Predator–Prey Relationships in a Two-Species Toxicity Test System

In a two-species toxicity test system survival and reproduction of both the predator Hypoaspis aculeifer(Gamasida) and the prey Folsomia fimetaria(Collembola) were studied after 21 days of residual exposure to a soil contamination of the insecticide dimethoate. Additional experiments were run to ana...

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Bibliographic Details
Published in:Ecotoxicology and environmental safety 1997-08, Vol.37 (3), p.203-212
Main Authors: Hamers, Timo, Krogh, Paul Henning
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Animals
Applied ecology
Biological and medical sciences
Dimethoate - toxicity
Ecotoxicology, biological effects of pollution
Fundamental and applied biological sciences. Psychology
Insecta - drug effects
Insecticides - toxicity
Leerstoelgroep Toxicologie
Mites - drug effects
Population Dynamics
Reproduction - drug effects
Soil Pollutants - toxicity
Sub-department of Toxicology
Survival Analysis
Terrestrial environment, soil, air
Toxicity Tests
Toxicologie
Toxicology
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Summary:In a two-species toxicity test system survival and reproduction of both the predator Hypoaspis aculeifer(Gamasida) and the prey Folsomia fimetaria(Collembola) were studied after 21 days of residual exposure to a soil contamination of the insecticide dimethoate. Additional experiments were run to analyze which species–species and compound–species relationships determine the outcome of this two–species experiment. Number of adult F. fimetariawere reduced by both predation and dimethoate exposure, whereas mites preyed less efficiently on adults than on juveniles. At 0.357 mg dimethoate/kg soil, numbers of juvenile F. fimetariawere mainly reduced by predation on adults and juveniles. At 0.7 mg/kg, an additional dimethoate effect was found, which was attributed to an effect on the reproduction of F. fimetaria, mainly due to lethality of adults. It was reasoned that lethal effects on juvenile springtails are less important. Adult H. aculeiferwas not affected by dimethoate exposure, whereas numbers of juvenile H. aculeiferdemonstrated a decline only at the highest concentration of 0.7 mg/kg. It is hypothesized that this latter effect is possibly due to food depletion caused by a decreased availability of prey, rather than to the lethal effects of dimethoate on juvenile mites. Such a secondary effect of a pesticide application could not have been derived from a single-species toxicity experiment and demonstrates the additional value of a two-species toxicity test system.
ISSN:0147-6513
1090-2414
DOI:10.1006/eesa.1997.1557