Skip to main content
SpringerLink
Log in

Photosynthate partitioning by phytoplankton in a New Zealand coastal upwelling system

  • Published:
Marine Biology Aims and scope Submit manuscript

Abstract

The patterns of 14C incorporation into the major endproducts of photosynthesis were measured in the surface waters of a New Zealand coastal upwelling system between 8 March and 5 April, 1983. Overall, the majority of 14C was incorporated into protein (x=43.4%) followed by that into polysaccharide (x=33.3%), lipid (x=18.9%) and low molecular weight (LMW) metabolites (x=4.5%). High relative accumulation of 14C into protein occurred at the expense of 14C flow into storage products (primarily polysaccharide) and, to a lesser degree, LMW metabolites. The lowest proportion of 14C incorporated into protein was generally observed in the productive waters associated with the upwelling center. The proportion of 14C incorporation into protein was positively correlated with seston particulate-N: particulate-P (PN:PP), particulate-N:chlorophyll (PN:chl) and particulate-P:chlorophyll (PP:chl) ratios, but was negatively correlated with assimilation number. Time-course experiments under constant environmental conditions revealed that the photosynthate fractions attained constant proportions in <4h. Under a natural day/night cycle the total incorporation of 14C was paralleled most closely by the 14C flow into polysaccharide, showing increases during the day and decreases at night. This pattern also occurred in the LMW and lipid fractions, although not as marked. In contrast, incorporation into protein continued during both day and night. The results of a pulse-chase experiment implied that polysaccharide was the first major product of photosynthesis and had a turnover time of about 2 h.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

Literature cited

  • Bowman, M. J., B. A. Foster and P. P. Lappennas: Ocean water properties. In: Maui Development Environmental Study Report on Phase Two, 1977–1981, pp 77–97. Ed. by A. C. Kibblewhite, P. R. Bergquist, B. A. Foster, M. R. Gregory and M. C. Miller. Auckland, New Zealand: University of Auckland 1982. (Published for Shell, BP and Todd Oil Services Ltd Auckland, New Zealand)

    Google Scholar 

  • Caperon, J. and J. Meyer: Nitrogen limited growth of marine phytoplankton. I. Changes in population characteristics with steady-state growth rate. Deep-Sea Res. 19, 601–618 (1972)

    Google Scholar 

  • Copin-Montegut, C. and G. Copin-Montegut: Stoichiometry of carbon, nitrogen, and phosphorus in marine particulate matter. Deep-Sea Res. 30, 31–46 (1983)

    Google Scholar 

  • Downes, M. T.: An automated determination of low reactive phosphorus concentrations in natural waters in the presence of arsenic, silicon, and mercuric chloride. Wat. Res. 12, 743–745 (1978)

    Google Scholar 

  • Glover, H. E. and I. Morris: Photosynthetic carboxylating enzymes in marine phytoplankton. Limnol. Oceanogr. 24, 510–519 (1979)

    Google Scholar 

  • Goldman, J. C.: Physiological processes, nutrient availability, and the concept of relative growth rate in marine phytoplankton ecology. In: Primary productivity in the sea, pp 179–194. Ed. by P. G. Falkowski. New York: Plenum Press 1980

    Google Scholar 

  • Goldman, J. C., J. J. McCarthy and D. G. Peavey: Growth rate influence on the chemical composition of phytoplankton in oceanic waters. Nature Lond. 279, 210–215 (1979)

    Google Scholar 

  • Hitchcock, G. L.: Photosynthate partitioning in cultured marine phytoplankton. I. Dinoflagellates. J. exp. mar. Biol. Ecol. 69, 21–26 (1983)

    Google Scholar 

  • Konopka, A. and M. Schnur: Biochemical composition and photosynthetic carbon metabolism of nutrient limited cultures of Merismopedia tenuissima (Cyanophyceae). J. Phycol. 17, 118–122 (1981)

    Google Scholar 

  • Lehninger, A. L.: Biochemistry, 1104 pp. New York: Worth Publishers 1975

    Google Scholar 

  • Li, W. K. W., H. E. Glover and I. Morris: Physiology of carbon photoassimilation by Oscillatoria thiebautii in the Caribbean Sea. Limnol. Oceanogr. 25, 447–456 (1980)

    Google Scholar 

  • Li, W. K. W. and T. Platt: Distribution of carbon among photosynthetic end products in phytoplankton of the eastern Canadian arctic. J. Phycol. 18, 466–471 (1982)

    Google Scholar 

  • Nydahl, F.: On the optimal conditions for the reduction of nitrate to nitrite by cadmium. Talanta 23, 349–357 (1976)

    Google Scholar 

  • Miyachi, S., S. Miyachi and A. Kamiya: Wavelength effects on photosynthetic carbon metabolism in Chlorella. Pl. Cell Physiol., Tokyo 19, 277–288 (1978)

    Google Scholar 

  • Morris, I.: Paths of carbon assimilation in marine phytoplankton. In: Primary productivity in the sea, pp 139–159. Ed. by P. G. Falkowski. New York: Plenum Press 1980

    Google Scholar 

  • Morris, I.: Photosynthetic products, physiological state, and phytoplankton growth. Can. Bull. Fish. aquat. Sciences 210, 83–102 (1981)

    Google Scholar 

  • Morris, I., H. E. Glover and C. S. Yentsch: Products of photosynthesis by marine phytoplankton: the effect of environmental factors on the relative rates of protein synthesis. Mar. Biol. 27, 1–9 (1974)

    Google Scholar 

  • Morris, I. and W. Skea: Products of photosynthesis in natural populations of marine phytoplankton from the Gulf of Maine. Mar. Biol. 47, 303–312 (1978)

    Google Scholar 

  • Morris, I., A. E. Smith and H. E. Glover: Products of photosynthesis in phytoplankton off the Orinoco River and in the Caribben Sea. Limnol. Oceanogr. 26, 1034–1044 (1981)

    Google Scholar 

  • Oaks, A. and R. G. S. Bidwell: Compartmentation of intermediary metabolites. A. Rev. Pl. Physiol. 21, 43–66 (1970)

    Google Scholar 

  • Parsons, T. R., K. Stephens and J. D. H. Strickland: On the chemical composition of eleven species of marine phytoplankton. J. Fish. Res. Bd Can. 18, 1001–1016 (1961)

    Google Scholar 

  • Priscu, J. C. and C. R. Goldman: Suspensoid characteristics in subalpine Castle Lake, California. I. Chemical composition. Arch. Hydrobiol. 97, 373–388 (1983a)

    Google Scholar 

  • Priscu, J. C. and C. R. Goldman: Carboxylating enzyme activity and photosynthetic end-products of phytoplankton in the shallow and deep-chlorophyll layers of Castle Lake. Limnol. Oceanogr. 28, 1168–1181 (1983b)

    Google Scholar 

  • Redalje, D. G. and E. A. Laws: The effect of environmental factors on growth and the chemical and biochemical composition of marine diatoms. I. Light and temperature effects. J. exp. mar. Biol. Ecol. 68, 59–79 (1983)

    Google Scholar 

  • Redfield, A. C., B. H. Ketchum and F. A. Richards: The influence of organisms on the composition of seawater. In: The sea, Vol. 2. pp 26–77. Ed. by M. N. Hill. New York: Wiley Interscience 1963

    Google Scholar 

  • Searle, P. L.: Automated colorimetric determination of ammonium ions in soil extracts with “Technicon Autoanalyzer II” equipment. N. Z. Jl agric. Res. 18, 183–187 (1975)

    Google Scholar 

  • Smith, A. E. and I. Morris: Pathways of carbon assimilation in phytoplankton from the Antarctic Ocean. Limnol. Oceanogr. 25, 865–872 (1980)

    Google Scholar 

  • Solórzano, L.: Determination of ammonium in natural waters by the phenolhypochlorite method. Limnol. Oceanogr. 14, 799–801 (1980)

    Google Scholar 

  • Stainton, M. P.: Simple, efficient reduction column for use in automated determination of nitrate in water. Analyt. Chem. 46, p. 1616 (1974)

    Google Scholar 

  • Strickland, J. D. H. and T. R. Parsons: A practical handbook of seawater analysis. Bull. Fish. Res. Bd Can. 167, 1–311 (1968)

    Google Scholar 

  • Terry, K. L., J. Hirata and E. A. Laws: Light-limited growth of two strains of the marine diatom Phaeodactylum tricornutum Bohlin: chemical composition, carbon partitioning and the diel periodicity of physiological processes. J. exp. mar. Biol. Ecol. 68, 209–227 (1983)

    Google Scholar 

Download references

Author information

Author notes

  1. J. C. Priscu & L. R. Priscu

    Present address: Department of Biology, Montana State University, 59717, Bozeman, Montana, USA

Authors and Affiliations

  1. Division of Marine and Freshwater Science, Department of Scientific and Industrial Research, Taupo Research Laboratory, Box 415, Taupo, New Zealand

    J. C. Priscu & L. R. Priscu

Authors
  1. J. C. Priscu
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. L. R. Priscu
    View author publications

    You can also search for this author in PubMed Google Scholar

Additional information

Communicated by G.F. Humphrey, Sydney

Rights and permissions

Reprints and permissions

About this article

Cite this article

Priscu, J.C., Priscu, L.R. Photosynthate partitioning by phytoplankton in a New Zealand coastal upwelling system. Mar. Biol. 81, 31–40 (1984). https://doi.org/10.1007/BF00397622

Download citation

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00397622

Keywords

Search

Navigation