Abstract
The seasonal development and decline of phytoplankton was investigated in the eastern Weddell Sea during summer and fall 1991. During the first half of the study (15 Jan–13 Feb) in an area off Vestkapp, favourable irradiance/mixing regimes initiated net phytoplankton growth in ice-free waters on the shelf and in stretches of open water over the partially ice-covered deep ocean. Chi a concentrations in the upper water column were moderate (0.2–0.8 μg l−1), but significantly above winter values. Later in the season (16 Feb–11 March), a phytoplankton bloom with surface Chl a concentrations ranging from 1.6–2.3 μg l−1 was encountered in an area further to the east. We suggest that the upper water column must have been stratified in this region for time scales of weeks to faciliate bloom development. Bacterial biomass and productivity generally paralleled the seasonal development of the phytoplankton. Nitrate concentrations in the upper mixed layer were substantially lower than would be expected from the existing phytoplankton standing stock, suggesting that heterotrophic consumption of organic matter by bacteria and zooplankton removed a large fraction of the primary production. The shallow seasonal pycnocline was eventually eroded by the passage of a storm, resulting in a homogeneous distribution of phytoplankton biomass over the entire water column, followed by sedimentation and deposition of phytodetritus on the sea floor. After the storm induced destratification, bacterial productivity was particularly high, amounting to more than half of the primary production (range: 10%–120%) in the upper water column. Subsequently, phytoplankton biomass in the upper water column decreased to values <1 μg Chl a l−1. The combination of low incident irradiances and incessant deep mixing prevented the phytoplankton biomass to increase again. During the last week of the investigation, extensive new-ice formation was observed. A major fraction of the residual surface plankton was incorporated into new sea ice, thus terminating the pelagic growth season of the phytoplankton in the eastern Weddell Sea.
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References
Bathmann U (1992) Flux budget for the coastal current. In: Bathmann U, Schulz-Baldes M, Fahrbach E, Smetacek V, Hubberten H-W (eds) The Expedition ANTARKTIS IX/1-4 of the Research Vessel “POLARSTERN” in 1990/91. Rep Polar Res 100:179–180
Bathmann U, Schulz-Baldes M, Fahrbach E, Smetacek V, Hubberten H-W (eds) (1992a) The Expedition ANTARKTIS IX/1-4 of the Research Vessel “POLARSTERN” in 1990/91. Rep Polar Res 100:95–261
Bathmann U, Großmann S, Lochte K, Scharek R, Schröder M (1992b) The coastal current between the stations Georg-von-Neumayer and Georg Forster. In: Bathmann U, Schulz-Baldes M, Fahrbach E, Smetacek V, Hubberten H-W (eds) The Expedition ANTARKTIS IX/1-4 of the Research Vessel “POLARSTERN” in 1990/91. Rep Polar Res 100:175–179
Bianchi F, Boldrin A, Cioce F, Dieckmann G, Kuosa H, Larsson A-M, Nöthig E-M, Sehlstedt P-I, Socal G, Syvertsen EE (1992) Phytoplankton distribution in relation to sea ice, hydrography and nutrients in the northwestern Weddell Sea in early spring 1988 during EPOS. Polar Biol 12:225–235
Bjørnsen PK, Kuparinen J (1991) Determination of bacterioplankton biomass, net production and growth efficiency in the Southern Ocean. Mar Ecol Prog Ser 71:185–194
Bodungen B von, Nothig E-M, Sui Q (1988) New production of phytoplankton and sedimentation during summer 1985 in the south eastern Weddell Sea. Comp Biochem Physiol 90B, No. 3:475–487
Bodungen B von, Smetacek V, Tilzer MM, Zeitschel B (1986) Primary production and sedimentation during spring in the Antarctic Peninsula region. Deep-Sea Res 33, No. 2:177–194
Brightman RI, Smith WO (1989) Photosynthesis-irradiance relationships of antarctic phytoplankton during austral winter. Mar Ecol Prog Ser 53:143–151
Bröckel K von (1985) Primary production data from the south-eastern Weddell Sea. Polar Biol 4:75–80
El-Sayed S (1971) Observations on phytoplankton bloom in the Weddell Sea. In: Llano GA, Wallen IE (eds) Biology of the Antarctic Seas IV. American Geophysical Union, Antarctic Research Series, Volume 17, pp 301–312
El-Sayed S, Mandelli EF (1965) Primary production and standing crop of phytoplankton in the Weddell Sea and Drake Passage. In: Llano GA (ed) Biology of the Antarctic Seas II. American Geophysical Union, Antarctic Research Series, Volume 5, Publication No. 1297, pp 87–106
El-Sayed S, Taguchi S (1981) Primary production and standing crop of phytoplankton along the ice-edge in the Weddell Sea. DeepSea Res 28A, No. 9:1017–1032
Estrada M, Delgado M (1990) Summer phytoplankton distributions in the Weddell Sea. Polar Biol 10:441–449
Evans CA, O'Reilly JE, Thomas JP (1987) A Handbook for the Measurement of Chlorophyll a and Primary Production. Biological Investigations of Marine Antarctic Systems and Stocks (BIOMASS), Volume 8, Texas A&M University, College Station, Texas, USA
Fahrbach E, Rohardt G, Krause G (1992) The Antarctic Coastal Current in the southeastern Weddell Sea. Polar Biol 12:171–182
Garrison DL, Close AR (1993) Winter ecology of the sea ice biota in Weddell Sea pack ice. Mar Ecol Prog Ser 96:17–31
Garrison DL, Ackley SF, Buck KR (1983) A physical mechanism for establishing algal populations in frazil ice. Nature 306: 363–365
Garrison DL, Buck KR, Fryxell GA (1987) Algal assemblages in Antarctic pack ice and in ice-edge plankton. J Phycol 23:564–572
Gleitz M, Thomas DN (1993) Variation in phytoplankton standing stock, chemical composition and physiology during sea-ice formation in the southeastern Weddell Sea, Antarctica. J Exp Mar Biol Ecol 173:211–230
Hayes PK, Whitaker TM, Fogg GE (1984) The distribution and nutrient status of phytoplankton in the Southern Ocean between 20° and 70° W. Polar Biol 3:153–165
Holm-Hansen O, Mitchell GB (1991) Spatial and temporal distribution of phytoplankton and primary production in the western Bransfield Strait region. Deep-Sea Res 38, No. 8/9:961–980
Holm-Hansen O, Mitchell BG, Hewes CD, Karl DM (1989) Phytoplankton blooms in the vicinity of Palmer Station, Antarctica. Polar Biol 10:49–57
Jacobs SS, Comiso JC (1993) A recent sea-ice retreat west of the Antarctic Peninsula. Geophys Res Let 20, No. 12:1171–1174
Jennings Jr JC, Gordon LI, Nelson DM (1984) Nutrient depletion indicates high primary productivity in the Weddell Sea. Nature 309:51–54
Lukin V, Provorkin A (1992) Ice observations in the eastern Weddell and Lazarev Seas, January–March 1991. In: Bathmann U, Schulz-Baldes M, Fahrbach E, Smetacek V, Hubberten H-W (eds) The Expedition Antarktis IX/l-4 of the Research Vessel “Polarstern” in 1990/91. Rep Polar Res 100:107–124
Marra J, Boardman DC (1984) Late winter chlorophyll a distributions in the Weddell Sea. Mar Ecol Prog Ser 19:197–205
Mitchell GB, Holm-Hansen O (1991) Observations and modeling of the Antarctic phytoplankton crop in relation to mixing depth. Deep-Sea Res 38, No. 8/9:981–1007
Mitchell GB, Brody EA, Holm-Hansen O, McClain C, Bishop J (1991) Light limitation of phytoplankton biomass and macronutrient utilization in the Southern Ocean. Limnol Oceanogr 36(8): 1662–1677
Nelson DM, Smith WO (1991) Sverdrup revisited: Critical depths, maximum chlorophyll levels, and the control of Southern Ocean productivity by the irradiance-mixing regime. Limnol Oceanogr 36(8): 1650–1661
Nöthig E.-M. Bodungen B von (1989) Occurrence and vertical flux of feacal pellets of probably protozoan origin in the southeastern Weddell Sea (Antarctica). Mar Ecol Prog Ser 56:281–289
Nöthig E.-M, Bodungen B von, Sui Q (1991a) Phyto- and protozooplankton biomass during austral summer in surface waters of the Weddell Sea and vicinity. Polar Biol 11:293–304
Nöthig E-M, Bathmann U, Jennings Jr JC, Fahrbach E, Gradinger R, Gordon LI, Makarov R (1991b) Regional relationships between biological and hydrographical properties in the Weddell Gyre in late austral winter 1989. Mar Chem 35:325–336
Olson RJ (1980) Nitrate and ammonium uptake in Antarctic waters. Limnol Oceanogr 25(6): 1064–1074
Platt T, Bird DF, Sathyendranath S (1991) Critical depth and marine primary production. Proc R Soc Lond 246B:205–217
Probyn TA, Painting SJ (1985) Nitrogen uptake by size-fractionated phytoplankton populations in Antarctic surface waters. Limnol Oceanogr 30(6):1327–1332
Sakshaug E, Holm-Hansen O (1984) Factors governing pelagic production in polar oceans. In: Holm-Hansen O, Bolis L, Gilles R (eds) Marine Phytoplankton and Productivity. Lecture Notes on Coastal and Estuarine Studies, Vol. 8. Springer Berlin Heidelberg New York, pp 1–18
Scharek R, Smetacek V, Fahrbach E, Gordon LI, Rohardt G, Moore S (1994) The transition from winter to spring in the eastern Weddell Sea, Antarctica. I. Phytoplankton and suspended matter in the eastern Weddell Gyre. Deep-Sea Res (in press)
Schröder M, Wisotzki A, Witte H, Griffith S, Rau I, Boenisch G (1992) Water column studies: physical oceanography. In: Bathmann U, Schulz-Baldes M, Fahrbach E, Smetacek V, Hubberten H-W (eds) The Expedition ANTARKTISIX/1-4 of the Research Vessel “POLARSTERN” in 1990/91. Rep Polar Res 100:125–141
Smetacek V, Passow U (1990) Spring bloom initiation and Sverdrup's critical-depth model. Limnol Oceanogr 35(1):228–234
Smetacek V, Scharek R, Gordon LI, Eicken H, Fahrbach E, Rohardt G, Moore S (1992) Early spring phytoplankton blooms in ice platelet layers of the southern Weddell Sea, Antarctica. Deep-Sea Res 39, No. 2:153–168
Smith WO, Nelson DM (1985) Phytoplankton bloom produced by a receding ice edge in the Ross Sea. Spatial coherence with the density field. Science 227:163–166
Smith WO, Sakshaug E (1990) Polar phytoplankton. In: Smith WO (ed) Polar Oceanography, Part B: Chemistry, Biology and Geology, Academic Press, San Diego, pp. 477–525
Spies A, Brockmann UH, Kattner G (1988) Nutrient regimes in the marginal ice zone of the Greenland Sea in summer. Mar Ecol Prog Ser 47:195–204
Strickland JDH, Parsons TR (1972) A practical handbook of sea-water analysis, 2nd edn. Bull Fish Res B Can 167, pp 311
Sverdrup HU (1953) On conditions for the vernal blooming of phytoplankton. J Cons Perm Int Explor Mer 18:287–295
Treguer P, Jacques G (1992) Dynamics of nutrients and phytoplankton, and fluxes of carbon, nitrogen and silicon in the Antarctic Ocean. Polar Biol 12:149–162
Whitaker TM (1982) Primary production of phytoplankton off Signy Island, South Orkneys, the Antarctic. Proc R Soc Lond B214: 169–189
Zwally HJ, Comiso JC, Parkinson CL, Campbell WJ, Carsey FD, Gloersen P (1983) Antarctic sea ice, 1973–1976: satellite passive-microwave observations. National Aeronautics and Space Administration SP-459, pp 206
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Gleitz, M., Bathmann, U.V. & Lochte, K. Build-up and decline of summer phytoplankton biomass in the eastern Weddell Sea, Antarctica. Polar Biol 14, 413–422 (1994). https://doi.org/10.1007/BF00240262
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DOI: https://doi.org/10.1007/BF00240262