Pheopigment dynamics, zooplankton grazing rates and the autumnal ammonium peak in a Mediterranean lagoon

The dilution technique was used to estimate chlorophyll and pheopigment, net and gross production as well as zooplankton grazing over a 12-month period in a coastal lagoon in Southern France. Chlorophyll a (Cha) based gross growth rates of phytoplankton ranged from undetectable in February to 2.6 da...

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Bibliographic Details
Published in:Hydrobiologia 2005-11, Vol.550 (1), p.83-93
Main Authors: COLLOS, Yves, HUSSEINI-RATREMA, Julie, BEC, Béatrice, VAQUER, André, THONG LAM HOAI, ROUGIER, Claude, PONS, Virginie, SOUCHU, Philippe
Format: Article
Language:English
Subjects:
Ammonium
Animal and plant ecology
Animal, plant and microbial ecology
Biodiversity and Ecology
Biological and medical sciences
Chlorophyll
Environmental Sciences
Fundamental and applied biological sciences. Psychology
General aspects
Grazing
Lagoons
Oysters
Photodegradation
Phytoplankton
Plankton
Primary production
Synecology
Water column
Water temperature
Zooplankton
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Summary:The dilution technique was used to estimate chlorophyll and pheopigment, net and gross production as well as zooplankton grazing over a 12-month period in a coastal lagoon in Southern France. Chlorophyll a (Cha) based gross growth rates of phytoplankton ranged from undetectable in February to 2.6 day^sup -1^ in June, corresponding to 3.8 divisions per day. Cha-based grazing rates ranged from undetectable in February to 1.1 d^sup -1^ in June. The seasonal growth pattern of picoplankton was similar to that of the whole community, with a peak in July, corresponding to four divisions per day. Grazing processes represented from 20 to 150% of the phytoplankton daily growth, and the grazing pressure was stronger on small phytoplankton cells than on larger cells. Gross growth rates of phytoplankton were related to zooplankton grazing rates, and both were related to water temperature. Mesozooplankton which escaped sampling or oysters had to be also invoked as additional sinks for the primary production. In the fall, pheopigment concentrations greater than chlorophyll concentrations coincided with high ammonium levels in the water column. Pheopigment a production rates were highly correlated to chlorophyll -based microzooplankton grazing rates. The pheopigment a to chlorophyll a ratio was correlated with ammonium concentrations and could be used an index of the balance between ammonium supply (degradation) and demand (uptake by phytoplankton). In addition, pheopigment degradation rates in absence of grazing could be related to irradiance, indicating photo-degradation of these compounds.[PUBLICATION ABSTRACT]
ISSN:0018-8158
1573-5117
DOI:10.1007/s10750-005-4365-1