal of Ichthyology. 2019. V. 59, iss. 3. P. 358-365. https://doi.org/10.1134/S0032945219030093 Перевод SCOPUS 0.295/Q3 WoS –/–
Запись создана: 05-07-2019 11:18
Morphological changes and biochemical reaction of Ulva rigida in response to the toxic effect of bisphenol A under experimental conditions // Aquatic Botany. 2023. Vol. 184. Art. no. 103579 (9 p.). https://doi.org/10.1016/j.aquabot.2022.103579 SCOPUS 0.558/Q2 WoS 1.968/Q3
Запись создана: 17-10-2022 11:40
Long-Term Dynamics of the Concentrations of Organochlorine Compounds and Mercury in the Bottom Sediments of the Chernorechenskoe Reservoir // Water Resources. 2019. Vol. 46, iss. 4. P. 595-601. https://doi.org/10.1134/S0097807819040146 Перевод SCOPUS 0.335/Q3 WoS 0.638/Q4
Запись создана: 11-07-2019 20:28
Organochlorine Pollutants in Components of the Black Sea Coastal Areas Ecosystem of Crimea from 2010 to 2022 // Oceanology. 2023. Vol. 63. Suppl. 1. P. S165-S173. https://doi.org/10.1134/S0001437023070093 SCOPUS 0.451/Q2 WoS 1.000/Q4
Запись создана: 04-03-2024 15:18
Studying Diurnal Dynamics of Vertical Methane Distribution in the Black Sea Aerobic Zone Combined with Acoustic Research of the Sound-Scattering Layers // Physical Oceanography. 2023. Vol. 30, iss. 2. P. 249-265. https://doi.org/10.29039/1573-160X-2023-2-229-244 Перевод РИНЦ 1.099 SCOPUS 0.313/Q3 WoS –/–
Запись создана: 02-05-2023 13:43
Methane Fluid Discharge Measurements by the Trap Method in Laspi Bay (Black Sea) // Moscow University Physics Bulletin. 2020. Vol. 75, no. 6. P. 705-711. https://doi.org/10.3103/S0027134920060132 Перевод SCOPUS 0.248/Q3 WoS 0.538/Q4
Запись создана: 23-03-2021 14:44
Distribution of Hydrological Parameters over the Methane Seep Site in the Golubaya Bay (the Black Sea): A Connection with Submarine Freshwater Discharge // Russian Meteorology and Hydrology. 2021. Vol. 46, iss. 11. P. 792-798. https://doi.org/10.3103/S1068373921110091 Перевод SCOPUS 0.516/Q2 WoS 0.768/Q4
Запись создана: 09-02-2022 11:22
Seasonal Dynamics of Microbial Processes in Bottom Sediments of the Sevastopol Coastal Area // Oceanology. 2018. Vol. 58, iss. 6. P. 909-917. https://doi.org/10.1134/S0001437018070032 Перевод SCOPUS 0.371/Q3 WoS 0.597/Q4
Запись создана: 11-03-2019 17:47
Monitoring of Shallow-Water Methane Seeps at Cape Fiolent (Black Sea) // Oceanology. 2023. Vol. 63, no. 1. P. 119-130. https://doi.org/10.1134/S0001437023010083 Перевод SCOPUS 0.451/Q2 WoS 0.942/Q4
Запись создана: 24-05-2023 14:03