Статья в периодическом издании
Период внесения данных в базу: с 19-12-2018 по 01-12-2019
Web of Science: Да (Q4)
Записи 1 - 20 из 39How can saline and hypersaline lakes contribute to aquaculture development? A review // Journal of Oceanology and Limnology. 2018. Vol. 36, iss. 6. P. 2002-2009. https://doi.org/10.1007/s00343-018-7306-3 SCOPUS 0.301/Q3 WoS 0.717/Q4
Запись создана: 21-12-2018 11:37
Distribution and Population Dynamics of the Highly Halotolerant Species Eucypris mareotica (Fischer, 1855) (Crustacea, Ostracoda) in Hypersaline Lakes of Crimea // Inland Water Biology. 2019. Vol. 12, iss. 2. P. 170-177. https://doi.org/10.1134/S1995082919020032 Перевод SCOPUS 0.333/Q3 WoS 0.360/Q4
Запись создана: 20-06-2019 09:33
Babenko V. N., Bogomolov A. G., Babenko R. O., Galieva E. R.,
CpG Islands' Clustering Uncovers Early Development Genes in the Human Genome // Computer Science and Information Systems. 2018. Vol. 15, no. 2. P. 473-485. https://doi.org/10.2298/CSIS170523004B SCOPUS 0.229/Q3 WoS 0.613/Q4
CpG Islands' Clustering Uncovers Early Development Genes in the Human Genome // Computer Science and Information Systems. 2018. Vol. 15, no. 2. P. 473-485. https://doi.org/10.2298/CSIS170523004B SCOPUS 0.229/Q3 WoS 0.613/Q4
Запись создана: 18-02-2019 12:47
Barinova S.,
Microphytobenthos as an indicator of water quality and organic pollution in the western coastal zone of the Sea of Azov // Oceanological and Hydrobiological Studies. 2019. Vol. 48, iss. 2. P. 125-139. https://doi.org/10.2478/ohs-2019-0013 SCOPUS 0.318/Q3 WoS 0.461/Q4
, , Microphytobenthos as an indicator of water quality and organic pollution in the western coastal zone of the Sea of Azov // Oceanological and Hydrobiological Studies. 2019. Vol. 48, iss. 2. P. 125-139. https://doi.org/10.2478/ohs-2019-0013 SCOPUS 0.318/Q3 WoS 0.461/Q4
Запись создана: 13-06-2019 17:07
Belyakov V. P.,
Effect of Salinity on Chironomid Larvae (Diptera, Chironomidae) in Hypersaline Lakes of Crimea // Biology Bulletin. 2018. Vol. 45, iss. 10. P. 1211-1218. https://doi.org/10.1134/S1062359018100059 Перевод SCOPUS 0.245/Q3 WoS 0.351/Q4
, Bazhora A. I., Effect of Salinity on Chironomid Larvae (Diptera, Chironomidae) in Hypersaline Lakes of Crimea // Biology Bulletin. 2018. Vol. 45, iss. 10. P. 1211-1218. https://doi.org/10.1134/S1062359018100059 Перевод SCOPUS 0.245/Q3 WoS 0.351/Q4
Запись создана: 21-03-2019 08:57
Production Characteristics of Dunaliella salina at Two-Phase Pilot Cultivation (Crimea) // Turkish Journal of Fisheries and Aquatic Sciences. 2020. Vol. 20, no. 5. P. 401-408. https://doi.org/10.4194/1303-2712-v20_5_08 SCOPUS 0.307/Q3 WoS 0.738/Q4
Запись создана: 11-11-2019 15:41
Chatterjee T., Nanajkar M.,
New record of Loricophyra stresemanni (Ciliophora: Suctorea) as epibiont on nematodes from the Indian Ocean and notes on the genus Loricophrya // Cahiers de Biologie Marine. 2019. Vol. 60, no. 3. P. 283-288. https://doi.org/10.21411/CBM.A.9C4BB1B2 SCOPUS 0.293/Q3 WoS 0.525/Q4
New record of Loricophyra stresemanni (Ciliophora: Suctorea) as epibiont on nematodes from the Indian Ocean and notes on the genus Loricophrya // Cahiers de Biologie Marine. 2019. Vol. 60, no. 3. P. 283-288. https://doi.org/10.21411/CBM.A.9C4BB1B2 SCOPUS 0.293/Q3 WoS 0.525/Q4
Запись создана: 10-05-2019 21:23
Chatterjee T., Nanajkar M.,
New records of epibiont Thecacineta calix (Ciliophora: Suctorea) from the Caspian Sea and Angriya Bank, Arabian Sea // Cahiers de Biologie Marine. 2019. Vol. 60, no. 5. P. 445-451. https://doi.org/10.21411/CBM.A.C75BCBEA SCOPUS 0.269/Q4 WoS 0.456/Q4
, , Bhave S.New records of epibiont Thecacineta calix (Ciliophora: Suctorea) from the Caspian Sea and Angriya Bank, Arabian Sea // Cahiers de Biologie Marine. 2019. Vol. 60, no. 5. P. 445-451. https://doi.org/10.21411/CBM.A.C75BCBEA SCOPUS 0.269/Q4 WoS 0.456/Q4
Запись создана: 30-09-2019 20:18
Identification and Morphological-Physiological Characterization of Astaxanthin Producer Strains of Haematococcus pluvialis from the Black Sea Region // Applied Biochemistry and Microbiology. 2018. Vol. 54, iss. 6. P. 639-648. https://doi.org/10.1134/S0003683818060078 Перевод SCOPUS 0.210/Q3 WoS 0.707/Q4
Запись создана: 25-03-2019 12:09
Сomparative Characteristics of Indices to Assess the Quality of Mussel Production by an Example of Cultivated Mytilus galloprovincialis (Сrimea, the Вlack Sea) // Turkish Journal of Fisheries and Aquatic Sciences. 2019. Vol. 19, no. 9. P. 719-726. https://doi.org/10.4194/1303-2712-v19_9_01 SCOPUS 0.277/Q4 WoS 0.482/Q4
Запись создана: 10-04-2019 10:33
Variation in Copper Content in the Cultivated Mussel Mytilus galloprovincialis Lam. // Inland Water Biology. 2019. Vol. 12, iss. 3. P. 365-369. https://doi.org/10.1134/S1995082919030040 Перевод SCOPUS 0.333/Q3 WoS 0.471/Q4
Запись создана: 29-08-2019 16:45
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
Trophic Characteristics of Mnemiopsis leidyi and Its Impact on the Plankton Community in Black Sea Coastal Waters // Oceanology. 2018. Vol. 58, iss. 6. P. 817-824. https://doi.org/10.1134/S0001437018060048 Перевод SCOPUS 0.371/Q3 WoS 0.597/Q4
Запись создана: 06-03-2019 11:39
Use of Satellite Data for the Estimation of the Specific Growth Rate of Phytoplankton in the Surface Layer of the Black Sea // Russian Journal of Marine Biology. 2019. Vol. 45, iss. 4. P. 313-319. https://doi.org/10.1134/S1063074019040059 Перевод SCOPUS 0.253/Q3 WoS 0.493/Q4
Запись создана: 19-09-2019 13:31
Tissue Metabolism and the State of the Antioxidant Complex in the Black Sea Mollusks Anadara kagoshimensis (Tokunaga, 1906) and Mytilus galloprovincialis Lamarck, 1819 with Different Tolerances to Oxidative Stress // Russian Journal of Marine Biology. 2019. Vol. 45, iss. 3. P. 211-220. https://doi.org/10.1134/S1063074019030039 Перевод SCOPUS 0.253/Q3 WoS 0.493/Q4
Запись создана: 25-07-2019 11:55
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
Neurophysiological Mechanisms of Respiratory Activity in Cyclostomes and Fish during Aquatic Breathing // Journal of Evolutionary Biochemistry and Physiology. 2019. Vol. 55, iss. 2. P. 85-96. https://doi.org/10.1134/S0022093019020017 Перевод WoS 0.455/Q4
Запись создана: 10-06-2019 11:05
Hydrogen Sulfide in the Physiological Processes of Jawless Cyclostomes and Jawed Fishes // Russian Journal of Marine Biology. 2019. Vol. 45, iss. 3. P. 163-173. https://doi.org/10.1134/S1063074019030076 Перевод SCOPUS 0.253/Q3 WoS 0.493/Q4
Запись создана: 24-07-2019 12:10
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
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