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Phosphorus in acidified lakes: The example of Lake Gårdsjön, Sweden

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Abstract

Supply and turnover of phosphorus was studied in an acidified lake ecosystem, Lake Gårdsjön, located in southwestern Sweden. This study included transport and budget calculations combined with field and laboratory experimental work on abiotic phosphorus chemistry and biological utilization of phosphorus. The main conclusions presented in this paper are:

  • - The acidification process in inland waters resulting from acid atmospheric deposition is accompanied by ‘oligotrophication’ because of reduced input of phosphorus from the drainage area, possibly due to efficient fixation of phosphorus to aluminium complexes in the B-horizon of podzol soils

  • - Primary productivity in acidified lakes is limited mainly by low phosphorus supply

  • - Algal utilization of phosphorus in acidified lakes is impaired, yielding lower biomass than could be expected from ambient phosphorus concentrations. One possible reason for this could be that enzymatic recycling of organic phosphates is prevented by high levels of aluminium in lake water.

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References

  • All, T. & T. Wiederholm, 1977. Swedish water quality criteria: nutrients — PM 918. Swed. Natn. envir. Prot. Bd., Stockholm, 123 pp. (in Swedish).

    Google Scholar 

  • Almer, B., W. Dickson, C. Ekström & E. Hörnström, 1978. Sulfur pollution and the aquatic ecosystem. In J.O. Nriago (ed.). Sulfur in the environment, 2, John Wiley & Sons, N.Y.: 271–311.

    Google Scholar 

  • Brassard, P. & J. C. Auclair, 1984. Orthophosphate uptake rate constants are mediated by the 103 − 104 molecular weight fraction in shield lake waters. Can. J. Fish. aquat. Sci. 41: 166–173.

    Google Scholar 

  • Broberg, O., 1984. Phosphate removal in acidified and limed lake water. Wat. Res. 18: 1273–1278.

    Google Scholar 

  • Broberg, O. & G. Persson, 1984. External budgets for phosphorus, nitrogen and dissolved organic carbon for the acidified Lake Gårdsjön. Arch. Hydrobiol. 99: 160–175.

    Google Scholar 

  • Conroy, N., K. Hawley, W. Keller & C. Lafrance, 1976. Influences of the atmosphere on lakes in the Sudbury area. Proc. 1rst spec. Symp. Atmosph. Conr. to the Chem. Lake Waters. J. int. Ass. Gt Lakes Res. 2: 146–165.

  • Dickson, W., 1980. Properties of acidified water. In D. Drablös & A. Tollan (eds), Ecological impact of acid precipitation. SNSF Proj., Oslo-Ås: 75–83.

    Google Scholar 

  • Dillon, P. J., N. D. Yan, W. A. Scheider & N. Conroy, 1979. Acidic lakes in Ontario, Canada: characterization, extent and responses to base and nutrient additions. Arch. Hydrobiol. Beih. Ergebn. Limnol. 13: 317–336.

    Google Scholar 

  • Driscoll, C. T., 1980. Chemical characterization of some dilute acidified lakes and streams in the Adirondack region of New York State. Ph.D. Thesis, Cornell Univ., 309 pp.

  • Grahn, O., 1985. Macrophyte biomass and production in Lake Gårdsjön — an acidified clearwater lake in SW Sweden. In F. Andersson & B. Olsson (eds), Lake Gårdsjön — an acid forest lake and its catchment. Ecol. Bull. 37: 203–212.

  • Grahn, O., H. Hultberg & L. Lander, 1974. Oligotrophication — a self-accelerating process in lakes subjected to excessive supply of acid substances. Ambio 3: 93–94.

    Google Scholar 

  • Haines, T. A., 1981. Acidic precipitation and its consequences for aquatic ecosystem: A Review. Trans. am. Fish. Soc. 110: 669–707.

    Google Scholar 

  • Havas, M., T. C. Hutchinson & G. Likens, 1984. Red herrings in acid rain research. Envir. Sci. Technol. 18: 176–186.

    Google Scholar 

  • Hemvall, J. B., 1957. The fixation of phosphorus by soils. Adv. Agron. 9: 95–112.

    Google Scholar 

  • Hultberg, H. & I. Andersson, 1982. Liming of acidified lakes: Induced longterm changes. Water, Air, Soil Pollut. 18: 311–331.

    Google Scholar 

  • Hörnström, E., 1984. Effects of pH and different levels of aluminium on lake plankton. Rep. Inst. Freshwat. Res., Drottningholm 61: 115–127.

    Google Scholar 

  • Hörnström, E., C. Ekström, U. Miller & W. T. Dickson, 1973. Acidification impact on west-coast lakes. Inf. Inst. Freshwat. Res. Drottningholm, 4, 79 pp. (in Swedish).

    Google Scholar 

  • Jansson, M., 1981. Induction of high phosphatase activity by aluminium in acid lakes. Arch. Hydrobiol. 93: 32–44.

    Google Scholar 

  • Jansson, M., 1979. Nutrient budgets and the regulation of nutrient concentrations in a small subarctic lake in northern Sweden. Freshwat. Biol. 9: 213–231.

    Google Scholar 

  • Jansson, M., U. Heyman & C. Forsberg, 1981a. Acid lakes and ‘biological buffering’. Vatten 3: 241–251 (in Swedish with English summary).

    Google Scholar 

  • Jansson, M., H. Olsson & O. Broberg, 1981b. Characterization of acid phosphatases in the acidified Lake Gårdsjön, Sweden. Arch. Hydrobiol. 92: 377–395.

    Google Scholar 

  • Johansson, K. & P. Nyberg, 1981. Acidification of surface waters in Sweden — Effects and Extent 1980. Int. Inst. Freshwat. Res. Drottningholm 6: 1–112 (in Swedish with English summary).

    Google Scholar 

  • Kaila, A., 1963. Dependence of the phosphate sorption capacity on the aluminium and iron in Finnish soils. Maataloustieteelinen Aikakauskirja 35: 165–177.

    Google Scholar 

  • Lean, D. R. S., A. P. Abbott, M. N. Charlton & S. S. Rao, 1983. Seasonal phosphate demand for Lake Erie plankton. J. Gt Lakes Res. 9: 83–91.

    Google Scholar 

  • Lydén, A. & O. Grahn, 1985. Phytoplankton species composition, biomass and production in Lake Gårdsjön — an acidified clearwater lake in SW Sweden. In F. Andersson & B. Olsson (eds), Lake Gårdsjön — an acid forest lake and its catchment. Ecol. Bull. 37: 195–202.

  • Melkerud, P. A., 1983. Quaternary deposits and bedrock outcrops in an area around Lake Gårdsjön — western Sweden, with physical, mineralogical and geochemical investigation. Rep. in For. Ecol. & For. Soils 44. Dep. For. Soils, Swed. Univ. agric. Sci., Uppsala, 87 pp.

    Google Scholar 

  • Menzel, D. W. & N. Corwin, 1965. The measurement of total phosphorus in seawater based on the liberation of organically bound fractions by persulphate oxidation. Limnol. Oceanogr. 10: 280–282.

    Google Scholar 

  • Mortimer, C. H., 1971. Chemical exchanges between sediments and water in the Great Lakes. — Speculations on probable regulatory mechanisms. Limnol. Oceanogr. 16: 387–404.

    Google Scholar 

  • Nilsson, S. I. & B. Bergquist, 1983. Aluminium chemistry and acidification processes in a shallow podsol on the Swedish west coast. Wat. Air Soil Pollut. 20: 311–329.

    Google Scholar 

  • N.R.C.C. (National Research Council of Canada), 1981. Acidification in the Canadian aquatic environment. N.R.C.C. 18475, 204 pp.

  • Ohle, W., 1980. Photosynthesis and chemistry of an extremely acidic bathing pond in Germany. Verh. int. Ver. Limnol. 21: 1172–1177.

    Google Scholar 

  • Olsson, H., 1983. Origin and production of phosphatases in the acid Lake Gårdsjön. Hydrobiologia 101: 49–58.

    Google Scholar 

  • Olsson, B., L. Hallbäcken, S. Johansson, P. A. Melkerud, S. I. Nilsson & T. Nilsson, 1985. The Lake Gårdsjön area — physiological and biological features. In F. Andersson & B. Olsson (eds), Lake Gårdsjön – An acid forest lake and its catchment. Ecol. Bull. 37: 10–28.

  • Overrein, L. N., H. M. Seip & A. Tollan, 1980. Acid precipitation — effects on forests and fish. Fin. Rep. SNSF-Proj. 1972–1980. FR 19/80, SNSF Proj., Oslo-Ås, 175 pp.

    Google Scholar 

  • Persson, G. & O. Broberg, 1985. Nutrient concentrations in the acidified Lake Gårdsjön: The role of transport and retention of phosphorus, nitrogen and DOC in watershed and lake. In F. Andersson & B. Olsson (eds), Lake Gårdsjön — An acid forest lake and its catchment. Ecol. Bull. 37: 158–175.

  • Raven, J. A., 1980. Nutrient transport in microalga. In A. H. Rose & J. G. Morris (eds), Advances in Microbial Physiology. Academic Press, Lond., N.Y.: 48–206.

    Google Scholar 

  • Reckhow, K. H., 1979. Empirical lake models for phosphorus: Development, applications, limitations and uncertainty. In D. Scavia & A. Robertson (eds), Perspectives on lake ecosystem modelling. Ann Arbor Science, Ann Arbor: 193–222.

    Google Scholar 

  • Rehnberg, I. & T. Hellberg, 1982. The pH history of lakes in southwestern Sweden as calculated from the subfossil diatom flora of the sediments. Ambio 11: 30–33.

    Google Scholar 

  • Rigler, F. H., 1964. The phosphorus fractions and turnover time of inorganic phosphorus in different types of lakes. Limnol. Oceanogr. 9: 511–518.

    Google Scholar 

  • Rodhe, W., 1981. Reviving Acidified Lakes. Ambio 10: 195–196.

    Google Scholar 

  • Rognerud, S., D. Berge & M. Johannessen, 1979. Telemarkvassdraget: Main report from the studies 1975–1979. Norw. Inst. Wat. Res., Rep. 0–70112, 82 pp. (in Norwegian).

  • Scheider, W. A., I. Adamski & M. Paylor, 1975. Reclamation of acidified lakes near Sudbury, Ontario. Ont. Minist. Envir. tech. Rep., Toronto, 129 pp.

  • Scheider, W. & P. J. Dillon, 1976. Neutralization and Fertilization of Acidified Lakes Near Sudbury, Ontario. Wat. Pollut. Res. Can. 11: 93–100.

    Google Scholar 

  • Schindler, D. W., 1980. Experimental acidification of a whole lake: a test of the oligotrophication hypothesis. In D. Drablös & A. Tollan (eds), Ecological impact of acid precipitation. S.N.S.F. Project. Oslo-Ås: 370–374.

    Google Scholar 

  • Schindler, D. W., K. H. Mills, D. F. Malley, D. L. Findlay, J. A. Shearer, I. J. Davies, M. A. Turner, G. A. Lindsey & D. R. Cruikshank, 1985. Long-term ecosystem stress: The effects of years of experimental acidification on a small lake. Science 228: 1395–1401.

    Google Scholar 

  • Shellito, G. A. & J. DeCosta, 1981. Primary production in a eutrophic acid lake. Water, Air, Soil Pollut. 16: 415–431.

    Google Scholar 

  • S.M.H.I., 1979. Runoff in Sweden. Swed. meteorol. hydrol. Inst., Norrköping, 403 pp. (in Swedish).

  • Stenson, J. A. E. & H. G. Oscarson, 1985. Crustacean zooplankton in the acidified Lake Gårdsjön system. In F. Andersson & B. Olsson (eds), Lake Gårdsjön — An acid forest lake and its catchment. Ecol. Bull. 37: 224–231.

  • Stumm, W. & J. J. Morgan, 1981. Aquatic Chemistry, 2nd Edn. Wiley-Interscience, N.Y.: 780 pp.

    Google Scholar 

  • Trybom, F., 1903. Lake studies in the province of Bohuslän, summer 1900. Medd. Kongl. Lantbruksstyrelsen 205: 133–143.

    Google Scholar 

  • Wetzel, R. G., E. S. Brammer & C. Forsberg, 1984. Photosynthesis of submersed macrophytes in acidified lakes, 1. Carbon fluxes and recycling of CO2 in Juncus bulbosus L. Aquat. Bot. 19: 329–342.

    Google Scholar 

  • Wilcox, G. R. & J. DeCosta, 1984. Bag Experiments on the Effect of Phosphorus and Base Additions on the Algal Biomass and Species Composition of an Acid Lake. Int. Revue ges. Hydrobiol. 69: 173–199.

    Google Scholar 

  • Wild, A., 1950. The retention of phosphate in soil — A review. J. Soil Sci. 1: 221–238.

    Google Scholar 

  • Williams, E. G., N. M. Scott & M. J. McDonald, 1958. Soil properties and phosphate sorption. J. Sci. Food Agric. 9: 551–559.

    Google Scholar 

  • Wood, T., F. H. Bormann & G. K. Voigt, 1984. Phosphorus cycling in a northern hard wood forest: Biological and chemical control. Science 223: 391–393.

    Google Scholar 

  • Yan, N. D. & C. Lafrance, 1984. Responses of acidic and neutralized lakes near Sudbury, Ontario, to nutrient enrichment. In J. Nriagu (ed.), Environmental impacts of smelters. J. Wiley & Sons, N.Y.: 457–521.

    Google Scholar 

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Authors and Affiliations

  1. Institute of Limnology, University of Uppsala, Box 557, S-751 22, Uppsala, Sweden

    Mats Jansson, Gunnar Persson & Ola Broberg

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  1. Mats Jansson
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  2. Gunnar Persson
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A contribution from the Lake Gårdsjön Project, supported by the National Swedish Environmental Protection Board, The Fishery Board of Sweden and the Swedish Council for Planning and Coordination.

A contribution from the Lake Gårdsjön Project, supported by the National Swedish Environmental Protection Board, The Fishery Board of Sweden and the Swedish Council for Planning and Coordination.

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Jansson, M., Persson, G. & Broberg, O. Phosphorus in acidified lakes: The example of Lake Gårdsjön, Sweden. Hydrobiologia 139, 81–96 (1986). https://doi.org/10.1007/BF00770243

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