Effects of neonicotinoid and diamide-contaminated agricultural runoff on Lymnaea stagnalis: Insights into stress, neurotoxicity, and antioxidant response
Veronica Rivi , Grace Pele , Kate Yakubets , Anuradha Batabyal , Roberto Dominici , Johanna Maria Catharina Blom , Fabio Tascedda , Cristina Benatti , Ken Lukowiak
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引用次数: 0
Abstract
Freshwater pollution from agrochemicals poses an increasing threat to aquatic ecosystems. Yet, the sublethal effects of such contaminants on cognition and neural function in non-target invertebrate species remain poorly understood. Using a field-collected source of pesticide-contaminated freshwater (Spirit Creek Pond water, SCW) and two Lymnaea stagnalis strains, one collected directly from Spirit Creek (SC strain) and another inbred laboratory strain (W strain), we address the core questions: (1) what are the transcriptional consequences of SCW exposure? (2) are these effects strain-specific? (3) does SCW impair higher-order configural learning (CL)? (4) and, if so, can cognitive function recover following a 14-day washout period in uncontaminated water? SCW exposure significantly altered the expression levels of stress-response and cholinergic receptors in a strain-dependent manner. In both strains, LymHSP70 and LymSOD1 were significantly upregulated during exposure and downregulated after washout, indicating acute stress with partial transcriptional recovery. In W-strain snails, LymGSR was uniquely and persistently upregulated post-washout, suggesting sustained oxidative imbalance. Moreover, W-strain snails exhibited significant upregulation of cholinergic receptor genes LymnAChR_G and LymnAChR_E during SCW exposure, followed by downregulation after washout, suggesting a reversible but lasting disruption in cholinergic signaling. Behaviorally, CL was abolished in both strains following SCW exposure, with no evidence of cognitive recovery after the washout period. These results demonstrate that exposure to environmentally relevant contaminants induces lasting neurobehavioral impairments and molecular dysregulation in L. stagnalis, with strain-specific differences in susceptibility and recovery. Our findings underscore the need for long-term ecological monitoring of freshwater neurotoxicants and their impacts on invertebrate neural health and cognition.
期刊介绍:
Aquatic Toxicology publishes significant contributions that increase the understanding of the impact of harmful substances (including natural and synthetic chemicals) on aquatic organisms and ecosystems.
Aquatic Toxicology considers both laboratory and field studies with a focus on marine/ freshwater environments. We strive to attract high quality original scientific papers, critical reviews and expert opinion papers in the following areas: Effects of harmful substances on molecular, cellular, sub-organismal, organismal, population, community, and ecosystem level; Toxic Mechanisms; Genetic disturbances, transgenerational effects, behavioral and adaptive responses; Impacts of harmful substances on structure, function of and services provided by aquatic ecosystems; Mixture toxicity assessment; Statistical approaches to predict exposure to and hazards of contaminants
The journal also considers manuscripts in other areas, such as the development of innovative concepts, approaches, and methodologies, which promote the wider application of toxicological datasets to the protection of aquatic environments and inform ecological risk assessments and decision making by relevant authorities.