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References

  • Antoine, D., J.-M. Andre, A. Morel, Oceanic primary production, 2, Estimation at global scale from satellite (coastal zone color scanner) chlorophyll, Global Biogeochem. Cycles, 10, 5769, 1996.
  • Arrigo, K. R., C. W. Sullivan, A high resolution bio-optical model of microalgal growth: Tests using sea ice algal community time series data, Limnol. Oceanogr., 39, 609631, 1994.
  • Arrigo, K. R., C. R. McClain, J. K. Firestone, C. W. Sullivan, J. C. Comiso, A comparison of CZCS and in situ pigment concentrations in the Southern Ocean, NASA Tech. Memo., 104566, 3034, 1994.
  • Arrigo, K. R., D. L. Worthen, P. Dixon, M. P. Lizotte, Primary productivity of near surface communities within Antarctic pack ice, Antarctic Sea Ice: Biological Processes, Interactions and Variability, Antarct. Res. Ser., 73M. P. Lizotte, K. R. Arrigo, 2343, AGU, Washington, D.C., 1998.
  • Behrenfeld, M. J., P. G. Falkowski, Photosynthetic rates derived from satellite-based chlorophyll concentration, Limnol. Oceanogr., 42, 120, 1997a.
  • Behrenfeld, M. J., P. G. Falkowski, A consumer's guide to phyto-plankton primary productivity models, Limnol. Oceanogr., 42, 14791491, 1997b.
  • Bishop, J. K. B., J. McLaren, G. Zulema, W. B. Rossow, Documentation and description of solar irradiance data sets for SeaWiFS: NASA grant NAGW no. 2189, internal documentGoddard Inst. for Space Stud., New York, 1994.
  • Brightman, R. I., W. O. Smith Jr., Photosynthesis-irradiance relationships of Antarctic phytoplankton during austral winter, Mar. Ecol. Prog. Ser., 53, 143151, 1989.
  • Buma, A. G. J., H. J. W. De Baar, R. F. Nolting, A. J. Van Bennekom, Metal enrichment experiments in the Weddell-Scotia seas: Effects of iron and manganese on various plankton communities, Limnol. Oceanogr., 36, 18651878, 1991.
  • Bunt, J. S., Microalgae of the Antarctic pack ice zone, Symposium on Antarctic OceanographyR. I. Curie, 198218Scott Polar Res. Inst., Cambridge, England, 1968.
  • Bunt, J. S., Microbial productivity in polar regions, Microbes and Biological ProductivityD. E. Hughes, A. H. Rose, Symp. Soc. Gen. Microbiol., 21st, 332354, 1971.
  • Comiso, J. C., C. R. McClain, C. W. Sullivan, J. P. Ryan, C. L. Leonard, Coastal zone color scanner pigment concentrations in the Southern Ocean and relationships to geophysical surface features, J. Geophys. Res., 98, 24192451, 1993.
  • Cota, G. F., W. O. Smith, N. M. Nelson, Nutrient and biogenic particulate distributions, primary productivity and nitrogen uptake in the Weddell-Scotia Sea marginal ice zone during winter, J. Mar. Res., 50, 155181, 1992.
  • da Silva, A., C. C. Young, S. Levitus, Atlas of Surface Marine Data 1994, 1, Algorithms and Procedures, NOAA Atlas NESDIS, 6, 83, Natl. Oceanogr. Data Cent., Silver Spring, Md., 1994.
  • Dobson, F. W., S. D. Smith, Bulk models of solar radiation at sea, Q. J. R. Meteorol. Soc., 114, 165182, 1988.
  • El-Sayed, S. Z., Prospects of primary productivity studies in Antarctic watersSCAR Symposium on Antarctic OceanographySci. Comm. on Antarct. Res.Santiago, ChileSeptember 13–16, 1966.
  • El-Sayed, S. Z., On the productivity of the southwest Atlantic Ocean and the waters west of the Antarctic Peninsula, Biology of the Antarctic Seas III, Antarct. Res. Ser., IIG. A. Llano, W. L. Schmitt, 1547, AGU, Washington, D.C., 1967.
  • El-Sayed, S. Z., Primary productivity and estimates of potential yields of the Southern Ocean, Polar ResearchM. A. McWhinnie, 141160, Westview, Boulder, Colo., 1978.
  • El-Sayed, S. Z., Seasonal and interannual variabilities in Antarctic phytoplankton with reference to krill distribution, Antarctic Ocean and Resources VariabilityD. Sahrhage, 101119, Springer-Verlag, New York, 1988.
  • El-Sayed, S. Z., E. F. Mandelli, Primary production and standing crop of phytoplankton in the Weddell Sea and Drake Passage, Biology of the Antarctic Seas, II, Antarct. Res. Ser., 5G. A. Llano, 87106, AGU, Washington, D.C., 1965.
  • Eppley, R. W., Temperature and phytoplankton growth in the sea, Fish. Bull., 70, 10631084, 1972.
  • Gloersen, P., W. J. Campbell, D. J. Cavalieri, J. C. Comiso, C. L. Parkinson, H. J. Zwally, Arctic and Antarctic Sea Ice, 1978–1987, 290, Natl. Aeronaut. and Space Admin., Washington, D.C., 1992.
  • Gregg, W. W., K. L. Carder, A simple spectral solar irradiance model for cloudless maritime atmospheres, Limnol. Oceanogr., 35, 16571675, 1990.
  • Holm-Hansen, O., B. G. Mitchell, Spatial and temporal distribution of phytoplankton and primary production in the western Bransfield Strait region, Deep Sea Res., Part A, 38, 961980, 1991.
  • Holm-Hansen, O., S. EI-Sayed, G. A. Franchesini, R. L. Cuhel, Primary production and factors controlling phytoplankton growth in the Southern OceanThird SCAR Symposium on Antarctic BiologySci. Comm. on Antarct. Res.Washington, D.C.Aug. 26–30, 1974.
  • Jennings, J. C., L. I. Gordon, D. M. Nelson, Nutrient depletion indicates high primary productivity in the Weddell Sea, Nature, 309, 5154, 1984.
  • Legendre, L., S. F. Ackley, G. S. Dieckmann, B. Gullicksen, R. Horner, T. Hoshiai, I. A. Melnikov, W. S. Reeburgh, M. Spindler, C. W. Sullivan, Ecology of sea ice, 2, Global significance, Polar Biol., 12, 429444, 1992.
  • Levitus, S., R. Burgett, T. P. Boyer, World Ocean Atlas 1994, 3, Salinity, NOAA Atlas NESDIS, 3, 111, Natl. Oceanogr. Data Cent., Silver Spring, Md., 1994.
  • Lizotte, M. P., K. R. Arrigo, Parameterization of a spectral model of primary production in the Southern Ocean (abstract, Eos Trans. AGU, 753, Ocean Sci. Meet. Suppl., 217, 1994.
  • Longhurst, A., S. Sathyendranath, T. Platt, C. Caverhill, An estimate of global primary production in the ocean from satellite radiometer data, J. Plankton Res., 17, 12451271, 1995.
  • Martin, J. H., S. E. Fitzwater, Iron deficiency limits phytoplankton growth in the northeast Pacific Subarctic, Nature, 331, 341343, 1988.
  • Martin, J. H., M. Gordon, S. E. Fitzwater, The case for iron, Limnol. Oceanogr., 36, 17931802, 1991.
  • McClain, C. R., K. R. Arrigo, K.-S. Tai, D. Turk, Observations and simulations of physical and biological processes at ocean weather station P, 1951–1980, J. Geophys. Res., 101, 36973713, 1996.
  • Mitchell, B. G., O. Holm-Hansen, Bio-optical properties of Antarctic Peninsula waters: differentiation from temperate ocean models, Deep Sea Res., Part A, 38, 10091028, 1991.
  • Monod, J., Recherches sur la croissance des cultures bacteriennes, Herman et Cie, Paris, 1942.
  • Morel, A., Available, usable, and stored radiant energy in relation to marine photosynthesis, Deep Sea Res., 25, 673688, 1978.
  • Morel, A., J.-F. Berthon, Surface pigments, algal biomass profiles and potential production of the euphotic layer: Relationships reinvestigated in view of remote sensing applications, Limnol. Oceanogr., 34, 15451562, 1989.
  • Pauly, D., V. Christensen, Primary production required to sustain global fisheries, Nature, 374, 255257, 1995.
  • Price, N. M., B. A. Ahner, F. M. M. Morel, The equatorial Pacific: Grazer controlled phytoplankton populations in an iron-limited ecosystem, Limnol. Oceanogr., 39, 520534, 1994.
  • Reifsnyder, W. E., H. W. Lull, Radiant energy in relation to forests, Tech. Bull. U.S. Dep. Agric., 1344, 17, 1965.
  • Ross, R. M., L. B. Quetin, Euphausia superba: A critical review of annual production, Comp. Biochem. Physiol. B, Comp. Biochem., 90B, 499505, 1988.
  • Ryther, J. H., Geographic variations in productivity, The Composition of Sea Water and Comparative and Descriptive Oceanography, The Sea, 2M. N. Hill, 347380, John Wiley, New York, 1963.
  • Sakshaug, E., O. Holm-Hansen, Factors governing pelagic production in polar oceans, Marine Phytoplankton and ProductivityO. Holm-Hansen, L. Bolis, R. Gilles, 118, Springer-Verlag, New York, 1984.
  • Sathyendranath, S., T. Platt, Remote sensing of ocean chlorophyll: consequences of non-uniform pigment profile, Appl. Opt., 28, 490495, 1989.
  • Smith, W. O., D. M. Nelson, The importance of ice-edge phyto-plankton production in the Southern Ocean, BioScience, 36, 251257, 1986.
  • Smith, W. O., N. K. Keene, J. C. Comiso, Interannual variability in estimated primary productivity of the Antarctic marginal ice zone, Antarctic Ocean and Resources VariabilityD. Sahrhage, 131139, Springer-Verlag, New York, 1988.
  • Sullivan, C. W., K. R. Arrigo, C. R. McClain, J. C. Comiso, J. Firestone, Distributions of phytoplankton blooms in the Southern Ocean, Science, 262, 18321837, 1993.
  • Tilzer, M. M., M. Elbrachter, W. W. Gieskes, B. Beese, Light-temperature interactions in the control of photosynthesis in Antarctic phytoplankton, Polar Biol., 5, 105111, 1986.
  • Wilson, D. L., W. O. Smith Jr., D. M. Nelson, Phytoplankton bloom dynamics of the western Ross Sea ice-edge, I, Primary productivity and species-specific production, Deep Sea Res., Part A, 33, 13751387, 1986.