Chaetoceros resting spores as indicators of Holocene paleoenvironmental changes in the Gulf of Gdańsk, southern Baltic Sea

[1] Abelmann A., 1985, Palökologische und ökostratigraphische Untersuchungen von Diatomeenassoziationen an holozänen Sedimenten der zentralen Ostsee. Berichte -Reports. Geologisch-Paläontologisches Institut der Universität Kiel, 9, pp. 200 Search in Google Scholar

[2] Andrén E., 1999, Changes in the composition of the diatom flora during the last century indicate increased eutrophication of the Oder estuary, southwestern Baltic Sea, Estuarine, Coastal and Shelf Science, 48(6), 665–676 http://dx.doi.org/10.1006/ecss.1999.048010.1006/ecss.1999.0480 Search in Google Scholar

[3] Andrén E., Andrén T., Kunzerdorf H., 2000a, Holocene history of the Baltic Sea a background for assessing records of human impact in the sediments of the Gotland Basin, The Holocene, 10(6), 687–702 http://dx.doi.org/10.1191/0959683009494410.1191/09596830094944 Search in Google Scholar

[4] Andrén E., Andrén T., Sohlenius G., 2000b, The Holocene history of the southwestern Baltic Sea as reflected in a sediment core from the Bornholm Basin, Boreas, 28, 233–250 http://dx.doi.org/10.1080/03009480042425910.1111/j.1502-3885.2000.tb00981.x Search in Google Scholar

[5] Andrén E., Shimmield G., Brand T., 1999, Environmental changes of the last three centuries indicated by siliceous microfossil records from the southwestern Baltic Sea, The Holocene, 9(1), 25–38 http://dx.doi.org/10.1191/09596839967652397710.1191/095968399676523977 Search in Google Scholar

[6] Battarbee R.W., 1986, Diatom analysis, [in:] Handbook of Holocene paleoecology and paleohydrology, Berglund B.E. (ed.), London, John Wiley & Sons Ltd., 527–570 Search in Google Scholar

[7] Burke I.T., Grigorov I., Kemp A.E.S., 2002, Microfabric study of diatomaceous and lithogenic deposition in laminated sediments from the Gotland Deep, Baltic Sea, Marine Geology, 183, 89–105 http://dx.doi.org/10.1016/S0025-3227(01)00250-X10.1016/S0025-3227(01)00250-X Search in Google Scholar

[8] Cyberska B., 1992, Thermohaline conditions. An assessment of the effects of pollution in the Polish coastal area of the Baltic 1984–1989. Studia i Materiały Oceanolologiczne, 61(2), 73–92. Search in Google Scholar

[9] Davydova N.N., Dzsinoridze R.N., Kvasov D.D., Masicka G., Spiridonova E.A., 1970, New data on stratigraphy of bottom sediments of the southern Baltic, Baltica, 4, 33–43, (in Russian) Search in Google Scholar

[10] Hargraves P.E., 1979, Studies on marine plankton diatoms IV. Morphology of Chaetoceros Resting Spores, Nova Hedwigia, 64, 99–120 Search in Google Scholar

[11] Hargraves P.E., French F.W., 1975, Observation on the survival of diatom resting spores, Nova Hedwigia, 53, 229–238 Search in Google Scholar

[12] Hasle G.R., Syvertsen E.E., 1996, Marine diatoms, [in:] Tomas C.R. (ed.), Identifying marine diatoms and dinoflagellates, San Diego, Academic Press, pp. 385 10.1016/B978-012693015-3/50005-X Search in Google Scholar

[13] Hällfors G., 2004, Checklist of the Baltic Sea Phytoplankton species, Baltic Sea Environment Proceedings No. 95, pp. 210 Search in Google Scholar

[14] Hustedt F., 1927–1966, Die Kieselalgen Deutschlands, Österreichs und der Schweiz 1–3, [in:] Dr. L. Rabenhorsts (ed.), Kryptogamenflora von Deutschland, Österreich und der Schweiz 7, Leipzig, Akademische Verlerlagsbuchhandlung, (in German) Search in Google Scholar

[15] Itakura S., Nagasaki K., Yamaguchi M., 1999, Abundance and spatial distribution of viable resting stage cells of planktonic diatoms in bottom sediments of the Seto Inland Sea, Japan. [in:] Mayama S., Idei M., Koizumi I. (eds), Proceedings of the 14 thDiatom Symposium 1996, Koenigstein, Koeltz Scientific Books, 213–226

[16] Koç Karpuz N., Jansen E., 1992, A high-resolution diatom record of the last deglaciation from the SE Norwegian Sea: documentation of rapid climatic changes, Paleoceanography, 7(4), 499–520 http://dx.doi.org/10.1029/92PA0165110.1029/92PA01651 Search in Google Scholar

[17] Kramarska R., Uścinowicz S., Zachowicz J., 1995, Quaternary, [in:] Dadlez R., Mojski J. E., Słowańska B., Uścinowicz S., Zachowicz J., (eds), Geological atlas of the Southern Baltic, 1:500 000, 22–30. Sopot — Warszawa, Polish Geological Institute Search in Google Scholar

[18] Krammer K., Lange-Bertalot H., 1991, Bacillariophyceae 3, Centrales, Fragilariaceae, Eunotiaceae [in:] Ettl H., Gerloff J., Heynig H., Mollenhauer D. (eds.), Süsswasserflora von Mitteleuropa 2, t. 3, Fisher, Stuttgart, 576 pp Search in Google Scholar

[19] Krzymińska J., Miotk-Szpiganowicz G., Witak M., 2005, Biostratigraphical studies of Quaternary sediments of the Puck Bay, Geologia i Geomorfologia Pobrzeża i Południowego Bałtyku, 6, 21–38 Search in Google Scholar

[20] Kuwata A., Takahashi M., 1990, Life form population responses of marine planktonic diatom, Chaetoceros pseudocurvisetus, to oligotrophication in regionally upwelled water, Marine Biology, 107, 503–512 http://dx.doi.org/10.1007/BF0131343510.1007/BF01313435 Search in Google Scholar

[21] Leśniewska M. Witak M., 2008, Holocene diatom biostratigraphy of the SW Gulf of Gdańsk, southern Baltic Sea (part III). Oceanological and Hydrobiological Studies, 37(4), 35–52 http://dx.doi.org/10.2478/v10009-008-0017-x10.2478/v10009-008-0017-x Search in Google Scholar

[22] Łysiak-Pastuszak E., Drgas N., Piątkowska Z., 2004, Eutrophication in the Polish coastal zone: the past, present status and future scenarios, Marine Pollution Bulletin, 49, 186–195 http://dx.doi.org/10.1016/j.marpolbul.2004.02.00710.1016/j.marpolbul.2004.02.00715245983 Search in Google Scholar

[23] Makowski J., 1995, The centenary anniversary of the Vistula River cutting 1895–1995, Wydawnictwo IBW PAN, Gdańsk. pp. 100, (in Polish) Search in Google Scholar

[24] Mazur H., Lewandowska J., Błaszczyka A., Kot A., Pliński M., 2003, Cyanobacterial toxins in fresh and brackish waters of pomorskie province (northern Poland), Oceanological and Hydrological Studies, 32, 15–26 Search in Google Scholar

[25] Mazur H., Pliński M., 2001, Stability of cyanotoxins, microcystin-LR, microcystin-RR and nodularin in seawater and BG-11 medium of different salinity, Oceanologia, 43(3), 329–339 Search in Google Scholar

[26] McQuoid M.R., Godhe A., Nordberg K., 2002, Viability of phytoplankton resting stages in the sediments of a coastal Swedish fjord, European Journal of Phycology, 37, 191–201 http://dx.doi.org/10.1017/S096702620200367010.1017/S0967026202003670 Search in Google Scholar

[27] Mojski J.E., 2000, The evolution of the southern Baltic coastal zone, Oceanologia, 42(3), 285–303 Search in Google Scholar

[28] Niemkiewicz E., Wrzołek L., 1998, Phytoplankton as eutrophication indicators in the Gulf of Gdańsk water, Oceanological Studies, 27(4), 77–92 Search in Google Scholar

[29] Paabo K., 1985, Diatolomological studies of two cores from western Baltic, Striae, 23, 83–90 10.2143/ANES.23.0.2012538 Search in Google Scholar

[30] Pankow H., 1990, Ostsee — Algenflora, Fischer, Jena, 648 pp Search in Google Scholar

[31] Pieczka F.B., Zaborowska K., 1989, Lithology and stratigraphy of stratygrafia core 6/HI/67from the Gdańsk Basin, Studia i Materiały Oceanologiczne 56, 323–330, (in Polish) Search in Google Scholar

[32] Pliński M., 1990, Important ecological features of the Polish coastal zone of the Baltic Sea, Limnologica, 20, 39–45 Search in Google Scholar

[33] Pliński M., 1991, Ecological condition of the Baltic, [in:] Błażejewski J., Schuller D., (eds), The pollution and renewal of the Gulf of Gdańsk, 17–21 (in Polish) Search in Google Scholar

[34] Pliński M., Witkowski A., 2009, Diatoms — Bacillariophyta. Part one: centric diatoms, [in:] Pliński M., (ed.), Flora of the Gulf of Gdańsk and adjacent waters (southern Baltic), 4/1, Gdańsk, Wydawnictwo Uniwersytetu Gdańskiego, pp. 223, (in Polish with the English key for identification to the genus) Search in Google Scholar

[35] Risberg J., 1990, Siliceous microfossil stratigraphy in a superficial sediment core from the northwestern part of the Baltic Sea, Ambio, 19: 167–172 Search in Google Scholar

[36] Risberg J., 1991, Paleoenvironment and sea level changes during the early Holocene on the Södertörn peninsula, Södermanland, eastern Sweden, Stockholm University, Department of Quaternary Research. Report, 20, 1–27 Search in Google Scholar

[37] Rotnicki K., Borówka R.K., Pazdur A., Hałas S., Krzymińska J., Witkowski A., 1999, Chronology of Holocene Baltic transgressions in Łeba Spit region, [in:] Pazdur A., Bluszcz A., Stankowski W., Starkel L., (eds.), Geochronologia górnego czwartorzędu Polski w świetle datowania radiowęglowego i luminescencyjnego, Wrocław, Wind J. Wojewoda, 229–242, (in Polish) Search in Google Scholar

[38] Sancetta C., 1982, Distribution of diatom species in surface sediments of the Bering and Okhotsk seas, Micropaleontology 28,3, 221–257 http://dx.doi.org/10.2307/148518110.2307/1485181 Search in Google Scholar

[39] Schrader, H., Gersonde, R., 1978, Diatoms and silicoflagellates in the eight meters sections of the lower Pleistocene at Capo Rossello, Utrecht Micropaleontological Bullietin, 17, 129–176 Search in Google Scholar

[40] Schulz P., 1926, Die Kieselalgen der Danziger Bucht mit Einschluss derjenigen aus glazialen und postglazialen Sedimenten., Bot. Arch., 13, 149–327 Search in Google Scholar

[41] Snoeijs P., 1993, Intercalibration and distribution of diatom species in the Baltic Sea, Volume 1, The Baltic Marine Biologists Publication, 16 a, Uppsala, Opulus Press, pp. 129 Search in Google Scholar

[42] Snoeijs P., Balashova N., 1998, Intercalibration and distribution of diatom species in the Baltic Sea, Volume 5, The Baltic Marine Biologist Publication, 16e, Uppsala, Opulus Press, pp. 144 Search in Google Scholar

[43] Snoeijs P., Kasperovičienė J., 1996, Intercalibration and distribution of diatom species in the Baltic Sea, Volume 4, The Baltic Marine Biologists Publication, 16 d, Uppsala, Opulus Press, pp. 126 Search in Google Scholar

[44] Snoeijs P., Vilblaste S., 1994, Intercalibration and distribution of diatom species in the Baltic Sea, Volume 2, The Baltic Marine Biologists Publication, 16 b, Uppsala, Opulus Press, pp. 126 Search in Google Scholar

[45] Sohlenius G., Sternbeck J., Andrèn E., Westman P., 1996, Holocene history of the Baltic Sea as recorded in a sediment core from the Gotland Deep, Marine Geology, 134, 183–201 http://dx.doi.org/10.1016/0025-3227(96)00047-310.1016/0025-3227(96)00047-3 Search in Google Scholar

[46] Stachura-Suchoples K., 1998, The last 200 years as revealed by diatom analysis — preliminary results, Proceedings of the 15th International Diatom Symposium, 209–226 Search in Google Scholar

[47] Stachura-Suchoples K., 1999, Okrzemki jako wskażniki oddziaływania Wisły na paleoekologię Zatoki Gdańskiej, PhD Thesis. University of Gdańsk. 1–172 Search in Google Scholar

[48] Stachura-Suchoples K., 2006, Diatoms as indicators of the influence of the Vistula River inflow on the Gulf of Gdańsk during the Holocene, [in:] Ognjanova-Rumenova N., Manoylov K., (eds.), Advances in phycological studies, Festschrift in Honour of Prof. Dobrina Temniskova-Topalov. 283–291, Sofia-Moscow, PENSOFT Publishers & University Publishing House Search in Google Scholar

[49] Stachura K., Witkowski A., 1997, Response of the Gulf of Gdańsk diatom flora to the sewage run-off from the Vistula river, Fragm. Flor. Geobot. 42(2), 517–545 Search in Google Scholar

[50] Stachura-Suchoples K., Zgrundo A., Witkowski A., 1998, Occurrence and significance of Chaetoceros (Bacillariophycae) resting spores in the Holocene sediments of the Baltic Sea, Oceanological Studies, 2, 87–92 Search in Google Scholar

[51] Suto I., 2006, The explosive diversification of the diatom genus Chaetoceros across the Eocene/Oligocene and Oligocene/Miocene boundaries in the Norwegian Sea, Marine Micropaleontology, 58(4), 259–269 http://dx.doi.org/10.1016/j.marmicro.2005.11.00410.1016/j.marmicro.2005.11.004 Search in Google Scholar

[52] Tobolski K., 1989, Holocene transgressions of the Baltic based on the palaeoecological research of the Gardno-Łeba Lowland, Studia i Materiały Oceanologiczne, 56, 257–266, (in Polish) Search in Google Scholar

[53] Uścinowicz S., 2003, Relative sea level changes, glacio-isostatic rebound and shoreline displacement in the southern Baltic, Warszawa, Polish Geological Institute, Special Papers, 10, pp. 79 Search in Google Scholar

[54] Westman P., Sohlenius G., 1999, Diatom stratigraphy of five offshore sediment cores from the northwestern Baltic proper implying large scale circulation changes during the last 8500 years, Journal of Paleolimnology 22, 53–69 http://dx.doi.org/10.1023/A:100801151110110.1023/A:1008011511101 Search in Google Scholar

[55] Wiktor J.M., Okolodkov J.B., Vinogradova K.L., 1995, Atlas of marine flora of the southern Spitsbergen, [in:] Klekowski R.Z., Węsławski J.M. (ed.), Gdańsk, Polish Academy of Science, Institute of Ecology, Institute of Oceanology, (in Polish) Search in Google Scholar

[56] Witak M., 2000, A diatom record of Late Holocene environmental changes in the Gulf of Gdańsk, Oceanological Studies, 29(2), 57–74 Search in Google Scholar

[57] Witak M. 2002. Postglacial history of the development of the Puck Lagoon (the Gulf of Gdańsk, Southern Baltic Sea) based on the diatom flora, Diatom Monographs vol. 2, Ruggell, A.R.G. Gantner Verlag K.G., pp.173 Search in Google Scholar

[58] Witak M. 2010. Application of diatom biofacies in reconstructing the evolution of sedimentary basins. Records from the southern Baltic Sea differentiated by the extent of the Holocene marine transgressions and human impact, Diatom Monographs vol. 12, Ruggell, A.R.G. Gantner Verlag K.G., pp. 295 Search in Google Scholar

[59] Witak M., Dunder J., 2007, Holocene diatom biostratygraphy of the SW Gulf of Gdańsk, Southern Baltic Sea (part II), Oceanological and Hydrobiological Studies, 36(3), 3–20 http://dx.doi.org/10.2478/v10009-007-0021-610.2478/v10009-007-0021-6 Search in Google Scholar

[60] Witak M., Jankowska D., 2005, The Vistula Lagoon evolution based on diatom records, BALTICA, 18,2, 68–76 Search in Google Scholar

[61] Witak M., Jankowska D., Piekarek-Jankowska H., 2006, Holocene diatom biostratygraphy of the SW Gulf of Gdańsk, Southern Baltic Sea (part I), Oceanological and Hydrobiological Studies, 35(4), 307–329 Search in Google Scholar

[62] Witkowski A., 1994, Recent and fossil diatom flora of the Gulf of Gdańsk, Southern Baltic Sea, Bibl. Diatomologica, 28, Berlin, Stuttgart, Cramer, pp. 313 Search in Google Scholar

[63] Zaborowska K., Zachowicz J., 1982, Problems of the sediments biostratigraphy of the Gulf of Gdańsk, Peribalticum 2, 195–201, (in Russian) Search in Google Scholar

[64] Witkowski A., Brosziński A., Bennike O., Janczak-Kostecka B., Jensen B.J., Lemke W., Endler R. & Kuijpers A., 2005, Darss Sill as a biological border in the fossil record of the Baltic Sea: evidence from diatoms, Quaternary International, 130, 97–109 http://dx.doi.org/10.1016/j.quaint.2004.04.03510.1016/j.quaint.2004.04.035 Search in Google Scholar

[65] Witkowski A., Miller U., 1999, Diatom flora of the Mastogloia Sea — an indicator of environmental changes in the Baltic Sea, Quaternaria, A7, 87–100 Search in Google Scholar