Source: http://ao.iao.ru/en/content/vol.31-2018/iss.04/5
Timestamp: 2019-04-19 00:41:20+00:00

Document:
Polonsky A.B., Mel’nikova E.B., Serebrennikov A.N., Tokarev Yu.N. Regional peculiarities of the bioluminescent lighting and chlorophyll a concentration in the Black Sea phytoplankton. // Optika Atmosfery i Okeana. 2018. V. 31. No. 04. P. 275–281 [in Russian].
Variability of the profiles of bioluminescent lighting and chlorophyll a concentration along the coastal zone of the Crimea and its causes are analyzed using the data of two expeditions and satellite data. It is shown that the bioluminescent lighting and chlorophyll a concentration are minimal in a vicinity of the deep-sea cyclonic eddy, where the upwelling occurred and the upper mixed layer depth was as small as 20 m. Minima of bioluminescent lighting and chlorophyll a concentration were observed in the shallow area which is rich in biota.
1. Konstantinov A.S. Obshhaja gidrobiologija. M.: Vysshaja shkola, 1986. 472 p.
2. Vedernikov V.I. Pervichnaja produkcija i hlorofill v Chernom more v letne-osennij period // Struktura i produkcionnye harakteristiki planktonnyh soobshhestv Chernogo morja. M.: Nauka, 1989. P. 65–83.
3. Tokarev Ju.N. Osnovy biofizicheskoj jekologii gidrobiontov. Sevastopol': JeKOSI-Gidrofizika, 2006. 342 p.
4. Zavoruev V.V. Raspredelenie bioljuminescencii i fluorescencii planktona v svjazi s fiziko-himicheskimi svojstvami vodnoj sredy v rajone Peruanskogo apvellinga // Optika atmosf. i okeana. 2003. V. 16, N 1. P. 82–86.
5. Mel’nikova E.B. Evaluation of parameters of plankton communities biological rythms under natural environment of the Black Sea using Fourier transform // Luminescence. 2017. V. 32, N 3. P. 321–326.
6. Bitjukov Je.P., Hlystova L.M. Bioljuminescencija v neriticheskoj zone Chernogo morja i ee svjaz' s harakteristikami planktona // Biologija morja. Kiev: Nauk. dumka, 1975. iss. 34. P. 100–109.
7. Gitel'zon I.I., Chumakova R.I., Filimonov V.S., Levin L.A., Degtjarev V.I., Utjushev R.N., Shevyrnogov A.P. Bioljuminescencija v more. M.: Nauka, 1969. 184 p.
8. Zavoruev V.V., Zavorueva E.N., Krum S.P. Raspredelenie planktona v rajonah frontal'nyh zon vodnyh jekosistem. Krasnojarsk: Sib. feder. un-t, 2012. 292 p.
9. Suslin V.V., Churilova T.Ja., Sosik H.M. Regional'nyj algoritm rascheta koncentracii hlorofilla a v Chernom more po sputnikovym dannym SeaWiFS // Morsk. jekol. zh. 2008. V. 7, N 2. P. 24–42.
10. Finenko Z.Z., Churilova T.Ja., Sosik H.M. Vertikal'noe raspredelenie fotosinteticheskih harakteristik fitoplanktona v Chernom more // Okeanologija. 2004. V. 44, N 2. P. 222–237.
11. Finenko Z.Z., Suslin V.V., Churilova T.Ja. Ocenka produktivnosti fitoplanktona Chernogo morja po sputnikovym dannym // Dokl. RAN. 2010. V. 432, N 6. P. 845–848.
12. Mel’nikova E.B. Regional features of the vertical structure of bioluminescence field in Crimea coastal water in summer // Water Resour. 2016. V. 43, N 2. P. 328–334.
13. Mandel' I.D. Klasternyj analiz. M.: Finansy i statistika, 1988. 176 p.
14. Filippov D.M. Cirkuljacija i struktura vod Chernogo morja. M.: Nauka, 1968. 260 p.
15. Polonskij A.B., Dzhiganshin G.F. Struktura i mezomasshtabnaja izmenchivost' osnovnogo chernomorskogo techenija u poberezh'ja Kryma // Dokl. NAN Ukrainy. 2010. N 6. P. 107–112.
16. Oguz T. Role of physical processes controlling oxycline and suboxic layer structures in the Black Sea // Global Biogeochem. Cycles. 2002. V. 16, N 2. P. 3–13.
17. Polonsky A.В. Upwelling in the Northern Black Sea: Description, mechanisms and impact on chlorophyll a concentration // Upwelling: Mechanisms, Ecological Effects and Threats to Biodiversity / W.E. Fischer, A.B. Green (eds.). New York: Nova Science Publishers Inc., 2013. Р. 59–76.
18. Stanev E.V. Understanding Black-Sea dynamics // Oceanography. 2005. V. 18, N 2. P. 56–75.
19. Polonskij A.B., Lovenkova E.A. Dolgovremennye tendencii v izmenchivosti harakteristik piknoklina Chernogo morja // Izv. RAN. Fiz. atmosf. i okeana. 2006. V. 42, N 3. P. 419–430.
20. Oguz T. Black Sea ecosystem response to climate teleconnections // Oceanography. 2005. V. 18, N 2. Р. 118–128.
21. Stanev E.V., Peneva E. Regional sea level response to global climate change: Black Sea example // Glob. Planet. Change. 2002. V. 32. Р. 33–47.
22. Capet A., Stanev E.V., Beckers J.-M., Murray J.W., Grégoire M. Decline of the Black Sea oxygen inventory // Biogeosciences. 2016. V. 13. Р. 1287–1297.
23. Saydam С., Tugrul S., Basturk O., Oguz T. Identification of the oxic/anoxic interface by isopycnal surfaces in the Black Sea // Deep Sea Res., part 1. 1993. V. 40, N 7. P. 1405–1412.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V.