Effect of nitrogen supply on nitrogen uptake, accumulation and assimilation in Porphyra perforata (Rhodophyta) (original) (raw)
Abstract
Porphyra perforata J. Ag. was collected from a rocky land-fill site near Kitsilano Beach, Vancouver, British Columbia, Canada and was grown for 4 d in media with one of the following forms of inorganic nitrogen: NO -3 , NH +4 and NO -3 plus NH +4 and for 10 d in nitrogen-free media. Internal nitrogen accumulation (nitrate, ammonium, amino acids and soluble protein), nitrate and ammonium uptake rates, and nitrate reductase activity were measured daily. Short initial periods (10 to 20 min) of rapid ammonium uptake were common in nitrogen-deficient plants. In the case of nitrate uptake, initial uptake rates were low, increasing after 10 to 20 min. Ammonium inhibited nitrate uptake for only the first 10 to 20 min and then nitrate uptake rates were independent of ammonium concentration. Nitrogen starvation for 8 d overcame this initial suppression of nitrate uptake by ammonium. Nitrogen starvation also resulted in a decrease in soluble internal nitrate content and a transient increase in nitrate reductase activity. Little or no decrease was observed in internal ammonium, total amino acids and soluble protein. The cultures grown on nitrate only, maintained high ammonium uptake rates also. The rate of nitrate reduction may have limited the supply of nitrogen available for further assimilation. Internal nitrate concentrations were inversely correlated with nitrate uptake rates. Except for ammonium-grown cultures, internal total amino acids and soluble protein showed no correlation with uptake rates. Both internal pool concentrations and enzyme activities are required to interpret changes in uptake rate during growth.
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Literature cited
- Best, E. P. H.: Effects of nitrogen on the growth and nitrogenous compounds of Ceratophyllum demersum. Aquat. Bot. 8, 197–206 (1980)
Google Scholar - Bird, K. T., C. Habig and T. DeBusk: Nitrogen allocation and storage patterns in Gracilaria tikvahiae (Rhodophyta). J. Phycol. 18, 344–348 (1982)
Google Scholar - Buggeln, R. G.: Physiological investigations of Alaria esculenta (L.) Grev. (Laminariales). I. Elongation of the blade. J. Phycol. 10, 283–288 (1974)
Google Scholar - Chapman, A. R. O. and J. S. Craigie: Seasonal growth in Laminaria longicrusis: relations with dissolved inorganic nutrients and internal reserves of nitrogen. Mar. Biol. 40, 197–205 (1977)
Google Scholar - Conway, H. L.: Interactions of inorganic nitrogen in the uptake and assimilation by marine phytoplankton. Mar. Biol. 39, 221–232 (1977)
Google Scholar - Conway, H. L., P. J. Harrison and C. O. Davis: Marine diatoms grown in chemostats under silicate or ammonium limitation. II. Transient response of Skeletonema costatum to a single addition of the limiting nutrient. Mar. Biol. 35, 187–199 (1976)
Google Scholar - Davis, C. O., P. J. Harrison and R. C. Dugdale: Continuous culture of marine diatoms under silicate limitation. I. Synchronized life cycle of Skeletonema costatum. J. Phycol. 9, 175–180 (1973)
Google Scholar - DeBoer, J. A., H. J. Guigli, T. L. Israel and C. F. D'Elia: Nutritional studies of two red algae. I. Growth rate as a function of nitrogen source and concentration. J. Phycol. 14, 261–266 (1978)
Google Scholar - DeElia, C. F. and J. A. DeBoer: Nutritional studies of two red algae. II. Kinetics of ammonium and nitrate uptake. J. Phycol. 14, 266–272 (1978)
Google Scholar - Dortch, Q., S. I. Ahmed, T. T. Packard: Nitrate reductase and glutamate dehydrogenase activities in Skeletonema costatum as a measure of N assimilation rates. J. Plankton Res. 1, 169–186 (1979)
Google Scholar - Dortch, Q.: Nitrate and ammonium uptake and assimilation by three marine diatoms, 299 pp. Ph.D. thesis, University of Washington, Seattle, USA 1980
Google Scholar - Dortch, Q., J. R. Clayton, Jr., S. S. Thoresen, S. L. Bressler and S. T. Ahmed: Response of marine phytoplankton to nitrogen deficiency: decreased nitrate uptake vs enhanced ammonium uptake. Mar. Biol. 70, 13–19 (1982)
Google Scholar - Eppley, R. W., J. L. Coatsworth and L. Solórzano: Studies of nitrate reductase in marine phytoplankton. Limnol. Oceanogr. 14, 194–205 (1969)
Google Scholar - Gagné, J. A., K. H. Mann and A. R. O. Chapman: Seasonal patterns of growth and storage in Laminaria longicruris in relation to differing patterns of availability of nitrogen in the water. Mar. Biol. 69, 91–101 (1982)
Google Scholar - Gerard, V. A.: Growth and utilization of internal nitrogen reserves by the giant kelp Macrocystis pyrifera in a low-nitrogen environment. Mar. Biol. 66, 27–35 (1982)
Google Scholar - Gordon, D. M., P. B. Birch and A. J. McComb: Effects of inorganic phosphorus and nitrogen on the growth of an estuarine Cladophora in culture. Botanica mar. 24, 93–106 (1981)
Google Scholar - Guillard, R. R. L. and J. H. Ryther: Studies on marine planktonic diatoms. I. Cyclotella nana (Hustedt) and Detonula confervaceae (Cleve) Gran. Can. J. Microbiol. 8, 229–239 (1962)
Google Scholar - Haines, K. C. and P. A. Wheeler: Ammonium and nitrate uptake by the marine macrophytes Hypnea musciformis (Rhodophyta) and Macrocystis pyrifera (Phaeophyta). J. Phycol. 14, 319–324 (1978)
Google Scholar - Hanisak, M. D. and M. M. Harlin: Uptake of inorganic nitrogen by Codium fragile subsp. tomentosoides (Chlorophyta). J. Phycol. 14, 450–454 (1978)
Google Scholar - Harrison, P. J., L. D. Druchl, K. Lloyd and P. A. Thompson: Nitrogen uptake kinetics in three year classes of Laminaria groenlandica (Laminariales: Phaeophyta). (In preparation)
- Lee, Y. P. and T. Takahashi: An improved colorimetric determination of amino acids with ninhydrin. Analyt. Biochem. 14, 71–77 (1966)
Google Scholar - Leggett-Bailey, J.: Miscellaneous analytical methods: estimation of protein Folin-Ciocalteu reagent. In: Techniques in protein chemistry, 2nd ed. pp 340–342. New York: Elsevier Publishing Co. 1967
Google Scholar - Maestrini, S. Y., J. Robert and I. Truquet: Simultaneous uptake of ammonium and nitrate by oyster-pond algae. Mar. Biol. Lett. 3, 143–153 (1982)
Google Scholar - MacKown, C. T., R. J. Volk and W. A. Jackson: Nitrate assimilation by decapitated corn root systems: effects of ammonium during induction. Pl. Sci. Lett. 24, 295–302 (1982)
Google Scholar - McCarthy, J. J. and J. C. Goldman: Nitrogenous nutrition of marine phytoplankton in nutrient depleted waters. Sciences, N.Y. 203, 670–672 (1979)
Google Scholar - McCarthy, J. J., R. W. Taylor and J. L. Taft: Nitrogenous nutrition of the plankton in Chesapeake Bay. I. Nutrient availability and phytoplankton preferences. Limnol. Oceanogr. 22, 996–1011 (1977)
Google Scholar - Morris, I. and P. J. Syrett: The effect of nitrogen starvation on the activity of nitrate reductase and other enzymes in Chlorella. J. gen. Microbiol. 38, 21–28 (1965)
Google Scholar - Nicholas, D. J. D.: Metallo-enzymes in nitrate micro-organisms. Symp. Soc. exp. Biol. 13, 1–13 (1959)
Google Scholar - Probyn, T. A. and A. R. O. Chapman: Nitrogen uptake characteristics of Chordaria flagelliformis (Phaeophyta) in batch mode and continuous mode experiments. Mar. Biol. 71, 129–133 (1982)
Google Scholar - Rosenberg, G. and J. Ramus: Ecological growth strategies in the seaweeds Gracilaria foliifera (Rhodophyceae) and Ulva sp. (Chlorophyceae): soluble nitrogen and reserve carbohydrates. Mar. Biol. 66, 251–259 (1982)
Google Scholar - Syrett, P. J.: Nitrogen assimilation. In: Physiology and biochemistry of algae, pp 171–188. Ed. by R. A. Lewin. New York: Academic Press 1962
Google Scholar - Thomas, T. E.: Ecological aspects of nitrogen uptake in intertidal macrophytes, 207 pp. Ph.D. thesis, University of British Columbia, Vancouver, B.C., Canada 1983
Google Scholar - Thomas, T. E. and P. J. Harrison. In vitro and in vivo nitrate reductase activity in three intertidal seaweeds. (In preparation)
- Turpin, D. H. and P. J. Harrison: Limiting nutrient patchiness and its role in phytoplankton ecology. J. exp. mar. Biol. Ecol. 39, 151–166 (1979)
Google Scholar - Veidner, M. and H. Kiefer: Nitrate reduction in the marine brown alga Giffordia mitchellae (Harv.) Ham. Z. PflPhysiol. 104, 341–351 (1981)
Google Scholar - Wheeler, W. N. and L. M. Srivastava: Seasonal nitrate physiology of Macrocystis intergrfolia Bory. J. exp. mar. Biol. Ecol. 76, 35–50 (1984)
Google Scholar - Yamada, N.: Studies on the manure for seaweed. I. On the change of nitrogenous component of Gelidium amansii Lmx. cultured with different nitrogen sources. Bull. Jap. Soc. scient. Fish. 27, 953–957 (1961)
Google Scholar
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Author notes
- T. E. Thomas
Present address: Department of Chemistry, Royal Roads Military College, F.M.O., V0S 1B0, Victoria, British Columbia, Canada
Authors and Affiliations
- Department of Oceanography, University of British Columbia, V6T 2B1, Vancouver, British Columbia, Canada
T. E. Thomas & P. J. Harrison
Authors
- T. E. Thomas
- P. J. Harrison
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Communicated by N. D. Holland, La Jolla
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Thomas, T.E., Harrison, P.J. Effect of nitrogen supply on nitrogen uptake, accumulation and assimilation in Porphyra perforata (Rhodophyta).Marine Biology 85, 269–278 (1985). https://doi.org/10.1007/BF00393247
- Accepted: 27 December 1984
- Issue date: March 1985
- DOI: https://doi.org/10.1007/BF00393247