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Nitrogen uptake by phytoplankton and bacteria during an induced Phaeocystis pouchetii bloom, measured using size fractionation and flow cytometric sorting
Bradley, PB Sanderson, MP Nejstgaard, JC Sazhin, AF Frischer, ME Killberg-Thoreson, LM Verity, PG Campbell, L Bronk, DA
Bradley, PB
Sanderson, MP
Nejstgaard, JC
Sazhin, AF
Frischer, ME
Killberg-Thoreson, LM
Verity, PG
Campbell, L
Bronk, DA
Abstract
Uptake of inorganic and organic nitrogen (N) by phytoplankton and bacteria was investigated during a mesocosm study conducted in Raunefjord, Norway in April 2005. One mesocosm was fertilized with nitrate and phosphate at a ratio of 16:1 and maintained in the light, while one unamended light mesocosm served as a control. Dissolved nutrients, phytoplankton and bacterial biomass, and phytoplankton community composition were monitored throughout the 26 d experiment. Uptake of (15)N-labeled ammonium and nitrate, and dual-labeled ((15)N and (13)C) urea and dissolved free amino acids (DFAA) was measured for phytoplankton and bacteria using 2 methods: size fractionation into 0.2-0.8 and > 0.8 pm size classes, and flow cytometric sorting based on chlorophyll autofluorescence. Prior to fertilization, dissolved inorganic N concentrations were low and comprised similar to 5% of total dissolved N. Added nitrate was completely utilized in the amended mesocosm within 10 d, stimulating a large bloom of colonial Phaeocystis pouchetii. Ammonium contributed over half of total measured N uptake by phytoplankton and bacteria in both enclosures, while nitrate and urea each supplied roughly 10 to 25%. Overall, DFAA were a negligible N source to phytoplankton but contributed 11 % to total bacterial N uptake. Bacterial uptake represented a significant portion of total uptake of all N forms, especially urea and DFAA. Comparison of the 2 methods for measuring phytoplankton versus bacterial uptake demonstrates how the use of 0.8 mu m filters can lead to significant overestimation of phytoplankton N uptake due to the retention of bacterial biomass.
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2010-01-01
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Biological Sciences Peer-Reviewed Articles, Long-Term Changes; North-Sea; Organic Nitrogen; Spring Bloom; Marine-Phytoplankton; Natural-Populations; Inorganic Nitrogen; Coastal Waters; Nutrient; Ammonium
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Virginia Institute of Marine Science
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https://doi.org/10.3354/ame01414