Microzooplankton grazing and nitrogen excretion across a surface estuarine-coastal interface |
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Authors: | John C Lehrter Jonathan R Pennock George B McManus |
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Institution: | 1. The University of Alabama and Dauphin Island Sea Lab, P.O. Box 369-370, 36528, Dauphin Island, Alabama 2. The University of Alabama Aquatic Biology Program, Box 870206, 35487, Tuscaloosa, Alabama 3. Dauphin Island Sea Lab, P.O. Box 369-370, 36528, Dauphin Island, Alabama
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Abstract: | The role of the microzooplankton community in regulating phytoplankton biomass was examined across a gradient from a river-dominated
estuary to an oceanic-influenced coastal zone. Three stations located along a salinity gradient from the central region of
Mobile Bay to 10 km off the coast were sampled from May 1994 to August 1995. Microzooplankton herbivory rates on phytoplankton
and microzooplankton excretion of nitrogen derived from phytoplankton were estimated using the dilution technique. Microzooplankton
grazing rates (range of station means=0.57–1.10 d−1) and phytoplankton growth rates (0.70–1.62 d−1) both increased across the salinity gradient from the bay station to the offshore station. However, the percent of primary
production grazed per day was highest at the bay station (mean=83%) and decreased to a low at the offshore station (mean=64%).
Excretion of phytoplankton-derived nitrogen by the microzooplankton was greatest at the bay and bay mouth stations. Excreted
nitrogen could potentially supply 39%, 29%, and 20% of phytoplankton nitrogen demand at the bay, bay mouth, and offshore stations,
respectively. These results support the idea that herbivorous microzooplankton are important in mediating nitrogen flow to
both lower and higher trophic levels. *** DIRECT SUPPORT *** A01BY085 00012 |
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