Phenanthrene toxicity during early development of the neotropical tree frog Dendropsophus branneri

IF 4.1 2区环境科学与生态学 Q1 MARINE & FRESHWATER BIOLOGY

Aquatic Toxicology Pub Date : 2025-01-06 DOI:10.1016/j.aquatox.2025.107239

Natallia Vívian Nascimento da Silva Maia, Maria Karolaine de Melo Alves, Célio Freire Mariz Jr, Pedro Ivo Simões, Paulo Sérgio Martins de Carvalho

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Abstract

Phenanthrene is considered a priority polycyclic aromatic hydrocarbon due to its ubiquitous presence in aquatic and terrestrial environments and its toxic potential. Tadpoles are sensitive ecotoxicological models that provide important information regarding effects of contaminants in amphibian species. The goal of the present study was to generate information regarding the acute and chronic toxicity of phenanthrene to the neotropical tree frog Dendropsophus branneri early life stages. Tadpoles at Gosner stage 25 were exposed to environmentally relevant concentrations of 10.8, 18.6, 76.2, 187.7, and 279.6 µg phenanthrene L−1 in two experiments with 15 and 60 days of exposure. Lethality, progression of development, final weight, swimming behavior and enzymatic biomarkers were analyzed. The lethal concentration of dissolved phenanthrene for 50 % of D. branneri tadpoles after 15 days of exposure was 154.8 µg L−1, typical of a sensitive species. Significant developmental delay was verified, with a lowest observed effect concentration (LOEC) of 76.2 µg L−1 and 10.8 µg L−1 after exposures of 15 and 60 days, respectively. Delay was measured based on the difference between the mean Gosner stage of controls and exposed tadpoles (Deltagosner). Deltagosner after 60 days of exposure ranged from 10 at 10.8 µg L−1 to 13 at 187.7 µg L−1, and tadpoles remained in the early stages of hind limb development (Gosner stages 28–32), in contrast to controls that reached stage 42 with fully formed forelimbs and hind limbs with toes at metamorphic climax. Glutathione-S-transferase and Catalase were induced in exposed tadpoles, possibly due to oxidative stress. Thigmotaxis was decreased in phenanthrene exposed tadpoles, indicating loss of anti-predatory behaviors. Final wet weight of exposed D.branneri tadpoles significantly decreased. Delayed development and slower growth rate are crucial factors for tadpole survival, and these effects of phenanthrene on D.branneri early stages potentially affects its recruitment to the adult stage.

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新热带树蛙发育早期的菲毒性

菲被认为是优先考虑的多环芳烃，因为它普遍存在于水生和陆地环境中，并且具有潜在的毒性。蝌蚪是敏感的生态毒理学模型，为污染物对两栖动物的影响提供了重要的信息。本研究的目的是产生有关菲对新热带树蛙早期急性和慢性毒性的信息。在两个实验中，Gosner阶段25的蝌蚪分别暴露于10.8、18.6、76.2、187.7和279.6µg的环境相关浓度的菲L−1，暴露时间分别为15和60天。分析致死率、发育进程、最终体重、游泳行为和酶生物标志物。暴露15天后，50%的布氏蝌蚪溶解菲的致死浓度为154.8µg L−1，是典型的敏感物种。研究证实了显著的发育延迟，暴露15天和60天后的最低效应浓度（LOEC）分别为76.2µg L - 1和10.8µg L - 1。延迟是根据对照组和暴露的蝌蚪（Deltagosner）平均Gosner阶段之间的差异来测量的。暴露60天后的Deltagosner浓度从10.8µg L - 1的10到187.7µg L - 1的13不等，并且蝌蚪仍处于后肢发育的早期阶段（Gosner阶段28-32），而对照组的前肢和后肢发育完全，处于变形高潮。暴露的蝌蚪体内的谷胱甘肽- s -转移酶和过氧化氢酶被诱导，可能是由于氧化应激。暴露于菲的蝌蚪趋近性降低，表明其丧失了反捕食行为。暴露后的布氏小蝌蚪最终湿重显著降低。发育迟缓和生长速度减慢是影响蝌蚪存活的关键因素，而菲对早期布氏小蝌蚪的影响可能会影响其在成虫期的招募。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aquatic Toxicology 环境科学-毒理学

CiteScore

7.10

自引率

4.40%

发文量

250

审稿时长

56 days

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.