Top-down control in freshwater lakes: the role of nutrient state, submerged macrophytes and water depth

Based on data from 233 Danish lakes, enclosure experiments, full-scaleexperiments and published empirical models we present evidence that top-downcontrol is more important in shallow lakes than in deep lakes, excepting lakeswith a high abundance of submerged macrophytes. The evidence in support is:...

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Published in:	Hydrobiologia Vol. 342-343; p. 151
Main Authors:	Jeppesen, Erik, Jensen, Jens Peder, Søndergaard, Martin, Lauridsen, Torben, Pedersen, Leif Junge, Jensen, Lars
Format:	Journal Article Conference Proceeding
Language:	English
Published:	Dordrecht Springer Nature B.V 01-01-1997
Subjects:	Aquatic ecosystems Aquatic plants Benthic fauna Community structure Epilimnion Eutrophic lakes Eutrophication Freshwater Freshwater lakes Lakes Nutrients Plankton Prey Water depth Zooplankton Denmark
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Abstract	Based on data from 233 Danish lakes, enclosure experiments, full-scaleexperiments and published empirical models we present evidence that top-downcontrol is more important in shallow lakes than in deep lakes, excepting lakeswith a high abundance of submerged macrophytes. The evidence in support is: (1)That at a given epilimnion total phosphorus concentration (TP) the biomass offish per m^sup 2^ is independent of depth, which means that biomassper m^sup 3^is markedly higher in shallow lakes. (2) That the biomass of benthic invertebratesis higher in shallow lakes, which means that the benthi-planktivorous fish areless dependent on zooplankton prey than in deep lakes. By their ability to shiftto zooplankton predation their density can remain high even in periods whenzooplankton is scarce and they can thereby maintain a potentially high predationpressure on zooplankton. (3) That the possibilities of cladocerans to escapepredation by vertical migration are less. (4) That the zooplankton:phytoplanktonmass ratio per m^sup 2^ is lower and presumably then also thegrazing pressure onphytoplankton. (5) That nutrient constraints appear to be weaker, as evidenced bythe fact that at a given annual mean TP, summer TP is considerably higher inshallow lakes, especially in eutrophic lakes lacking submerged macrophytes. (6)That negative feedback on cladocerans by cyanobacteria is lower as cyanobacterialdominance is less frequent in shallow lakes and more easily broken (at least inNorthern temperate lakes), and (7) That top-down control by benthi-planktivorousfish is markedly reduced in lakes rich in submerged macrophytes because theplants serve as a refuge for pelagic cladocerans and encouragepredatory fish at the expense of prey fish. We conclude that manipulation of fishand submerged macrophytes may have substantial impact on lake ecosystems, inparticular in shallow eutrophic lakes. On the contrary, if the conditions formore permanent changes in plant abundance or fish community structure are lackingthe feed-back mechanisms that endeavour a return to the original turbid state willbe particularly strong in shallow lakes.[PUBLICATION ABSTRACT]
AbstractList	Based on data from 233 Danish lakes, enclosure experiments, full-scale experiments and published empirical models we present evidence that top-down control is more important in shallow lakes than in deep lakes, excepting lakes with a high abundance of submerged macrophytes. The evidence in support is: (1) That at a given epilimnion total phosphorus concentration (TP) the biomass of fish per m super(2) is independent of depth, which means that biomass per m super(3) is markedly higher in shallow lakes. (2) That the biomass of benthic invertebrates is higher in shallow lakes, which means that the benthi-planktivorous fish are less dependent on zooplankton prey than in deep lakes. By their ability to shift to zooplankton predation their density can remain high even in periods when zooplankton is scarce and they can thereby maintain a potentially high predation pressure on zooplankton. (3) That the possibilities of cladocerans to escape predation by vertical migration are less. (4) That the zooplankton:phytoplankton mass ratio per m super(2) is lower and presumably then also the grazing pressure on phytoplankton. (5) That nutrient constraints appear to be weaker, as evidenced by the fact that at a given annual mean TP, summer TP is considerably higher in shallow lakes, especially in eutrophic lakes lacking submerged macrophytes. (6) That negative feedback on cladocerans by cyanobacteria is lower as cyanobacterial dominance is less frequent in shallow lakes and more easily broken (at least in Northern temperate lakes), and (7) That top-down control by benthi-planktivorous fish is markedly reduced in lakes rich in submerged macrophytes because the plants serve as a refuge for pelagic cladocerans and encourage predatory fish at the expense of prey fish. We conclude that manipulation of fish and submerged macrophytes may have substantial impact on lake ecosystems, in particular in shallow eutrophic lakes. On the contrary, if the conditions for more permanent changes in plant abundance or fish community structure are lacking the feed-back mechanisms that endeavour a return to the original turbid state will be particularly strong in shallow lakes. Based on data from 233 Danish lakes, enclosure experiments, full-scaleexperiments and published empirical models we present evidence that top-downcontrol is more important in shallow lakes than in deep lakes, excepting lakeswith a high abundance of submerged macrophytes. The evidence in support is: (1)That at a given epilimnion total phosphorus concentration (TP) the biomass offish per m^sup 2^ is independent of depth, which means that biomassper m^sup 3^is markedly higher in shallow lakes. (2) That the biomass of benthic invertebratesis higher in shallow lakes, which means that the benthi-planktivorous fish areless dependent on zooplankton prey than in deep lakes. By their ability to shiftto zooplankton predation their density can remain high even in periods whenzooplankton is scarce and they can thereby maintain a potentially high predationpressure on zooplankton. (3) That the possibilities of cladocerans to escapepredation by vertical migration are less. (4) That the zooplankton:phytoplanktonmass ratio per m^sup 2^ is lower and presumably then also thegrazing pressure onphytoplankton. (5) That nutrient constraints appear to be weaker, as evidenced bythe fact that at a given annual mean TP, summer TP is considerably higher inshallow lakes, especially in eutrophic lakes lacking submerged macrophytes. (6)That negative feedback on cladocerans by cyanobacteria is lower as cyanobacterialdominance is less frequent in shallow lakes and more easily broken (at least inNorthern temperate lakes), and (7) That top-down control by benthi-planktivorousfish is markedly reduced in lakes rich in submerged macrophytes because theplants serve as a refuge for pelagic cladocerans and encouragepredatory fish at the expense of prey fish. We conclude that manipulation of fishand submerged macrophytes may have substantial impact on lake ecosystems, inparticular in shallow eutrophic lakes. On the contrary, if the conditions formore permanent changes in plant abundance or fish community structure are lackingthe feed-back mechanisms that endeavour a return to the original turbid state willbe particularly strong in shallow lakes.[PUBLICATION ABSTRACT] Data from 233 Danish lakes, enclosure experiments, and literature models provide evidence that top-down biomanipulation is more important in shallow lakes than in deep ones (except for shallow lakes having abundant submerged macrophytes). This evidence is discussed. Fish biomass per unit volume is much higher in shallow lakes. Benthic invertebrate biomass also is higher in shallow lakes-benthi-planktivorous fish depend less on zooplankton than when in deep lakes, and can shift to other food sources when zooplankton are scarce, thus maintaining their high density. Cladocerans are less able to escape predators by vertical migration. The zooplankton:phytoplankton mass ratio per unit area is lower in shallow lakes. Nutrient constraints in shallow lakes appear to be weaker than in deep lakes. Top-down control by stocking of benthi-planktivorous fish is greatly reduced in lakes having abundant submerged macrophytes, which can serve as a refuge for cladocerans, encouraging predatory fish at the expense of prey fish. Manipulation of fish and submerged macrophytes may have significant impacts in shallow eutrophic lake systems.
Author	Søndergaard, Martin Jensen, Lars Jeppesen, Erik Pedersen, Leif Junge Jensen, Jens Peder Lauridsen, Torben
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Snippet	Based on data from 233 Danish lakes, enclosure experiments, full-scaleexperiments and published empirical models we present evidence that top-downcontrol is... Data from 233 Danish lakes, enclosure experiments, and literature models provide evidence that top-down biomanipulation is more important in shallow lakes than... Based on data from 233 Danish lakes, enclosure experiments, full-scale experiments and published empirical models we present evidence that top-down control is...
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SubjectTerms	Aquatic ecosystems Aquatic plants Benthic fauna Community structure Epilimnion Eutrophic lakes Eutrophication Freshwater Freshwater lakes Lakes Nutrients Plankton Prey Water depth Zooplankton
Title	Top-down control in freshwater lakes: the role of nutrient state, submerged macrophytes and water depth
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