key role of aluminium in phosphorus availability, food web structure, and plankton dynamics in strongly acidified lakes

We studied extracellular acid phosphatase activity (AcPA) of planktonic microorganisms, aluminium (Al) speciation, and phosphorus (P) cycling in three atmospherically acidified (pH of 4.5–5.1) mountain forest lakes: Čertovo jezero (CT), Prášilské jezero (PR), and Plešné jezero (PL) in the Bo...

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Bibliographic Details
Published in:Biológia 2006-01, Vol.61 (20), p.S441-S451
Main Authors: Vrba, Jaroslav, Jiří Kopáček, Thomas Bittl, Jiří Nedoma, Alena Å trojsovÃ, Linda NedbalovÃ, LeoÅ¡ Kohout, Jan Fott
Format: Article
Language:English
Subjects:
Acid phosphatase
Acidification
Aluminum
Availability
bacterioplankton
Biomass
carbon biomass
Composition
Crustacea
Crustaceans
Dynamic structural analysis
extracellular phosphatases
Food availability
Food chains
Food webs
forests
Freshwater
hydrochemistry
Inactivation
Lakes
Microorganisms
Mountain forests
Mountains
pH effects
Phosphatase
Phosphorus
Phytoplankton
Plankton
plankton stoichiometry
recovery
Seston
Speciation
Zooplankton
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Summary:We studied extracellular acid phosphatase activity (AcPA) of planktonic microorganisms, aluminium (Al) speciation, and phosphorus (P) cycling in three atmospherically acidified (pH of 4.5–5.1) mountain forest lakes: Čertovo jezero (CT), Prášilské jezero (PR), and Plešné jezero (PL) in the Bohemian Forest (Šumava, Böhmerwald). Microorganisms dominated pelagic food webs of the lakes and crustacean zooplankton were important only in PR, with the lowest Al concentrations (193 µg L−1) due to 3–4 times lower terrestrial input. The lakes differed substantially in Al speciation, i.e., in the proportion of ionic and particulate forms, with the highest proportion of ionic Al in the most acid CT (pH = 4.5). The P concentration in the inlet of PL (mean: 22.9 µg L−1) was about five times higher than in CT and PR (3.9 and 5.1 µg L−1, respectively). Average total biomass of planktonic microorganisms in PL (593 µg C L−1) was, however, only ∼2-times higher than in CT and PR (235 and 272 µg C L−1, respectively). Enormous AcPA (means: 2.17–6.82 µmol L−1 h−1) and high planktonic C : P ratios suggested severe P limitation of the plankton in all lakes. Comparing 1998 and 2003 seasons, we observed changes in water composition (pH and Al speciation) leading to a significant increase in phytoplankton biomass in the lakes. The increase in the seston C : P ratio during the same time, however, indicates a progressive P deficiency of the lakes. The terrestrial Al inputs, together with in-lake processes controlling the formation of particulate Al, reduced P availability for planktonic microorganisms and were responsible for the differences in AcPA. At pH < 5, moreover, ionic Al forms caused inhibition of extracellular phosphatases. We postulate that both particulate and ionic Al forms affect P availability (i.e., inhibition of extracellular phosphatases and inactivation of P), specifically shape the plankton composition in the lakes and affect plankton recovery from the acid stress.
ISSN:1336-9563
0006-3088
1336-9563
DOI:10.2478/s11756-007-0077-5