Romanian Black Sea Phytoplankton data from 1991 to 2000
Citation
Pantea E (2022). Romanian Black Sea Phytoplankton data from 1991 to 2000. Flanders Marine Institute. Sampling event dataset https://doi.org/10.15468/9vtmjw accessed via GBIF.org on 2026-06-04.Description
Phytoplankton data collected in the Black Sea between 1991 and 2000 and processed by Nicolae Bodeanu, Mioara Ușurelu, Georgeta Ruță, and Laura Boicenco. Data were collected from coastal to offshore Romanian waters from various transects such as Sulina, Mila 9, Portita, and Sf. Gheorghe (northern zone) to Constanta and Mangalia (southern zone). The sampling was carried out from standard depths with Niskin bottles. From each depth was collected a sample of 500 ml. The standard sedimentation technique for samples preparation (Morozova-Vodianitkaia, 1954) was used. The scientific team identified and counted the phytoplankton species from a subsample with an inverted microscope and calculated the total abundance and biomass. This dataset was compiled from a historical collection of phytoplankton datasheets and contains abundance (cells per liter) and biomass (mg/m3) data for individual phytoplankton taxa. For each record, the sampling transects, station number, coordinates of the sampling station, sampling depth and sample collection date were recorded.
Sampling Description
Study Extent
Current dataset extends from 1991 to 2000, from January to November, without a similar annual frequency. The samples were collected from 13 transects that included 82 sampling stations in the Black Sea, covering coastal, shelf and offshore Romanian waters.Sampling
Samples were collected from standard depths with Niskin bottles. From each depth was collected a sample of 500 ml. The samples were preserved with 14 ml of buffered 4% formaldehyde solution.Quality Control
Data in the Romanian Black Sea phytoplankton dataset were collected by experienced scientists. The data entry was done by a scientific team. The introduced data were checked by another scientist and the input errors were corrected, following the phytoplankton datasheets.Method steps
- This dataset was compiled from a historical collection of phytoplankton datasheets. These data sheets were used as a protocol for phytoplankton sampling and analysis. They provided information about the metadata (sampling transect, station number, coordinates of the sampling station, sampling depth, sample collection date, name of the researcher who processed the sample, name of the expedition, etc.); the equations used to calculate the abundance of phytoplankton species; and data (identified species, cells counted in the subsample, total abundance, and total biomass).
- Samples were concentrated by sedimentation and surface water removal to increase the phytoplankton density in the sample by following the standard sedimentation technique for samples preparation (Morozova-Vodianitkaia, 1954). After the volume of the concentrated sample was measured, a subsample of 0.1 ml was taken from the concentrated sample, poured into the counting chamber, and analysed under an inverted microscope, in order to identify and count all the phytoplankton species. Phytoplankton abundance per litre was calculated by the following equation: N = V1/V2 x n x 2, where N is the number of cells per litre of water, V1 is the volume of the concentrated sample, V2 is the volume of subsample, and n is the number of cells counted in a subsample (Morozova-Vodianitkaia, 1948; Bodeanu, 1987 - 1988). The phytoplankton biomass was determined based on morphometric measurement of phytoplankton units. The biomass of phytoplankton per cubic metre of water was calculated by multiplying the abundance with the average wet weight of the species, following the average weights tables elaborated by Morozova-Vodnițkaia (1948; 1954) and Pițîk (1950), modified and updated by Bodeanu N. and Ruță G. (1995).
Taxonomic Coverages
Phytoplankton taxa were identified to genus or species, cover various taxonomic groups, from marine to freshwater species
-
Bacillariophyceaerank: class
-
Chlorophyceaerank: class
-
Chrysophyceaerank: class
-
Cryptophyceaerank: class
-
Cyanophyceaerank: class
-
Dinophyceaerank: class
-
Euglenoidearank: class
-
Prymnesiophyceaerank: class
Geographic Coverages
Romanian Black Sea Waters
Bibliographic Citations
- Bodeanu, N. (1992). Algal blooms and development of the main phytoplanktonic species at the Romanian Black Sea littoral in conditions of intensification of the eutrophication process. In Vollenveider, R. A., R. Marchetti & R. Viviani (eds), Marine Coastal Eutrophication. Elsevier Science Publishers, Amsterdam: 891–906. -
- Bodeanu, N. (1993). Microalgal blooms in the Romanian area of the Black Sea and contemporary eutrophication conditions. In Smayda T. J. & Y. Shimizu (eds), Toxic Phytoplankton Blooms in the Sea. Elsevier Science Publishers, Amsterdam: 203–209. -
- Bodeanu, N. (1995). Algal blooms in Mamaia Bay (Romanian Black Sea coast). In Lassus, P., G. Arzul, E. Erard-Le Denn, P. Gentien & C. Marcaillou-Le Baut (eds), Harmful Marine Algal Blooms. Lavoisier Ltd., Nantes: 127–137. -
- Bodeanu, N.; Moncheva, S.; Ruta, G.; Popa, L. (2000). Long term evolution of the algal blooms in Romanian and Bulgarian Black Sea waters. In Black Sea Ecosystem Processes and Forecasting/ Operational Database Management System. METU Institute of Marine Science, Erdemli-Içel, Turkey, 20 pp. -
- Bodeanu, N.; Ruta, G. (1994–1995). Phytoplankton structure and dynamics in the contingence zone between the waters of the Danube-Black Sea canal and the sea waters. Cercetari Marine 27–28: 81–99. -
- Bodeanu, N.; Ruta, G. (1998). Development of the planktonic algae in the Romanian Black Sea sector in 1981–1996. In Reguera, B., J. Blanco, M. L. Fernandez & T.Wyatt (eds), Harmful Algae. Proceedings of the VIII International Conference on Harmful Algae, Vigo, Spain 25–29 June 1997. Xunta de Galicia and I.O.C.: 188–191. -
- Bologa, A.S.; Bodeanu, N.; Petranu, A.; Tiganus, V.; Zaitsev, Y.P. (1995). Major modifications of the Black Sea benthic and planktonic biota in the last three decades. Bulletin d’Institute Oceanographique de Monaco n. sp. 15: 85–110. -
- Mihnea, P.E. (1992). Environmental conditions which determine chrysophyta Apedinella development and blooms. Rapp. Comm. Int. mer Medit., Monaco, 33, p.260 -
- Mihnea, P.E. (1993). Blooms of Chrysophyta in the Black Sea. In Smayda, T. J. & Y. Shimizu (eds), Toxic Phytoplankton Blooms in the Sea. Elsevier Science Publishers, Amsterdam, The Netherlands: 293–297. -
- Mihnea, P.E. (1997). Major shifts in the phytoplankton community (1980–1994) in the Romanian Black Sea. Oceanologica Acta 20: 119–129. -
Contacts
Elena Panteaoriginator
position: Scientific researcher
National Institute for Marine Research and Development "Grigore Antipa"
Mamaia 300
Constanta
RO 900581
RO
Telephone: 40 241 543288
email: epantea@alpha.rmri.ro
homepage: http://www.rmri.ro
userId: http://orcid.org/0000-0003-0498-5874
Elena Pantea
metadata author
position: Scientific researcher
National Institute for Marine Research and Development "Grigore Antipa"
Mamaia 300
Constanta
RO 900581
RO
Telephone: 40 241 543288
email: epantea@alpha.rmri.ro
homepage: http://www.rmri.ro
userId: http://orcid.org/0000-0003-0498-5874
Oana Vlas
custodian steward
position: Scientific researcher III
National Institute for Marine Research and Development “Grigore Antipa” (NIMRD)
Mamaia 300
Constanta
RO 900581
RO
Telephone: +40 241 543288
email: ovlas@alpha.rmri.ro
homepage: http://www.rmri.ro
Elena Pantea
administrative point of contact
position: Scientific researcher
National Institute for Marine Research and Development "Grigore Antipa"
Mamaia 300
Constanta
RO 900581
RO
Telephone: 40 241 543288
email: epantea@alpha.rmri.ro
homepage: http://www.rmri.ro
userId: http://orcid.org/0000-0003-0498-5874
Laura Boicenco
administrative point of contact
position: Scientific researcher I
National Institute for Marine Research and Development "Grigore Antipa"
Mamaia 300
Constanta
RO 900581
Telephone: 40 241 543288
email: lboicenco@alpha.rmri.ro
homepage: http://www.rmri.ro