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:
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- 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
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- Primary productivity in acidified lakes is limited mainly by low phosphorus supply
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- 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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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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DOI: https://doi.org/10.1007/BF00770243