Effects of a triazole fungicide and a pyrethroid insecticide on the decomposition of leaves in the presence or absence of macroinvertebrate shredders
- 作者:Jes Jessen Rasmussena ; jr@dmu.dk ; Rikke Juul Monberga ; b ; Annette Baattrup-Pedersena ; Nina Cedergreenc ; Peter Wiberg-Larsena ; Bjarne Strobelc ; Brian Kronvanga
- 关键词:Leaf litter decomposition ; Pesticides ; Macroinvertebrates ; Microorganisms ; Mixture ; Pulse exposure
- 刊名:Aquatic Toxicology
- 出版年:2012
- 期刊代码:19_0166445x
- 类别:abs
- 出版时间:15 August, 2012
- 卷:118-119
- 期:Complete
- 页码:54-61
- 文件大小:478 K
摘要
Previously, laboratory experiments have revealed that freely diluted azole fungicides potentiate the direct toxic effect of pyrethroid insecticides on Daphnia magna. More ecologically relevant exposure scenarios where pesticides are adsorbed have not been addressed. In this study we exposed beech leaves (Fagus sylvatica) to the azole fungicide propiconazole (50 or 500 渭g L鈭?), the pyrethroid insecticide alpha-cypermethrin (0.1 or 1 渭g L鈭?) or any combination of the two for 3 h. Exposed leaves were transferred to aquaria with or without an assemblage of macroinvertebrate shredders, and we studied treatment effects on rates of microbial leaf decomposition, microbial biomass (using C:N ratio as a surrogate measure) and macroinvertebrate shredding activity during 26 days post-exposure. Microbial leaf decomposition rates were significantly reduced in the propiconazole treatments, and the reduction in microbial activity was significantly correlated with loss of microbial biomass (increased C:N ratio). Macroinvertebrate shredding activity was significantly reduced in the alpha-cypermethrin treatments. In addition, the macroinvertebrate assemblage responded to the propiconazole treatments by increasing their consumption of leaf litter with lower microbial biomass, probably to compensate for the reduced nutritional quality of this leaf litter. We found no interaction between the two pesticides on macroinvertebrate shredding activity, using Independent Action as a reference model. In terms of microbial leaf decomposition rates, however, alpha-cypermethrin acted as an antagonist on propiconazole. Based on these results we emphasise the importance of considering indirect effects of pesticides in the risk assessment of surface water ecosystems.