Large Luminous Plankton in Bioluminescence Peaks in the Black Sea
In the Black Sea, one peak was usually observed in the vertical profile of bioluminescence: in summer, this peak was recorded at a depth of 5–30 m at night and at a depth of 50–82 m in the daytime. Two peaks corresponding to the same horizons were detected in the morning, and in the evening at two o...
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| Published in: | Russian journal of marine biology Vol. 48; no. 4; pp. 247 - 255 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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Pleiades Publishing
01-08-2022
Springer Nature B.V |
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| Abstract | In the Black Sea, one peak was usually observed in the vertical profile of bioluminescence: in summer, this peak was recorded at a depth of 5–30 m at night and at a depth of 50–82 m in the daytime. Two peaks corresponding to the same horizons were detected in the morning, and in the evening at two of the fourteen studied stations. In the upper peak, a strong positive relationship was observed between the total intensity of bioluminescence and the abundance of the three dominant species: the correlation coefficient
R
was +0.79 for the plankton species
Noctiluca scintillans
and
Oikopleura dioica
, +0.70 for
Oithona similis
, and +0.82 for the total abundance of luminous plankton. In the upper peak, the abundance of these species showed a significant inverse dependence on temperature, while
N. scintillans
revealed a significant inverse relationship with changes in salinity (
R
= −0.72). The dinoflagellate
N. scintillans
dominated in abundance at almost all stations. No significant correlation between bioluminescence and abundance of luminous species was found in lower peaks. We suppose that other zooplankton organisms also contribute to the bioluminescence field, whose ability to glow has not yet been studied. |
|---|---|
| AbstractList | In the Black Sea, one peak was usually observed in the vertical profile of bioluminescence: in summer, this peak was recorded at a depth of 5–30 m at night and at a depth of 50–82 m in the daytime. Two peaks corresponding to the same horizons were detected in the morning, and in the evening at two of the fourteen studied stations. In the upper peak, a strong positive relationship was observed between the total intensity of bioluminescence and the abundance of the three dominant species: the correlation coefficient R was +0.79 for the plankton species Noctiluca scintillans and Oikopleura dioica, +0.70 for Oithona similis, and +0.82 for the total abundance of luminous plankton. In the upper peak, the abundance of these species showed a significant inverse dependence on temperature, while N. scintillans revealed a significant inverse relationship with changes in salinity (R = −0.72). The dinoflagellate N. scintillans dominated in abundance at almost all stations. No significant correlation between bioluminescence and abundance of luminous species was found in lower peaks. We suppose that other zooplankton organisms also contribute to the bioluminescence field, whose ability to glow has not yet been studied. In the Black Sea, one peak was usually observed in the vertical profile of bioluminescence: in summer, this peak was recorded at a depth of 5–30 m at night and at a depth of 50–82 m in the daytime. Two peaks corresponding to the same horizons were detected in the morning, and in the evening at two of the fourteen studied stations. In the upper peak, a strong positive relationship was observed between the total intensity of bioluminescence and the abundance of the three dominant species: the correlation coefficient R was +0.79 for the plankton species Noctiluca scintillans and Oikopleura dioica , +0.70 for Oithona similis , and +0.82 for the total abundance of luminous plankton. In the upper peak, the abundance of these species showed a significant inverse dependence on temperature, while N. scintillans revealed a significant inverse relationship with changes in salinity ( R = −0.72). The dinoflagellate N. scintillans dominated in abundance at almost all stations. No significant correlation between bioluminescence and abundance of luminous species was found in lower peaks. We suppose that other zooplankton organisms also contribute to the bioluminescence field, whose ability to glow has not yet been studied. |
| Author | Melnik, A. V. Silakov, M. I. Temnykh, A. V. |
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| Cites_doi | 10.1038/srep45750 10.1146/annurev-marine-120308-081028 |
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| Copyright | Pleiades Publishing, Ltd. 2022. ISSN 1063-0740, Russian Journal of Marine Biology, 2022, Vol. 48, No. 4, pp. 247–255. © Pleiades Publishing, Ltd., 2022. Russian Text © The Author(s), 2022, published in Biologiya Morya. |
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| Keywords | plankton community luminous invertebrates bioluminescence ctenophores large luminous zooplankton the Black Sea dinoflagellate |
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| References | CherepanovO.A.LevinL.A.UtyushevR.N.Relationship of bioluminescence with biomass and abundance of luminous and total plankton, 2. The Black SeaMorsk. Ecol. Zh.200768489 Serikova, I.M., Tokarev, Yu.N., Evstigneev, V.P., and Suslin, V.V., Bioluminescence field as an indicator of the aggregation of dinophyte algae in the Black Sea and its seasonal and interannual dynamics, “Optika atmosfery i okeana. Fizika atmosfery”, Materialy XXIII mezhdunarodnogo simpoziuma, Konferentsiya C., Issledovanie atmosphery i okeana opticheskimi metodami (Proc. XXIII Int. Symp. “Atmospheric and Oceanic Optics. Atmospheric Physics”, Conf. C, The Study of the Atmosphere and Ocean by Optical Methods), 2017, pp. C455−C458. https://symp.iao.ru/ru/aoo/23/proceedings Yashnov, V.A., Instruktsiya po sboru i obrabotke planktona (Instruction for Collection and Processing of Plankton), Moscow: Vses. Nauchno-Issled. Inst. Rybn. Khos. Oceanogr., 1934. Bryantseva, Yu.V., Serikova, I.M., and Suslin, V.V., Interannual variability of the dinoflagellates diversity and bioluminescence field off the coast of Sevastopol, in Ekosistemy, ikh optimizatsiya i okhrana (Optimization and Protection of Ecosystems), Simferopol: Tavricheskii Natl. Univ., 2014, no. 11, pp. 158–164. HaddockS.H.D.MolineM.A.CaseJ.F.Bioluminescence in the seaAnn. Rev. Mar. Sci.2010244349310.1146/annurev-marine-120308-081028 Tokarev, Yu.N., Evstigneev, P.V., and Mashukova, O.V., Planktonnyye biolyuminestsenty Mirovogo okeana: vidovoye raznoobraziye, kharakteristiki svetoizlucheniya v norme i pri antropogennom vozdeystvii (Bioluminescent Plankton of the World Ocean: Species Diversity, Characteristics of Light Emission in Normal Conditions and Under Anthropogenic Impact), Simferopol: Nizhnyaya Orianda, 2016. Tokarev, Yu.N., Osnovy biofizicheskoy ekologii gidrobiontov (Fundamentals of Biophysical Ecology of Hydrobionts), Sevastopol: EKOSI-Gidrofizika, 2006. MartiniS.HaddockS.H.D.Quantification of bioluminescence from the surface to the deep sea demonstrates its predominance as an ecological traitSci. Rep.20177457501:CAS:528:DC%2BC2sXlvVelurk%3D10.1038/srep45750283747895379559 Gitelzon, I.I., Levin, L.A., Utyushev, R.N., et al., Biolyuminestsentsiya okeana (Bioluminescence of the Ocean), St. Petersburg: Gidrometeoizdat, 1992. PolonskyA.B.Mel’nikovaE.B.SerebrennikovA.N.Regional peculiarities of the intensity of hydrobionts’ glow and concentration of chlorophyll a in the Black SeaOpt. Atmos. Okeana201831275281 SerikovaI.M.BryantsevaYu.V.TokarevYu.N.Peculiarities of seasonal dynamics of the bioluminescence field and the biomass of luminous dinoflagellates at Sevastopol (2008–2009)Proc. Ternopol Natl. Pedagog. Univ20103230234 Evstigneev, P.V. and Bityukov, E.P., Biolyuminestsentsiya morskikh kopepod (Bioluminescence of Marine Copepods), Kiev: Naukova Dumka, 1990. LevinL.A.UtyushevR.N.ArtemkinA.S.Distribution of the intensity of the bioluminescent field in the equatorial part of the Pacific OceanTr. Shirshov Inst. Oceanol.197510294101 Tokarev, Yu.N., Vasilenko, V.I., and Zhuk, V.F., New hydrobiophysical complex for express assessment of the state of coastal ecosystems, Materialy XI Mezhdunarod. nauchno-tekhn. Konferentsii “Sovremennyye metody i sredstva okeanologicheskikh issledovaniy” (Proc. XI Int. Sci. Tech. Conf. “Modern Methods and Technology for Oceanological Research”), Moscow: Ross. Acad. Nauk, 2009, part 3, pp. 23−27. Zavoruev, V.V., Diurnal changes in plankton bioluminescence in the Black and Aegean seas and correlation of luminescence with chlorophyll concentration, Russian Research (Electronic Resource), Moscow Inst. Phys. Technol., 2002, pp. 2204−2214. http://zhurnal.mipt.rssi.ru. Cited March 1, 2022. Tokarev, Yu.N., Bityukov, E.P., Vasilenko, V.I., et al., The bioluminescence field is a characteristic indicator of the structure of the plankton community in the Black Sea, Ecol. Morya, 2000, no. 53, pp. 20−25. EvstigneevP.V.BityukovE.P.OkolodkovZh.E.Species composition and specificity of algal bioluminescence in DynophyceaeBot. J.199378115 A.B. Polonsky (8269_CR7) 2018; 31 8269_CR9 L.A. Levin (8269_CR6) 1975; 102 S. Martini (8269_CR17) 2017; 7 8269_CR5 8269_CR3 P.V. Evstigneev (8269_CR4) 1993; 78 I.M. Serikova (8269_CR8) 2010; 3 8269_CR1 8269_CR2 8269_CR12 8269_CR13 8269_CR10 8269_CR11 O.A. Cherepanov (8269_CR14) 2007; 6 8269_CR15 S.H.D. Haddock (8269_CR16) 2010; 2 |
| References_xml | – volume: 7 start-page: 45750 year: 2017 ident: 8269_CR17 publication-title: Sci. Rep. doi: 10.1038/srep45750 contributor: fullname: S. Martini – volume: 78 start-page: 1 year: 1993 ident: 8269_CR4 publication-title: Bot. J. contributor: fullname: P.V. Evstigneev – ident: 8269_CR11 – ident: 8269_CR10 – volume: 2 start-page: 443 year: 2010 ident: 8269_CR16 publication-title: Ann. Rev. Mar. Sci. doi: 10.1146/annurev-marine-120308-081028 contributor: fullname: S.H.D. Haddock – volume: 102 start-page: 94 year: 1975 ident: 8269_CR6 publication-title: Tr. Shirshov Inst. Oceanol. contributor: fullname: L.A. Levin – ident: 8269_CR12 – ident: 8269_CR13 – volume: 31 start-page: 275 year: 2018 ident: 8269_CR7 publication-title: Opt. Atmos. Okeana contributor: fullname: A.B. Polonsky – ident: 8269_CR15 – ident: 8269_CR5 – ident: 8269_CR1 – ident: 8269_CR2 – ident: 8269_CR3 – volume: 3 start-page: 230 year: 2010 ident: 8269_CR8 publication-title: Proc. Ternopol Natl. Pedagog. Univ contributor: fullname: I.M. Serikova – ident: 8269_CR9 – volume: 6 start-page: 84 year: 2007 ident: 8269_CR14 publication-title: Morsk. Ecol. Zh. contributor: fullname: O.A. Cherepanov |
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| SubjectTerms | Abundance Bioluminescence Biomedical and Life Sciences Correlation coefficient Dominant species Freshwater & Marine Ecology Life Sciences Original Papers Plankton Vertical profiles Zooplankton |
| Title | Large Luminous Plankton in Bioluminescence Peaks in the Black Sea |
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