Assessment on acute and multigenerational toxicity of 1,3-diphenylguanidine (DPG) on freshwater water fleas (Moina macrocopa): Developmental, reproductive and oxidative stress effects

IF 9 Q1 ENVIRONMENTAL SCIENCES Environmental Chemistry and Ecotoxicology Pub Date : 2024-10-10 DOI:10.1016/j.enceco.2024.10.001
Suman Thodhal Yoganandham , Soo-Yeon Kim , Younghoon Jang , Junho Jeon
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Abstract

Tire particles leach 1,3-diphenylguanidine (DPG) into aquatic environments, raising concern about the chemical, and ecological impact. This study investigated the acute and multigenerational chronic effects of DPG on freshwater water fleas (Moina macrocopa), focusing on toxicity, reproductive and growth implications, antioxidant responses and oxidative stress biomarkers. Acute exposure revealed dose-dependent mortality increase with a significant reduction in Chronic exposure to a sub-lethal concentration of 0.5 mg/L DPG across four generations (P0, F1, F2, and F3) demonstrated substantial declines in reproductive output and growth metrics, alongside increased reactive oxygen species (ROS)activity and suppressed antioxidant enzyme activities, including, superoxide dismutase (SOD), catalase (CAT). Glutathione levels (GSH and GSSG) were reduced, with elevated GSH/GSSG ratios suggesting disrupted redox homeostasis. Pearson correlation analysis highlighted significant relationships between DPG presence and physiological and biochemical parameters, indicating a potential cascade of adverse effects stemming from oxidative stress. These findings underscore the ecological risk of DPG exposure, warranting further investigation into its toxicological pathways to protect aquatic ecosystems.
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评估 1,3-二苯基胍(DPG)对淡水水蚤(Moina macrocopa)的急性毒性和多代毒性:对发育、生殖和氧化应激的影响
轮胎颗粒将 1,3-二苯基胍(DPG)渗入水生环境,引起了人们对其化学性质和生态影响的关注。本研究调查了 DPG 对淡水水蚤(Moina macrocopa)的急性和多代慢性影响,重点是毒性、生殖和生长影响、抗氧化反应和氧化应激生物标志物。急性接触显示死亡率呈剂量依赖性增加,慢性接触亚致死浓度 0.5 毫克/升 DPG 的四代(P0、F1、F2 和 F3)死亡率显著降低,生殖产量和生长指标大幅下降,活性氧(ROS)活性增加,超氧化物歧化酶(SOD)和过氧化氢酶(CAT)等抗氧化酶活性受到抑制。谷胱甘肽水平(GSH 和 GSSG)降低,GSH/GSSG 比率升高,表明氧化还原平衡被破坏。皮尔逊相关性分析表明,DPG 的存在与生理生化参数之间存在显著关系,这表明氧化应激可能会产生一连串的不利影响。这些发现强调了暴露于 DPG 的生态风险,值得进一步研究其毒理学途径,以保护水生生态系统。
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