Projects per year
Abstract
Environmental ambient temperature significantly impacts the metabolic activities of aquatic ectotherm organisms and influences the fate of various chemicals. Although numerous studies have shown that the acute lethal toxicity of most chemicals increases with increasing temperature, the impact of temperature on chronic effects — encompassing both lethal and sublethal endpoints — has received limited attention. Furthermore, the mechanisms linking temperature and toxicity, potentially unveiled by toxicokinetic-toxicodynamic models (TKTD), remains inadequately explored. This study investigated the effects of environmentally relevant concentrations of the insecticide imidacloprid (IMI) on the growth and survival of the freshwater amphipod Gammarus pulex at two different temperatures. Our experimental design was tailored to fit a TKTD model, specifically the Dynamic Energy Budget (DEB) model. We conducted experiments spanning three and six months, utilizing small G. pulex juveniles. We observed effects endpoints at least five times, employing both destructive and non-destructive methods, crucial for accurate model fittings. Our findings reveal that IMI at environmental concentrations (up to 0.3 μg/L) affects the growth and survival of G. pulex, albeit with limited effects, showing a 10% inhibition compared to the control group. These limited effects, observed in both lethal and sublethal aspects, suggest a different mode of action at low, environmentally-relevant concentrations in long-term exposure (3 months), in contrast to previous studies which applied higher concentrations and found that sublethal effects occurred at significantly lower levels than lethal effects in an acute test setting (4 days). Moreover, after parameterizing the DEB model for various temperatures, we identified a lower threshold for both lethal and sublethal effects at higher temperatures, indicating increased intrinsic sensitivity. Overall, this study contributes to future risk assessments considering temperature as a crucial factor and exemplifies the integration of the DEB model into experimental design for comprehensive toxicity evaluations.
Original language | English |
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Article number | 142511 |
Journal | Chemosphere |
Volume | 361 |
DOIs | |
Publication status | Published - Aug 2024 |
Keywords
- Aquatic ecosystems
- Chemical stress
- Climate warming
- Mechanism models
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Dive into the research topics of 'A dynamic energy budget (DEB) model to assess the sublethal effects of imidacloprid toward Gammarus pulex at different temperatures'. Together they form a unique fingerprint.Datasets
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Data for: A dynamic energy budget (DEB) model to assess the sublethal effects of imidacloprid toward Gammarus pulex at different temperatures
Huang, A. (Creator), van den Brink, P. (Creator), van den Brink, N. (Creator) & Baas, J. (Creator), Wageningen University & Research, 8 Jan 2024
DOI: 10.17632/69hbywn6vx
Dataset
Projects
- 1 Active
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Effecten op waterorganismen in kader van NL en EU toelating (BO-43-208.01-002, BO-43-102.01-001, BO-43-011.01-001, BO-20-002-001)
1/01/13 → 31/12/25
Project: LVVN project