Phosphorus sources and demand during summer in a eutrophic lake

Phosphorus sources and demand during summer in a eutrophic lake

. In pelagic systems, phytoplankton biomass may remain abundant or near equilibrium while concentrations of the limiting nutrient are below detection. In eutrophic lakes, it has been thought that episodic algal blooms are due to mixing events that break down this equilibrium by adding nutrients to t...

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Bibliographic Details
Published in:Aquatic sciences Vol. 71; no. 2; pp. 214 - 227
Main Authors: Kamarainen, Amy M., Penczykowski, Rachel M., Van de Bogert, Matthew C., Hanson, Paul C., Carpenter, Stephen R.
Format: Journal Article
Language:English
Published: Basel Birkhäuser-Verlag 01-06-2009
Springer
Springer Nature B.V
Subjects:
Algal blooms
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic ecosystems
Aquatic sciences
Biological and medical sciences
Biomass
Biomedical and Life Sciences
Careers
Earth sciences
Earth, ocean, space
Ecology
Entrainment
Epilimnion
Eutrophic lakes
Eutrophication
Exact sciences and technology
Fresh water ecosystems
Freshwater
Freshwater & Marine Ecology
Fundamental and applied biological sciences. Psychology
Geochemistry
Hydrology
Hydrology. Hydrogeology
Life Sciences
Marine & Freshwater Sciences
Mineralization
Mineralogy
Nutrient concentrations
Oceanography
Photochemistry
Phytoplankton
Plankton
Recycling
Research Article
Respiration
Sensitivity analysis
Silicates
Synecology
Water geochemistry
Water quality assessments
Dane County Wisconsin
United States
Lake Mendota
Wisconsin
Ecosystem metabolism
respiration
C:P ratio
production
entrainment
phytoplankton bloom
biomass
fresh-water environment
sensitivity analysis
eutrophication
aquatic environment
Plantae
algae
concentration
North America
mineralization
hydrochemistry
ecosystems
phytoplankton
plankton
metabolism
lakes
Thallophyta
phosphorus
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Summary:. In pelagic systems, phytoplankton biomass may remain abundant or near equilibrium while concentrations of the limiting nutrient are below detection. In eutrophic lakes, it has been thought that episodic algal blooms are due to mixing events that break down this equilibrium by adding nutrients to the mixed layer. Alternatively, rapid rates of biotic recycling among primary producers and heterotrophic consumers could maintain high phytoplankton biomass, yet the recycling process has been difficult to observe in situ. Here we use free-water oxygen measurements and an associated metabolic model to infer rates of phosphorus (P) uptake and biotic mineralization in the epilimnion of a eutrophic lake. The rates of uptake and mineralization were compared to “external” sources of P such as loading and entrainment. Also, model results were assessed using sensitivity analysis. We found that the majority of phytoplankton P demand during the period of low P availability could be accounted for by biotic mineralization, but that it was important to consider the effects of entrainment in order to account fully for P uptake. These general results were relatively insensitive to model parameterization, though the relative C:P ratio of material taken up versus mineralized was an important consideration. This study integrates modeling and measurement tools that monitor ecosystem processes at finer temporal resolution than has previously been possible, complementing other studies that use experimental incubation and elemental tracers. Extension of this approach could enhance models that aim to integrate biological and physical processes in assessment of water quality and prediction of phytoplankton biomass.
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ISSN:1015-1621
1420-9055
DOI:10.1007/s00027-009-9165-7