Abstract
Microalgal assemblages from the bottom ice, the ice-water interface and the water column were systematically sampled from April to June 1986, in southeastern Hudson Bay (Canadian Arctic). The taxonomic similarity between samples from the three environments was assessed using a clustering procedure. There were two groups that comprised samples from both the ice-water interface and the water column, while five other groups were made of samples originating from a single environment. Taxonomic compositions of the two mixed groups suggest two types of connexion between the ice-water interface and the water column, i.e. before the phytoplankton bloom, there was seeding of the water column by ice algae and, during ice melt, interfacial algae contributed to the water column communities that were otherwise typically phytoplankton. Overall, the phytoplankton community underwent a succession from pennate to centric diatoms. Sinking rates of algae from the ice-water interface were estimated using settling columns (SETCOL). The sinking rates increased seasonally (0.4–2.7 m d−1), which enhanced accessibility of ice-algal cells to the pelagic grazers. Ice algae contributed to water column production as they became accessible to the pelagic grazers, and also by seeding the water column before the phytoplankton bloom.
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Ackley SF (1982) Ice scavenging and nucleation: two mechanisms for incorporation of algae into newly forming sea ice. EOS Trans Am Geophys Union 64:54
Ackley SF, Buck KR, Taguchi S (1979) Standing crop of algae in the sea-ice of the Weddell sea region. Deep Sea Res 26:269–282
Alexander V (1980) Interrelationships between the seasonal sea ice and biological regimes. Cold Regions Sci Tech Rep 2:157–178
Anderson L, Sweeney B (1977) Diel changes in the sedimentation characteristics of Ditylum brightwelli, a marine centric diatom: changes in cellular lipids and effects of respiratory inhibitors and ion-transport modifiers. Limnol Oceanogr 22:539–552
Anderson L, Sweeney B (1978) Role of inorganic ions in controlling sedimentation rate of a marine centric diatom Ditylum brightwelli. J Phycol 14:204–214
Apollonio S (1961) The chlorophyll content of Arctic sea-ice. Arctic 14:197–200
Apollonio S (1965) Chlorophyll in Arctic sea-ice. Arctic 18:118–122
Atkinson EG, Wacasey JW (1987) Sedimentation in Arctic Canada: Particulate organic carbon flux to a shallow marine benthic community in Frobisher Bay. Polar Biol 8:3–7
Barlow R, Gosselin M, Legendre L, Therriault J-C, Demers S, Mantoura RFC, Llewellyn CA (1988) Photoadaptive strategies in sea-ice microalgae. Mar Ecol Prog Ser 45:145–152
Bienfang PK (1981a) SETCOLA technologically simple and reliable method for measuring phytoplankton sinking rates. Can J Fish Aquat Sci 38:1289–1294
Bienfang PK (1981b) Sinking rate dynamics of Crisophaera carterae Braarud. I. Effects of growth rate, limiting substrate and diurnal variation in steady-state populations. J Exp Mar Biol Ecol 49:217–233
Bienfang PK, Harrison PJ (1984) Sinking-rate response of natural assemblages of temperate and subtropical phytoplankton to nutrient depletion. Mar Biol 83:293–300
Bunt JS, Lee CC (1970) Seasonal primary production in Antarctic sea ice at McMurdo Sound in 1967. J Mar Res 28:304–320
Burkholder DR, Mandelli EF (1965) Productivity of microalgae in Antarctic sea-ice. Science 149: 872–874
Bursa AS (1961) The annual oceanographic cycle at Igloolik in the Canadian Arctic. II. The phytoplankton. J Fish Res Bd Can 18:563–615
Carey AG Jr. (1985) Marine ice fauna: Arctic. In: Horner RA (ed) Sea ice biota. CRC Press, Boca Raton, pp 174–190
Conover RJ, Herman AW, Prinsenberg SJ, Harris LR (1986) Distribution of and feeding by the copepod Pseudocalanus under fast ice during the Arctic spring. Science 232:1245–1247
Cota GF, Prinsenberg SJ, Bennet EB, Loder JW, Lewis MR, Anning JL, Watson LHF, Harris LR (1987) Nutrient fluxes during extended blooms of Arctic ice algae. J Geophys Res 92:1951–1962
Cross WE (1982) Under ice biota at the Pond Inlet ice edge and in adjacent fast ice areas during spring. Arctic 35:13–27
Demers S, Legendre L, Therriault J-C, Ingram RG (1986) Biological production at the ice-water interface. In: Nihoul JCJ (ed) Marine interfaces ecohydrodynamics. Elsevier, Amsterdam pp 31–54
Eppley RW, Holmes RW, Strickland JDH (1967) Sinking rates of marine phytoplankton measured with a flurometer. J Exp Mar Biol Ecol 1:191–208
Garrison DL, Buck KR (1985) Sea-ice algal communities in the Weddell Sea: species composition in ice and plankton assemblages. In: Christiansen ME, Grey JS (eds) Marine biology of polar regions and effects of stress on marine organisms. John Wiley, New York, pp 103–122
Garrison DL, Buck KR (1989) The biota of Antarctic pack ice in the Weddell Sea and Antarctic Peninsula regions. Polar Biol 10:211–219
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
Garrison DL, Close AR, Reimnitz E (1989) Algae concentrated by frazil ice: evidence from laboratory experiments and field measurements. Antarct Sci 1:313–316
Gosselin M, Legendre L, Demers S, Ingram RG (1985) Responses of sea-ice microalgae to climatic and fortnightly tidal energy inputs (Manitounuk Sound, Hudson Bay). Can J Fish Aquat Sci 42:999–1006
Gosselin M, Legendre L, Therriault J-C, Demers, S (1990) Light and nutrient limitation of sea-ice microalgae (Hudson Bay, Canadian Arctic). J Phycol 26:220–236
Grainger EH (1977) The annual nutrient cycle in sea-ice. In: Dunbar MJ (ed) Polar Oceans. Proc SCOR/SCAR Polar oceans conference, Montreal, May 1974, Arctic Institute of North America Calgary, pp 285–299
Grossi SM, Kottmeier ST, Moe RL, Taylor GT, Sullivan CW (1987) Sea ice microbial communities. VI. Growth and primary production in bottom ice under graded snow cover. Mar Ecol Prog Ser 35:153–164
Hegseth EN (1992) Sub-ice algal assemblages of the Barents Sea: Species composition, chemical composition, and growth rates. Polar Biol 12:485–496
Horner R (1985) Ecology of sea ice microalgae in: Horner R (ed) Sea-ice biota. CRC Press, Boca Raton, pp 83–103
Horner R, Schrader GC (1982) Relative contributions of ice algae, phytoplankton and benthic algae to primary production in nearshore regions of the Beaufort Sea. Arctic 35:485–503
Horner R, Ackley SF, Dieckmann GS, Gulliksen B, Hoshiai T, Legendre L, Melnikov IA, Reeburgh WS, Spindler M, Sullivan CW (1992) Ecology of sea ice biota 1. Habitat, terminology, and methodology. Polar Biol 12:417–427
Hoshiai T (1977) Seasonal change of ice communities in the sea-ice near Syowa Station Antarctica. In: Dunbar MJ (ed) Polar Oceans. Proc SCOR/SCAR Polar oceans conference, Montreal, May 1974, Arctic Institute of North America Calgary, pp 307–317
Hoshiai T, Tanimura A, Watanabe K (1987) Ice algae as food of Antarctic ice-associated copepod, Paralabidocera antarctica (I.C. Thompson). Proc NIPR Symp Polar Biol 1:105–111
Hsiao SIC (1988) Spatial and seasonal variations in primary production of sea-ice microalgae and phytoplankton in Frobisher Bay, Arctic Canada. Mar Ecol Prog Ser 44:275–285
Jeffrey S, Humphrey GF (1975) New spectrophotometric equations for determining chlorophylls a, b, c 1, c2 in higher plants, algae and natural phytoplankton. Biochem Physiol Pflanz 167:191–194
Johnsen G, Hegseth EN (1991) Photoadaptation of sea-ice microalgae in the Barents Sea. Polar Biol 11:179–184
Kuosa H, Norrman B, Kivi K, Brandini F (1992) Effects of Antarctic sea ice biota on seeding as studied in aquarium experiments. Polar Biol 12:333–339
Lance GN, Williams WT (1966) A generalized sorting strategy for computer classifications. Nature 212:218
Lance GN, Williams WT (1967) A general theory of classificatory sorting stategies. I. Hierarchical systems. Computer J 9:373–380
Legendre L, Legendre P (1983) Numerical ecology. Elsevier Amsterdam xvi + 419 pp
Legendre L, Ingram RG, Poulin M (1981) Physical control of phytoplankton production under sea-ice (Manitounuuk Sound, Hudson Bay). Can J Fish Aquat Sci 30:1385–1392
Legendre L, Aota M, Shirasawa K, Martineau M-J, Ishikawa M (1991) Crystallographic structure of sea ice along a salinity gradient and environmental control of microalgae in the brine cells. J Mar Sys 2:347–357
Lund JWG, Kipling C, Le Cren Ed (1958) The inverted microscope method of estimating algal numbers and the statistical basis of estimating by counting. Hydrobiologia 11:143–170
McConville MJ, Wetherbee R (1983) The bottom ice microalgal community from annual ice in the inshore waters of East Antarctica. J Phycol 19:431–439
Meguro H (1962) Plankton ice in the Antarctic ocean. Antarctic Record 14:72–79
Meguro H, Ito K, Fukushima H (1967) Ice flora (bottom type): a mechanism of primary production in polar seas and the growth of diatoms in sea-ice. Arctic 20:114–133
Michel C, Legendre L, Demers S, Therriault J.-C. (1988) Photoadaptation of sea-ice microalgae in the springtime: photosynthesis and carboxylating enzymes. Mar Ecol Prog Ser 50:177–185
Michel C, Legendre L, Therriault J.-C., Demers S (1989) Photosynthetic responses of Arctic sea-ice microalgae to short-term temperature acclimation. Polar Biol 9:437–442
Palmisano AC, Sullivan CW (1982) Physiology of sea-ice diatoms. 1. Response of three polar diatoms to a simulated summer-winter transition. J Phycol 18:489–498
Palmisano AC, Sullivan CW (1983) Sea ice microbial communities (SIMCO) 1. Distribution, abundance and primary production of ice microalgae in McMurdo Sound in 1980. Polar Biol 2:171–177
Runge JA, Ingram RG (1988) Underice grazing by planktonic, calanoid copepods in relation to a bloom of ice microalgae in southeastern Hudson Bay. Limnol Oceanogr 33:280–286
Runge JA, Ingram RG (1991) Under-ice feeding and diel migration by the planktonic copepods Calanus glacialis and Pseudocalanus minutus in relation to the ice algal production in southeastern Hudson Bay. Mar Biol 108:217–226
Runge JA, Therriault J-C, Ingram RG, Demers S (1991) Coupling between ice microalgal productivity and the pelagic food web in southeastern Hudson Bay: a synthesis of results. In: Sakshaug E, Hopkins CCE, Oritsland NA (eds) Proceedings of the PRO MARE Symposium on Polar Marine Ecology, Trondheim, 12–16 May 1990, Polar Research 10:325–338
Saito K, Taniguchi A (1978) Phytoplankton communities in the Bering Sea and adjacent seas. Spring and summer communities in seasonally ice-covered seas. Astarte 11:27–35
Sasaki H, Hoshiai T (1986) Sedimentation of microalgae under the Antarctic fast ice in summer. Mem Natl Inst Polar Res Spec Issue 40:45–55
Schandelmeir L, Alexander V (1981) An analysis of the influence of ice on spring phytoplankton population structure in the south-eastern Bering Sea. Limnol Oceanogr 26: 935–943
Smayda TJ (1970) The sinking and floating of phytoplankton in the sea. Oceanogr Mar Biol Ann Rev 8:353–414
Smayda, TJ (1971) Normal and accelerated sinking of phytoplankton in the sea. Marine Geol 11:105–122
Smith WO, Nelson DM (1985) Phytoplankton bloom produced by a receeding ice edge in the Ross Sea: spatial coherence with the density field. Science 227:163–166
Smith WO, Nelson DM (1986) Importance of ice-edge phytoplankton production in the Southern Ocean. BioScience 36:564–572
Sokal RR, Rohlf FJ (1981) Biometry — The principles and practice of statistics in biological research. 2nd ed WH Freeman and Co, San Francisco 859 pp
Spindler M, Dieckmann GS (1986) Distribution and abundance of the planktonic foraminifer Neogloboquadrina pachyderma in sea ice of the Weddell Sea (Antarctica). Polar Biol 5:185–191
Steele JH, Yentsch CS (1960) The vertical distribution of chorophyll. J Mar biol Ass U.K. 39:217–226
Stretch JJ, Hamner PP, Michel WC, Cook J, Sullivan CW (1988) Foraging behavior of antarctic krill Euphausia superba on sea-ice microalgae. Mar Ecol Prog Ser 44:131–139
Syvertsen EE (1991) Ice algal assemblages in the Barents Sea. In: Sakshaug E, Hopkins CCE, Oritsland NA (eds) Proceedings of the PRO MARE Symposium on Polar Marine Ecology, Trondheim, 12–16 May 1990, Polar Res 10:277–287
Tourangeau S, Runge JA (1991) Reproduction of Calanus glacialis in relation to an ice microalgal bloom in southeastern Hudson Bay. Mar Biol 63:159–164
Tremblay C, Runge JA, Legendre L (1989) Grazing and sedimentation of ice algae during and immediately after a bloom at the ice-water interface. Mar Ecol Prog Ser 56:291–300
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Contribution to the programs of GIROQ (Groupe interuniversitaire de recherches océanographiques du Québec) and of the Maurice Lamontagne Institute (Department of Fisheries and Oceans)
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Michel, C., Legendre, L., Therriault, JC. et al. Springtime coupling between ice algal and phytoplankton assemblages in southeastern Hudson Bay, Canadian Arctic. Polar Biol 13, 441–449 (1993). https://doi.org/10.1007/BF00233135
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DOI: https://doi.org/10.1007/BF00233135