Статья в периодическом издании
№ 121040600178-6 «Структурно-функциональная организация, продуктивность и устойчивость морских пелагических экосистем» (предыдущий номер АААА-А18-118020790229-7)
SCOPUS: Да (Q2)
Записи 1 - 20 из 28
Bagaev A., Esiukova E., , Chubarenko I., Veerasingam S., Venkatachalapathy R., Verzhevskaya L.
Investigations of plastic contamination of seawater, marine and coastal sediments in the Russian seas: a review // Environmental Science and Pollution Research. 2021. Vol. 28, iss. 25. P. 32264-32281. https://doi.org/10.1007/s11356-021-14183-z SCOPUS 0.845/Q2 WoS 4.223/Q2
Investigations of plastic contamination of seawater, marine and coastal sediments in the Russian seas: a review // Environmental Science and Pollution Research. 2021. Vol. 28, iss. 25. P. 32264-32281. https://doi.org/10.1007/s11356-021-14183-z SCOPUS 0.845/Q2 WoS 4.223/Q2
Запись создана: 19-07-2021 17:12
, ,
Black Sea Mnemiopsis leidyi (Ctenophora) adult locomotion and light-induced behavior in laboratory experiments // Journal of Sea Research. 2022. Vol. 180. Article no. 102152 (7 p.). https://doi.org/10.1016/j.seares.2021.102152 SCOPUS 0.719/Q2 WoS 2.108/Q2
Black Sea Mnemiopsis leidyi (Ctenophora) adult locomotion and light-induced behavior in laboratory experiments // Journal of Sea Research. 2022. Vol. 180. Article no. 102152 (7 p.). https://doi.org/10.1016/j.seares.2021.102152 SCOPUS 0.719/Q2 WoS 2.108/Q2
Запись создана: 28-12-2021 10:46
Besiktepe S., Terbıyık Kurt T.,
Mesozooplankton composition and distribution in İzmir Bay, Aegean Sea: With special emphasis on copepods // Regional Studies in Marine Science. 2022. Vol. 55. Article no. 102567 (10 p.). https://doi.org/10.1016/j.rsma.2022.102567 SCOPUS 0.490/Q2 WoS 2.166/Q2
Mesozooplankton composition and distribution in İzmir Bay, Aegean Sea: With special emphasis on copepods // Regional Studies in Marine Science. 2022. Vol. 55. Article no. 102567 (10 p.). https://doi.org/10.1016/j.rsma.2022.102567 SCOPUS 0.490/Q2 WoS 2.166/Q2
Запись создана: 01-08-2022 14:30
Chen P. W.-Y., Olivia M., Chou W.-C. C., , Tsai A.-Y.
Differences in viral decay and production following exposure to sunlight and dark // Terrestrial, Atmospheric and Oceanic Sciences. 2023. Vol. 34, iss. 1. Art. no. 8 (7 p.). https://doi.org/10.1007/s44195-023-00038-2 SCOPUS 0.353/Q2 WoS 0.963/Q4
Differences in viral decay and production following exposure to sunlight and dark // Terrestrial, Atmospheric and Oceanic Sciences. 2023. Vol. 34, iss. 1. Art. no. 8 (7 p.). https://doi.org/10.1007/s44195-023-00038-2 SCOPUS 0.353/Q2 WoS 0.963/Q4
Запись создана: 21-06-2023 11:00
Chen P. W.-Y., Olivia M., Chou W.-C., Shiu R.-F., , Tsai A.-Y.
Differences in Bacterial Growth and Mortality between Seagrass Meadows and Adjacent Unvegetated Areas // Journal of Marine Science and Engineering. 2023. Vol. 11, iss. 10. Art. no. 1979 (10 p.). https://doi.org/10.3390/jmse11101979 SCOPUS 0.541/Q2 WoS 2.900/Q1
Differences in Bacterial Growth and Mortality between Seagrass Meadows and Adjacent Unvegetated Areas // Journal of Marine Science and Engineering. 2023. Vol. 11, iss. 10. Art. no. 1979 (10 p.). https://doi.org/10.3390/jmse11101979 SCOPUS 0.541/Q2 WoS 2.900/Q1
Запись создана: 08-11-2023 15:49
Chen P.W.-Y., Olivia M., , Tsai A.-Y.
Comparison of Viral Production and Decay Rates at the Surface and Bottom of the Euphotic Zone in the Summertime in the Southern East China Sea // Journal of Marine Science and Engineering. 2023. Vol. 11, iss. 2. Art. no. 364 (13 p.). https://doi.org/10.3390/jmse11020364 SCOPUS 0.542/Q2 WoS 2.744/Q1
Comparison of Viral Production and Decay Rates at the Surface and Bottom of the Euphotic Zone in the Summertime in the Southern East China Sea // Journal of Marine Science and Engineering. 2023. Vol. 11, iss. 2. Art. no. 364 (13 p.). https://doi.org/10.3390/jmse11020364 SCOPUS 0.542/Q2 WoS 2.744/Q1
Запись создана: 15-02-2023 12:14
, Suslin V., Sosik H. M., , , Moncheva S., , ,
Phytoplankton light absorption in the deep chlorophyll maximum layer of the Black Sea // European Journal of Remote Sensing. 2019. Vol. 52, suppl. 1. P. 123-136. https://doi.org/10.1080/22797254.2018.1533389 SCOPUS 0.577/Q2 WoS 1.122/Q4
Phytoplankton light absorption in the deep chlorophyll maximum layer of the Black Sea // European Journal of Remote Sensing. 2019. Vol. 52, suppl. 1. P. 123-136. https://doi.org/10.1080/22797254.2018.1533389 SCOPUS 0.577/Q2 WoS 1.122/Q4
Запись создана: 26-03-2019 10:03
Erokhin V. E., Minyuk G. S., Gordienko A. P.,
Dynamics of luminescence characteristics of Haematococcus lacustris cultures in different cultivation conditions // Luminescence. 2022. Vol. 37, iss. 3. P. 455-462. https://doi.org/10.1002/bio.4194 SCOPUS 0.428/Q2 WoS 2.464/Q3
Dynamics of luminescence characteristics of Haematococcus lacustris cultures in different cultivation conditions // Luminescence. 2022. Vol. 37, iss. 3. P. 455-462. https://doi.org/10.1002/bio.4194 SCOPUS 0.428/Q2 WoS 2.464/Q3
Запись создана: 01-02-2022 10:19
, , , Altukhov D. A.,
Oithona davisae: Naturalization in the Black Sea, Interannual and Seasonal Dynamics, and Effect on the Structure of the Planktonic Copepod Community // Oceanology. 2019. Vol. 59, iss. 6. P. 912-919. https://doi.org/10.1134/S0001437019060079 Перевод SCOPUS 0.474/Q2 WoS 0.892/Q3
Oithona davisae: Naturalization in the Black Sea, Interannual and Seasonal Dynamics, and Effect on the Structure of the Planktonic Copepod Community // Oceanology. 2019. Vol. 59, iss. 6. P. 912-919. https://doi.org/10.1134/S0001437019060079 Перевод SCOPUS 0.474/Q2 WoS 0.892/Q3
Запись создана: 28-02-2020 11:11
, Goubanova K., , Stefanova K., , Belokopytov V., , Stefanova E.
Response of the Black Sea Zooplankton to the Marine Heat Wave 2010: Case of the Sevastopol Bay // Journal of Marine Science and Engineering. 2022. Vol. 10, iss. 12. Art. no. 1933 (19 p.). https://doi.org/10.3390/jmse10121933 SCOPUS 0.542/Q2 WoS 2.744/Q1
Response of the Black Sea Zooplankton to the Marine Heat Wave 2010: Case of the Sevastopol Bay // Journal of Marine Science and Engineering. 2022. Vol. 10, iss. 12. Art. no. 1933 (19 p.). https://doi.org/10.3390/jmse10121933 SCOPUS 0.542/Q2 WoS 2.744/Q1
Запись создана: 13-12-2022 15:23
Ho P.-C., Gong G.-C., , Tsai A.-Y.
Is the Dilution Technique Underestimating the Picophytoplankton Growth Measurements? // Journal of Marine Science and Engineering. 2021. Vol. 9, iss. 6. Article no. 628 (7 p.). https://doi.org/10.3390/jmse9060628 SCOPUS 0.464/Q2 WoS 2.033/Q2
Is the Dilution Technique Underestimating the Picophytoplankton Growth Measurements? // Journal of Marine Science and Engineering. 2021. Vol. 9, iss. 6. Article no. 628 (7 p.). https://doi.org/10.3390/jmse9060628 SCOPUS 0.464/Q2 WoS 2.033/Q2
Запись создана: 07-06-2021 10:15
, , Evstigneev V.
The Black Sea Zooplankton Mortality, Decomposition, and Sedimentation Measurements Using Vital Dye and Short-Term Sediment Traps // Journal of Marine Science and Engineering. 2022. Vol. 10, iss. 8. Article no. 1031 (20 p.). https://doi.org/10.3390/jmse10081031 SCOPUS 0.542/Q2 WoS 2.744/Q1
The Black Sea Zooplankton Mortality, Decomposition, and Sedimentation Measurements Using Vital Dye and Short-Term Sediment Traps // Journal of Marine Science and Engineering. 2022. Vol. 10, iss. 8. Article no. 1031 (20 p.). https://doi.org/10.3390/jmse10081031 SCOPUS 0.542/Q2 WoS 2.744/Q1
Запись создана: 01-08-2022 10:05
, Bedoshvili Ye. D.
Tiny diatoms Minidiscus vodyanitskiyi sp. nov. (Bacillariophyta) from the Sea of Azov and consideration of polygonal areolae pattern // Phytotaxa. 2018. Vol. 375, no. 2. P. 171-181. https://doi.org/10.11646/phytotaxa.375.2.4 SCOPUS 0.604/Q2 WoS 1.185/Q3
Tiny diatoms Minidiscus vodyanitskiyi sp. nov. (Bacillariophyta) from the Sea of Azov and consideration of polygonal areolae pattern // Phytotaxa. 2018. Vol. 375, no. 2. P. 171-181. https://doi.org/10.11646/phytotaxa.375.2.4 SCOPUS 0.604/Q2 WoS 1.185/Q3
Запись создана: 12-11-2018 16:35
, ,
Variability of the ctenophore Mnemiopsis leidyi A.Agassiz (Ctenophora: Lobata) bioluminescence while regeneration // Ecologica Montenegrina. 2020. Vol. 37. P. 19-26. https://doi.org/10.37828/em.2020.37.3 SCOPUS 0.369/Q2
Variability of the ctenophore Mnemiopsis leidyi A.Agassiz (Ctenophora: Lobata) bioluminescence while regeneration // Ecologica Montenegrina. 2020. Vol. 37. P. 19-26. https://doi.org/10.37828/em.2020.37.3 SCOPUS 0.369/Q2
Запись создана: 17-11-2020 13:07
, , ,
Research into bioluminescence of the Black Sea ctenophores Pleurobrachia pileus O.F. Müller, 1776 // Luminescence. 2023. Vol. 38, iss. 8. P. 1477-1484. https://doi.org/10.1002/bio.4529 SCOPUS 0.426/Q2 WoS 2.613/Q3
Research into bioluminescence of the Black Sea ctenophores Pleurobrachia pileus O.F. Müller, 1776 // Luminescence. 2023. Vol. 38, iss. 8. P. 1477-1484. https://doi.org/10.1002/bio.4529 SCOPUS 0.426/Q2 WoS 2.613/Q3
Запись создана: 13-06-2023 10:33
, , ,
Field studies of bioluminescence in Bransfield Strait in 2022 // Luminescence. 2022. Vol. 37, iss. 11. P. 1906-1913. https://doi.org/10.1002/bio.4372 SCOPUS 0.391/Q2 WoS 2.613/Q3
Field studies of bioluminescence in Bransfield Strait in 2022 // Luminescence. 2022. Vol. 37, iss. 11. P. 1906-1913. https://doi.org/10.1002/bio.4372 SCOPUS 0.391/Q2 WoS 2.613/Q3
Запись создана: 09-09-2022 10:40
, , , ,
Bioluminescence of ctenophores near the boundary of oxygen‐depleted waters at the redoxcline of the Black Sea // Luminescence. 2021. Vol. 36, iss. 4. P. 1063-1071. https://doi.org/10.1002/bio.4037 SCOPUS 0.388/Q2 WoS 1.855/Q3
Bioluminescence of ctenophores near the boundary of oxygen‐depleted waters at the redoxcline of the Black Sea // Luminescence. 2021. Vol. 36, iss. 4. P. 1063-1071. https://doi.org/10.1002/bio.4037 SCOPUS 0.388/Q2 WoS 1.855/Q3
Запись создана: 03-05-2021 12:32
, Pollehne F., ,
Distribution of Sprattus sprattus phalericus (Risso, 1827) and zooplankton near the Black Sea redoxcline // Journal of Fish Biology. 2021. Vol. 99, iss. 4. P. 1393-1402. https://doi.org/10.1111/jfb.14848 SCOPUS 0.672/Q2 WoS 2.051/Q2
Distribution of Sprattus sprattus phalericus (Risso, 1827) and zooplankton near the Black Sea redoxcline // Journal of Fish Biology. 2021. Vol. 99, iss. 4. P. 1393-1402. https://doi.org/10.1111/jfb.14848 SCOPUS 0.672/Q2 WoS 2.051/Q2
Запись создана: 11-10-2021 10:00
Piontkovski S. A., , , Evstigneev V. P., Dobretsov S.
Bioluminescence of the tropical Indian Ocean: a multiple-scale variation // Luminescence. 2022. Vol. 37, iss. 9. P. 1436-1445. https://doi.org/10.1002/bio.4315 SCOPUS 0.391/Q2 WoS 2.464/Q3
Bioluminescence of the tropical Indian Ocean: a multiple-scale variation // Luminescence. 2022. Vol. 37, iss. 9. P. 1436-1445. https://doi.org/10.1002/bio.4315 SCOPUS 0.391/Q2 WoS 2.464/Q3
Запись создана: 30-06-2022 13:50
Piontkovski S. A., , , ,
Bioluminescent eddies of the World Ocean // Luminescence. 2023. Vol. 38, iss. 4. P. 505-512. https://doi.org/10.1002/bio.4475 SCOPUS 0.391/Q2 WoS 2.613/Q3
Bioluminescent eddies of the World Ocean // Luminescence. 2023. Vol. 38, iss. 4. P. 505-512. https://doi.org/10.1002/bio.4475 SCOPUS 0.391/Q2 WoS 2.613/Q3
Запись создана: 11-04-2023 12:34