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New record of a dinoflagellate species, Lessardia elongata in the Black Sea

Published online by Cambridge University Press:  20 May 2009

Elif Eker-Develi  and
Violeta Velikova
Elif Eker-Develi*
Affiliation:
Joint Research Centre of the European Commission, Institute for Environment and Sustainability, Global Environment Monitoring Unit, TP 272, 21027, Ispra (VA), Italy
Violeta Velikova
Affiliation:
Black Sea Commission, Dolmabahce Sarayi, 2 Hareket Kosku, 34353 Besiktas, Istanbul, Turkey
*
Correspondence should be addressed to: E. Eker-Develi, Mersin University, Education Faculty, 33169, Yenisehir, Mersin, Turkey email: [email protected]
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Abstract

Lessardia elongata Saldarriaga & Taylor is identified for the first time in the north-western Black Sea in the present study. This species has probably been recorded with different names in the Black Sea due to lack of detailed investigations with scanning electron microscopy (SEM) or fluorescence microscopy. Our identification is based on observations with an electron microscope in September 2004 and with an epifluorescence and light microscope in June 2006. Cells were 5–10 µm wide, 22–30 µm long in formaldehyde fixed samples, fusiform, transparent, and had a faint broad girdle. Epitheca was slightly larger than the hypotheca and recently ingested prey could often be seen in the antapical half of the cell within very conspicuous vacuoles. Thin and faint thecal plates were hardly visible under epifluorescence microscope after staining the cells with fluorescence brightener 28 in the fixed samples. Cell abundances up to 18,400 cells l–1 and 87,000 cells l–1 were observed in September 2004 and June 2006, respectively.

Keywords

new dinoflagellateLessardia elongataPeridinialesPodolampaceaeBlack Sea
Type
Research Article
Information
Marine Biodiversity Records , Volume 2 , January 2009 , e104
Copyright
Copyright © Marine Biological Association of the United Kingdom 2009

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Footnotes

2

Present address: Mersin University, Education Faculty, 33169, Yenisehir, Mersin, Turkey

References

REFERENCES

Bodeanu, N. (1987/1988) Structure and dynamics of unicellular algal flora in the Romanian littoral of the Black Sea. Cercetari Marine 20–21, 19250.Google Scholar
Daugbjerg, N., Hansen, G., Larsen, J. and Moestrup, Ø. (2000) Phylogeny of some of the major genera of dinoflagellates based on ultrastructure and partial LSU rDNA sequence data, including the erection of three new genera of unarmoured dinoflagellates. Phycologia 39, 302317.CrossRefGoogle Scholar
De Salas, M.F., Bolch, C.J.S., Botes, L., Nash, G., Wright, S.W. and Hallegraeff, G.M. (2003) Takayama gen. nov. (Gymnodiniales, Dinophyceae), a new genus of unarmored dinoflagellates with sigmoid apical grooves, including the description of two new species. Journal of Phycology 39, 12331246.CrossRefGoogle Scholar
Eker, E., Georgieva, L., Senichkina, L. and Kideys, A.E. (1999) Phytoplankton distribution in the western and eastern Black Sea in spring and autumn 1995. ICES Journal of Marine Science, 56 Supplement, 1522.CrossRefGoogle Scholar
Eker-Develi, E. and Kideys, A.E. (2003) Distribution of phytoplankton in the southern Black Sea in summer 1996, spring and autumn 1998. Journal of Marine Systems 39, 203211.CrossRefGoogle Scholar
Fensome, R.A., Taylor, F.J.R., Norris, G., Sarjeant, W.A.S., Wharton, D.I. and Williams, G.L. (1993) A classification of living and fossil dinoflagellates. Micropaleontology Special Publication 7. Hanover, PA, USA: Sheridan Press.Google Scholar
Flø Jørgensen, M., Murray, S. and Daugbjerg, N. (2004) A new genus of athecate interstitial dinoflagellates, Togula gen. nov., previously encompassed within Amphidinium sensu lato—inferred from light and electron microscopy and phylogenetic analyzes of partial LSU rDNA sequences. Phycological Research 52, 284299.CrossRefGoogle Scholar
Gomez, F. and Boicenco, L. (2004) An annotated checklist of dinoflagellates in the Black Sea. Hydrobiologia 517, 4359.CrossRefGoogle Scholar
Hansen, P.J. (1991) Quantitative importance and trophic role of heterotrophic dinoflagellates in a coastal pelagial food web. Marine Ecology Progress Series 73, 253261.CrossRefGoogle Scholar
Hansen, G. and Larsen, J. (1992) Dinoflagellater i danske farvande. In Thomsen, H.A. (ed.) Plankton i de indre danske farvande. Copenhagen: Havforskning fra Miljøstyrelsen, pp. 45155.Google Scholar
Hansen, G. (1995) Analysis of the thecal plate pattern in the dinoflagellate Heterocapsa rotundata (Lohmann) comb. nov. (Katodinium rotundatum (Lohmann) Loeblich). Phycologia 34, 166–70.CrossRefGoogle Scholar
Ivanov, A.I. (1965) Characteristics of qualitative analysis of the Black Sea phytoplankton. Investigation of Plankton in the Black Sea and Azov Sea. Kiev: Naukova dumka [In Russian.]Google Scholar
Moncheva, S., Gotsis-Skretas, O., Pagou, K. and Krastev, A. (2001) Phytoplankton blooms in Black Sea and Mediterranean coastal ecosystems subjected to anthropogenic eutrophication: similarities and differences. Estuarine, Coastal and Shelf Science 53, 281295.CrossRefGoogle Scholar
Saldarriaga, J.F., Leander, B.S., ‘Max’ Taylor, F.J.R. and Keeling, P.J. (2003) Lessardia elongata gen. et sp. nov. (Dinoflagellata, Peridiniales, Podolampaceae) and the taxonomic position of the genus Roscoffia. Journal of Phycology 39, 368378.CrossRefGoogle Scholar
Shao, P., Chen, Y.Q., Zhou, H., Yuan, J., Qu, L.H., Zhao, D. and Lin, Y.S. (2004) Genetic variability in Gymnodiniaceae ITS regions: implications for species identification and phylogenetic analysis. Marine Biology 144, 215224.CrossRefGoogle Scholar
Shapiro, L.P., Haugen, E.M. and Carpenter, E.J. (1989) Occurrence and abundance of green-fluorescing dinoflagellates in surface waters of the Northwest Atlantic and Northeast Pacific oceans. Journal of Phycology 25, 189191.CrossRefGoogle Scholar
Sherr, B.F. and Sherr, E.B. (2002) Microzooplankton distribution in relation to phytoplankton community succession in the upwelling ecosystems off Oregon and northern California. EOS 83(4), Ocean Sciences Meeting. Supplement, Abstract no. OS31D-56.Google Scholar
Throndsen, J., Hasle, G.R. and Tangen, K. (2007) Phytoplankton of Norwegian coastal waters. Oslo: Almater Forlag AS.Google Scholar
Tillmann, U. and Hesse, K.J. (1998) On the quantitative importance of heterotrophic microplankton in the northern German Wadden Sea. Estuaries 21, 585596.CrossRefGoogle Scholar
Uysal, Z. (2001) On the formation of net phytoplankton patches in the southern Black Sea during the spring. Hydrobiologia 485, 173182.CrossRefGoogle Scholar
Velikova, V., Moncheva, S. and Petrova, D. (1999) Phytoplankton dynamics and red tides (1987–1997) in the Bulgarian Black Sea. Water Science and Technology 39, 2736.CrossRefGoogle Scholar