SEASONAL VARIABILITY OF HYDROBIONTS LUMINESCENCE INTENSITY IN THE SOUTH-WESTERN SHELF OF CRIMEA
- Authors: Melnikova EB1
-
Affiliations:
- Institut prirodno-tehnicheskih sistem FGBUN
- Issue: Vol 25, No 1 (2017)
- Pages: 36-49
- Section: Articles
- URL: https://journals.rcsi.science/2313-2310/article/view/342096
- DOI: https://doi.org/10.22363/2313-2310-2017-25-1-36-49
- ID: 342096
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Abstract
Differences in the processes of seasonal changes in bioluminescence intensity in relatively open waters of the sea on the south-western shelf of the Crimea and in the waters of the Sevastopol Bay (the Black Sea) are shown. The influence of hydrological seasons temperature conditions on the pattern of light intensity changes of hydrobionts within a year. The correlation coefficients of interannual changes in bioluminescence intensity during the different seasonal temperature for deep water area of the sea and shallow waret bay of Sevastopol calculated. The important role of the thermohaline structure of waters in the seasonal variability of the bioluminescence intensity found.
About the authors
E B Melnikova
Institut prirodno-tehnicheskih sistem FGBUN
Author for correspondence.
Email: helena_melnikova@mail.ru
Senior Researcher, Institute of Natural and Technical Systems FGBUN
ul. Lenina, 28, Sevastopol, Kryim, Russia, 299011References
- Bityukov E.P. Biolyuminestsentsiya Noctiluca miliaris v raznyih temperaturnyih usloviyah. Russian Journal of Marine Biology. 1971. T 24: 70–77.
- Bityukov E.P., Ryibasov V.P., Shayda V.G. Godovyie izmeneniya intensivnosti biolyuminestsentnogo polya v neriticheskoy zone Chyornogo moray. Oceanology. 1967. 7 (6): 1089–1099.
- Bryantseva Yu.V., Krahmalnyiy A.F., Velikova V.N., Sergeeva A.V. Dinoflagellates in the coastal zone of Sevastopol (Black sea, Crimea). Algologiya. 2016. 26. (1): 74–89.
- Gevorgiz N.S., Kondratev S.I., Lyashenko S.V., Ovsyanyiy E.I., Romanov A.S. The results of monitoring of hydrochemical structure of the Sevastopol bay in the warm season. Ecological safety of coastal and shelf zones and complex use of shelf resources. Sevastopol: ECOSHydrophysics. 2002. 1 (6): 139—156.
- Gitelzon I.I., Chumakova R.I., Filimonov V.S., Levin L.A., Degtyaryov V.I., Utyushev R.N., Shevyirnogov A.P. Bioluminescence in the sea. M.: Nauka, 1969.
- Dolotov V.V., Kondratev S.I., Lyashenko S.V. Intra (seasonal) changes in the total content of nutrients and oxygen to various parts of the Sevastopol bay. Ecological safety of coastal and shelf zones and complex use of shelf resources. Sevastopol: ECOSHydrophysics. 2005. 12: 167—176.
- Evstigneev P.V., Evstigneev V.P. Spontaneous bioluminescence Noctiluca scintillans sur. (Dinophyta). Algology. 2005. 15 (3): 271—279.
- Melnikova E.B. Spatial variability of the vertical structure of the bioluminescence field intensity in the coastal waters of Crimea in spring. Biology of Inland Waters magazine. 2016. 2: 30—36. Doi: 10.7868 / S0321059616020085
- Repetin L.N., Gordina A.D., Pavlova E.V., Romanov A.S., Ovsyanyiy E.I. Influence of oceanographic factors on a semiclosed ecosystem anthropogenically loaded Sevastopol bay. Marine Hydrophysical Journal . 2003. 2: 66—80.
- Senicheva M.I. Annual changes in phytoplankton community in the area of the Sevastopol oceanarium sea. Ecology. 2000. 53: 15—19.
- Tokarev Yu. Fundamentals of biophysical ecology of aquatic organisms. Sevastopol: ECOSHydrophysics, 2006.
- Tokarev Yu., Vasilenko V.I., Zhuk V.F. New gidrobiofizichesky complex for express assessment of coastal ecosystems. Modern methods and means of oceanographic research: Proceedings XI International scientifictechnical conference «ISOD 2009»: 3 hours MA, November 2009. 3: 23—27.
- Cherepanov O.A., Levin L.A., Utyushev R.N. Contact bioluminescence with biomass and number of luminous and total plankton. 2. Black Sea. Marine Ecological Journal. 2007. 6 (3): 84—89.
- Haddock S.H.D., Moline M.A., Case J.F. Bioluminescence in the Sea. Annual Review Marine Science. 2010. 2: 443—493.
- Herren C.M, Haddock S.H.D, Johnson C., Orrico C.M., Moline M.A., Case J.F. A multiplatform bathyphotometer for finescale, coastal bioluminescence research. Limnol Oceanogr Methods. 2005. 3: 247—262.
- Mel’nikova E.B., Lyamina N.V. Factors affecting change in bioluminescence field intensity at night. Inland Water Biology. 2014. 7(4): 307—312. doi: 10.1134/S1995082914040105
- Mel’nikova Ye.B., Liamina N.V. Vertical Distribution of Biolumunescence Field Intensity in Water of the Black Sea in Autumn. Hydrobiological Journal. 2015. 51(4): 3—11.
- Mel’nikova Ye.B., Tokarev Yu.N., Burmistrova N.V. Regularities of Changes of the Bioluminescence Field in the Black Sea Coastal Waters. Hydrobiological Journal. 2013. 49(3): 105—111.
- Tokarev Yu.N., Mel’nikova Ye.B. On the issue of Effect of Hydrophysical Parameters on Intensity of Bioluminescence Field in the Black Sea. Hydrobiological Journal. 2012. 48(4): 93—99.
- Ward W.W., Seliger H.H. Properties of mnemiopsin and berovin, calciumactivated photoproteins fromthe ctenophores Mnemiopsis sp. and Beroeovata. Biochemistry. 1974. 13: 1500—1509.
- Widder E.A. Bioluminescence in the ocean: Origins of biological, chemical and ecological diversity. Science. 2010. 328: 704—708.
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