Population Growth Rate And Carrying Capacity For Springtails Folsomia Candida Exposed To Ivermectin

Forecasting the effects of stressors on the dynamics of natural populations requires assessment of the joint effects of a stressor and population density on the population response. The effects can be depicted as a contour map in which the population response, here assessed by population growth rate...

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Bibliographic Details
Published in:Ecological applications 2006-04, Vol.16 (2), p.656-665
Main Authors: Noël, Helen L., Hopkin, Steve P., Hutchinson, Thomas H., Williams, Tim D., Sibly, Richard M.
Format: Article
Language:English
Subjects:
Animals
Applied ecology
Arthropods - physiology
Carrying capacity
Collembola
density dependence
drug residues
Eating - drug effects
Ecotoxicology
Fecundity
Fertility - drug effects
Folsomia candida
food availability
Food consumption
food intake
Insecticides - toxicity
ivermectin
Ivermectin - toxicity
microarthropod
oral administration
Population Density
Population Growth
Population growth rate
soil
soil arthropods
soil invertebrate
Soil pollution
Soil toxicity
springtail
Toxicants
toxicity
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Summary:Forecasting the effects of stressors on the dynamics of natural populations requires assessment of the joint effects of a stressor and population density on the population response. The effects can be depicted as a contour map in which the population response, here assessed by population growth rate, varies with stress and density in the same way that the height of land above sea level varies with latitude and longitude. We present the first complete map of this type using as our model Folsomia candida exposed to five different concentrations of the widespread anthelmintic veterinary medicine ivermectin in replicated microcosm experiments lasting 49 days. The concentrations of ivermectin in yeast were 0.0, 6.8, 28.8, 66.4, and 210.0 mg/L wet weight. Increasing density and chemical concentration both significantly reduced the population growth rate of Folsomia candida, in part through effects on food consumption and fecundity. The interaction between density and ivermectin concentration was "less-than-additive," implying that at high density populations were able to compensate for the effects of the chemical. This result demonstrates that regulatory protocols carried out at low density (as in most past experiments) may seriously overestimate effects in the field, where densities are locally high and populations are resource limited (e.g., in feces of livestock treated with ivermectin).
ISSN:1051-0761
1939-5582
DOI:10.1890/1051-0761(2006)016[0656:PGRACC]2.0.CO;2