Impact of three-spined stickleback Gasterosteus aculeatus on zooplankton and chl a in shallow, eutrophic, brackish lakes

The 3-spined stickleback Gasterosteus aculeatus often dominates fish communities in eutrophic, brackish, north-temperate lakes where it is thought to contribute significantly to the low zooplankton biomass and low grazing pressure on phytoplankton. To elucidate its effect on zooplankton community st...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) 2003-01, Vol.262, p.277-284
Main Authors: JAKOBSEN, Tue Stenholm, HANSEN, Pia Borch, JEPPESEN, Erik, GRØNKJAER, Peter, SØNDERGAARD, Martin
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Brachionus
Brackish water ecosystems
Cyclops vicinus
Eucyclops serrulatus
Eurytemora affinis
Fundamental and applied biological sciences. Psychology
Gasterosteus aculeatus
Keratella
Marine
Megacyclops
Mesocyclops leuckarti
Polyarthra
Sea water ecosystems
Synecology
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Summary:The 3-spined stickleback Gasterosteus aculeatus often dominates fish communities in eutrophic, brackish, north-temperate lakes where it is thought to contribute significantly to the low zooplankton biomass and low grazing pressure on phytoplankton. To elucidate its effect on zooplankton community structure and phytoplankton biomass (chl a), we conducted a 5.5 mo enclosure experiment with sticklebacks at different densities in high nutrient concentrations and a salinity of 2 psu. Increasing fish density (0 to 10.2 sticklebacks/m super(2)) led to substantial changes in the zooplankton community structure, an increase in phytoplankton chl a, and a reduction in water clarity. At densities below 4 to 6 sticklebacks/m super(2), large-bodied cladocerans dominated the zooplankton biomass, the zooplankton:phytoplankton biomass ratio was high (>1), and chl a was accordingly low < 20 mu g/L). At higher stickleback densities, large cladocerans disappeared and the abundance of small cladocerans was low. Instead, cyclopoid copepods and rotifers dominated, the zooplankton:phytoplankton biomass ratio was well below 0.5, and chl a exceeded 200 mu g/L in late summer. The fish density level for a shift from a clear to a turbid state is low compared to the densities observed in several eutrophic, brackish lagoons. We conclude that fish have a strong impact on water clarity in shallow, eutrophic, brackish lakes with low salinity, which may explain the usually low zooplankton:phytoplankton biomass ratio and the turbid state of such aquatic environments. However, our results also indicate that once the density level declines to below 4 to 6 sticklebacks /m super(2), a shift to a clear state is likely to occur.
ISSN:0171-8630
1616-1599
DOI:10.3354/meps262277