Dawoud, Mohab
- Institutionen för vatten och miljö, Sveriges lantbruksuniversitet
- Low Emission Capacity Building Project
Forskningsartikel2017Vetenskapligt granskad
Dawoud, Mohab; Bundschuh, Mirco; Goedkoop, Willem; McKie, Brendan G.
Freshwater ecosystems are often affected by cocktails of multiple pesticides targeting different organism groups. Prediction and evaluation of the ecosystem-level effects of these mixtures is complicated by the potential not only for interactions among the pesticides themselves, but also for the pesticides to alter biotic interactions across trophic levels. In a stream microcosm experiment, we investigated the effects of two pesticides targeting two organism groups (the insecticide lindane and fungicide azoxystrobin) on the functioning of a model stream detrital food web consisting of a detritivore (Ispoda: Asellus aquaticus) and microbes (an assemblage of fungal hyphomycetes) consuming leaf litter. We assessed how these pesticides interacted with the presence and absence of the detritivore to affect three indicators of ecosystem functioning - leaf decomposition, fungal biomass, fungal sporulation - as well as detritivore mortality. Leaf decomposition rates were more strongly impacted by the fungicide than the insecticide, reflecting especially negative effects on leaf processing by detritivores. This result most like reflects reduced fungal biomass and increased detritivore mortality under the fungicide treatment. Fungal sporulation was elevated by exposure to both the insecticide and fungicide, possibly representing a stress-induced increase in investment in propagule dispersal. Stressor interactions were apparent in the impacts of the combined pesticide treatment on fungal sporulation and detritivore mortality, which were reduced and elevated relative to the single stressor treatments, respectively. These results demonstrate the potential of trophic and multiple stressor interactions to modulate the ecosystem-level impacts of chemicals, highlighting important challenges in predicting, understanding and evaluating the impacts of multiple chemical stressors on more complex food webs in situ. (C) 2017 Elsevier B.V. All rights reserved.
Ecosystem processes; Invertebrates; Fungi; Microbes; Multi-stressor interactions; Non-target organisms; Pesticides; PICT
Aquatic Toxicology
2017, Volym: 186, sidor: 215-221
Utgivare: ELSEVIER SCIENCE BV
SLU Nätverk växtskydd
SDG3 Säkerställa hälsosamma liv och främja välbefinnande för alla i alla åldrar
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SDG14 Bevara och nyttja haven och de marina resurserna på ett hållbart sätt för en hållbar utveckling
SDG15 Skydda, återställa och främja ett hållbart nyttjande av landbaserade ekosystem, hållbart bruka skogar, bekämpa ökenspridning, hejda och vrida tillbaka markförstöringen samt hejda förlusten av biologisk mångfald
Miljövetenskap
DOI: https://doi.org/10.1016/j.aquatox.2017.03.008
https://res.slu.se/id/publ/83059