Herbicide effects on planktonic systems of different complexity

Lampert, Winfried; Fleckner, Walter; Pott, Eckart; Schober, Ursula; Störkel, Karl-Ulrich

doi:10.1007/bf00027809

Cited by 82 publications

(25 citation statements)

References 13 publications

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“…Our results also clearly indicate that not only does the particle-bound pyrethroids affect the individual but they also influence the interactions between members of different levels of the food web. It is even possible that the pesticides will have a cascading effect through the ecosystem as described for herbicides in lakes by Lampert, Fleckner, Pott, Schober, and Storkel (1989). In this way the effects of pesticides at the individual level might have even stronger impact on the functioning of the entire stream ecosystem.…”

Section: Resultsmentioning

confidence: 97%

Occurrence of Sediment-Bound Pyrethroids in Danish Streams and their Impact on Ecosystem Function

Lauridsen

Kronvang²,

Friberg³

2006

Water Air Soil Pollut: Focus

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In a total of 189 water samples collected from Danish streams no traces of the pyrethroid esfenvalerate were detected. However, pyrethroids have previously been found in sediments in 9 out of 30 streams investigated. We found that the shredding activity of the Trichopteran Sericostoma personatum and the amphipod Gammarus pulex was significantly reduced with increased concentration of the pyrethroid lambda-cyhalohtrin adsorbed to the leaves on which they fed. Predation rate on the Plecopteran Leuctra nigra by the leech Erpobdella octoculata increased significantly with increasing concentration of lambda-cyhalothrin on the leaves on which L. nigra was fed. Our results clearly indicate that the ongoing monitoring of pesticides is likely to underestimate pyrethroid occurrence and that sediment-bound pyrethroids have a potential negative impact on ecosystem function and biotic interactions in streams.

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Section: Resultsmentioning

confidence: 97%

Occurrence of Sediment-Bound Pyrethroids in Danish Streams and their Impact on Ecosystem Function

Lauridsen

Kronvang²,

Friberg³

2006

Water Air Soil Pollut: Focus

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“…The natural composition of algal community, with interspcific interactions, increases the complexity of the system studied. It is possible that this complexity increases the sensitivity of our phytoplankton system to a stress like DMSO solvent (Lampert et al 1989). These results confirm the potential effect of solvents on natural assemblages of phytoplankton and the necessity to perform preliminary experiments with DMSO when the use of organic solvent in ecotoxicological phytoplankton experiments is required.…”

Section: Resultsmentioning

confidence: 99%

Effect of Organic Four Solvents on Natural Phytoplankton Assemblages: Consequences for Ecotoxicological Experiments on Herbicides

Bérard¹

1996

Bulletin of Environmental Contamination and Toxicology

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“…In addition, others found sublethal effects in Daphnia species which, although not investigated, have the potential to affect interactions with rotifers vulnerable to interference competition . The herbicide atrazine decreased adult body size in Daphnia pulex (Schober & Lampert, 1977) and depressed feeding rates in D. pulicaria (Lampert et al, 1989) while the insecticide lindane decreased filtering rates in D. pulex (Gliwicz & Sieniawska, 1986) . Toxicity studies concerned only with lethal effects or relative susceptibilities ignore the aspect of species' interactions within complex ecosystems (Winner & Farrell, 1976) .…”

Section: Discussionmentioning

confidence: 99%

Effects of Microcystis aeruginosa on interference competition between Daphnia pulex and Keratella cochlearis

Sartonov

1995

Hydrobiologia

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Laboratory experiments tested the hypothesis that a toxic strain of Microcystis aeruginosa decreases the ability of Daphnia pulex to interfere with Keratella cochlearis . To test a variety of conditions, juvenile and adult Daphnia were exposed to the cyanobacterium for different time periods prior to, and during the experiments . Adult Daphnia not only suppressed rotifers over successive two-day intervals, but also had a significant impact within a 24-hour period . However, the presence of Microcystis (5 x 105 cells ml -1 ) decreased the Daphnia effect in both experiments . Although juvenile Daphnia also significantly suppressed Keratella population growth, the presence of Microcystis (10 5 and 5 x 10 5 cells ml -1 ) caused a significant reduction in daphniid body size and decreased the ability of both nonacclimated and acclimated daphniids to suppress rotifers . Keratella inhalation and mortality are positively correlated with filtering rates and body size of Daphnia . Therefore, the feeding rates and size structure of a Daphnia population will determine its potential to interfere with vulnerable rotifers . In all experiments the presence of Microcystis significantly decreased the ability of Daphnia to interfere with this rotifer despite the fact that Keratella was also inhibited. In the field this effect might be augmented if Microcystis colonies are more easily ingested by cladocerans than by the rotifers . 117

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Herbicide effects on planktonic systems of different complexity

Cited by 82 publications

References 13 publications

Occurrence of Sediment-Bound Pyrethroids in Danish Streams and their Impact on Ecosystem Function

Occurrence of Sediment-Bound Pyrethroids in Danish Streams and their Impact on Ecosystem Function

Effect of Organic Four Solvents on Natural Phytoplankton Assemblages: Consequences for Ecotoxicological Experiments on Herbicides

Effects of Microcystis aeruginosa on interference competition between Daphnia pulex and Keratella cochlearis

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