Abstract
Four hundred and forty bioassays with Scenedesmus quadricauda (Turp.) Bréb. as a test organism have been carried out with samples from canals and lakes in the western part of the Netherlands. The results are used to assess the algal growth potential (AGP) and to determine the limiting nutrient(s) for maximum biomass production. Special attention has been paid to the effects of deep-freezing and autoclaving as pretreatment of water samples on pH and nutrient concentrations.
The AGP ranged from very low in the relatively isolated polder lakes to very high in canals and lakes, which form part of the basin system of Rijnland. The lowest yields are observed in nitrogen and phosphorus co-limited waters, while the highest are found in waters limited by nitrogen alone. AGP proved to be primarily determined by the amount of nitrogen, especially nitrate, in the samples and only secondarily by the amount of phosphorus.
The observed ranges indicating phosphorus limitation, > 50 for inorganic and > 30 for total N/P ratios, lie considerably higher than reported so far. It is concluded that, once the relations between AGP and nutrients are established, AGP tests do not have to be carried out routinely, but still can be very useful in special studies, e.g. in lake restoration projects.
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References
Anonymous, 1986. Ontwikkeling van een algengroeipotentietoets voor oppervlaktewater en afvalwater. Rapport Stichting Toegepast Onderzoek Reiniging Afvalwater, Rijswijk, 77 pp.
Bolier, G., A. N. van Breemen & G. Visser, 1981. Eutrophication tests: a possibility to estimate the influence of sewage discharge on the biological quality of the receiving water. H2O 14: 88- 92 (in Dutch with an English summary).
Bolier, G. & L. W. C. A. van Breemen (eds.), 1982. Standaardisatie van de algengroeipotentietoets voor Nederland: verkenning en afbakening. Laboratorium voor Gezondheidstechniek, TH-Delft. Rapport nr. 82-03, 49 pp.
Bringmann, P. G. & R. Kühn 1965. Nitrat oder Phosphat als Begrenzungsfaktor des Algenwachstums. Gesundheitsing. 7: 210–214.
Chiaudani, G. & M. Vighi, 1974. The N: P ratio and tests with Selenastrum to predict eutrophication in lakes. Wat. Res. 8: 1063–1069.
Chiaudani, G. & M. Vighi, 1975. Dynamics of nutrient limitation in six small lakes. Verh. int. Ver. Limnol. 19: 1319–1324.
Chiaudani, G. & M. Vighi, 1976. Comparison of different techniques for detecting limiting or surplus nitrogen in batch cultures of Selenastrum capricornutum. Wat. Res. 10: 725–729.
Claesson, Å. & Å. Forsberg, 1980. Algal assay studies of polluted lakes. Arch. Hydrobiol. 89: 208–224.
Does, J. van der & S. P. Klapwijk, 1985. Phosphorus removal and effects on water quality in Rijnland. H2O 18: 381–387 (in Dutch with an English summary).
Does, J. van der & S. P. Klapwijk, 1987. Effects of phosphorus removal on the maximal algal growth in bioassay experiments with water from four Dutch lakes. Int. Revue ges. Hydrobiol. 72: 27–39.
Eloranta, V. & O. Laitinen, 1981. Evaluation of sample preparation for algal assays on waters receiving cellulose effluents. Verh. int. Ver. Limnol. 21: 770–775.
Environmental Protection Agency (E.P.A.), 1971. Algal assay procedure bottle test, National Eutrophication Research Program. Corvallis, Oregon, 82 pp.
Environmental Protection Agency (E.P.A.), 1975. Proceedings: Biostimulation and nutrient assessment. Workshop, Oct. 16–17, 1973. Corvallis, Oregon. EPA-660/3-75034.
Filip, D. S. & E. J. Middlebrooks, 1975. Evaluation of sample preparation techniques for algal bioassays. Wat. Res. 9: 581–585.
Forsberg, C., S.-O. Ryding, Å. Claesson & Å. Forsberg, 1978. Water chemical analyses and/or algal assay? — Sewage effluent and polluted lake water studies. Mitt. int. Ver. Limnol. 21: 352–363.
Gargas, E. & J. S. Pedersen, 1974. Algal assay procedure batch technique. Contribution from the Water Quality Institute. Danish Academy of Technical Science, 1 (2nd ed.), 48 pp.
Haan, H. de, J. B. W. Wanders & J. R. Moed, 1982. Multiple addition bioassay of Tjeukemeer water. Hydrobiologia 88: 233–244.
Hoogheemraadschap van Rijnland, 1984. Rapport betreffende het onderzoek naar de effecten van fosfaatverwijdering op de a.w.z.i.'s Gouda, Bodegraven en Nieuwveen. Rapport technische dienst van Rijnland, Leiden, Ch. 5, 37 pp.
King, L. L., 1969. Statistical analysis in geography. 2nd ed. Prentice Hall. Inc., Englewood Cliffs, N.J., pp. 135–148.
Klapwijk, S. P., 1981. Limnological research on the effects of phosphate removal in Rijnland. H2O 14: 472–483 (in Dutch with an English summary).
Leentvaar, P., 1980. Eutrophication, nature management and the role of potassium. Hydrobiol. Bull. 14: 22–29.
Marvan, P., S. Přibil & Lhotský, 1979. Algal assays and monitoring eutrophication. E. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart, 261 pp.
Miller, W. E., T. E. Maloney & J. C. Greene, 1974. Algal productivity in 49 lake waters as determined by algal assays. Wat. Res. 8: 667–679.
Miller, W. E., J. C. Greene & T. Shiroyama, 1978. The Selenastrum capricornutum Printz algal assay bottle test. Environmental Protection Agency (EPA). Corvallis, Oregon, 126 pp.
Nederlands Normalisatie Instituut, 1981–1987. Test methods for water. NEN 6474, 6481, 6520, 6646, 6663 (in Dutch).
Nordforsk, 1973. Algal assays in water pollution research. Proceedings from a Nordic symposium, Oct. 1972, Oslo. Nordforsk secretariat of Environmental Sciences Publ.: 2, 128 pp.
Raschke, R. L. & D. A. Schulz, 1987. The use of algal growth potential test for data assessment. J. Wat. Pollut. Cont. Fed. 59: 222–227.
Ryding, S. -O. (ed), 1980. Monitoring of inland waters. Report from the working group for eutrophication research. Nordforsk publication 1980: 2, Helsingfors, Finland, 207 pp.
S. I. L., 1978. Symposium: Experimental use of algal cultures in limnology. Mitt. int. Ver. Limnol. 21: 1–607.
Skulberg, O. M., 1964. Algal problems to the eutrophication of European water supplies, and a bioassay method to assess fertilizing influences of pollution on inland water. In: D. F. Jackson (ed.): Algae and Man, Plenum Press, New York, pp. 262–269.
Veenstra, S., 1981. De algengroei-potentie-toets. Een nieuw instrument ter beoordeling van het eutrofiërend karakter van een water. L. H. Wageningen, Vakgroep Waterzuivering, sektie Hydrobiologie. Doktoraal verslagen serie nr. 81-1, 61 pp. (in Dutch).
Vries, P. J. R. de & P. S. H. Ouboter, 1985. Watersample treatments and their effects on bioassays using Stigeoclonium helveticum Vischer. Aquat. Bot. 22: 177–185.
Vries, P. J. R. de & S. P. Klapwijk, 1987. Bioassays using Stigeoclonium tenue Kütz. and Scenedesmus quadricauda (Turp.) Bréb. as testorganisms; a comparative study. Hydrobiologia 153: 149–157.
Youngman, R. E., 1980. The prediction of algal crops by bioassay. Technical Report TR 148, Water Research Center, Environmental Protection, Medmenham, UK, 55 pp.
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Klapwijk, S.P., Bolier, G. & van der Does, J. The application of algal growth potential tests (AGP) to the canals and lakes of western Netherlands. Hydrobiologia 188, 189–199 (1989). https://doi.org/10.1007/BF00027785
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DOI: https://doi.org/10.1007/BF00027785