EXPOSURE TO CHLORANTRANILIPROLE AFFECTS THE ENERGY METABOLISM OF THE CADDISFLY SERICOSTOMA VITTATUM

Rodrigues Andreia C. M.; Gravato Carlos; Quintaneiro Carla; Bordalo Maria D.; Golovko Oksana; Zlabek Vladimir; Barata Carlos; Soares Amadeu M. V. M.; Pestana Joao L. T.

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EXPOSURE TO CHLORANTRANILIPROLE AFFECTS THE ENERGY METABOLISM OF THE CADDISFLY SERICOSTOMA VITTATUM

机译：暴露于氯氰菊酯会影响CADDISFLY SERICOSTOMA VITTATUM的能量代谢

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Caddisflies have been included in ecotoxicological studies because of their sensitivity and ecological relevance. The present study aimed to assess the sublethal effects of an anthranilic diamide insecticide, chlorantraniliprole (CAP), to Sericostoma vittatum. Used worldwide, CAP is a persistent compound that has been found in surface waters at concentrations from 0.1 mu g/L to 9.7 mu g/L. It targets the ryanodine receptors, and the present ecotoxicological assessment focused on biomarkers related to neurotransmission, biotransformation, oxidative stress damage, and endpoints related to energy processing (feeding, energy reserves, and cellular metabolism). Six days of exposure trials revealed that feeding activity was significantly decreased in S. vittatum larvae exposed to 0.9 mu g/L CAP. Concomitantly, a reduction in cellular metabolism and a significant decrease in protein content were also observed in caddisfly larvae exposed to CAP, suggesting metabolic depression. The results show that sublethal concentrations of CAP can cause detrimental sublethal effects on S. vittatum total glutathione content at concentrations as low as 0.2 mg/L. Bioenergetics can be used to assess physiological effects of contaminants, and the present results show that exposure to low, environmentally relevant, concentrations of CAP alter energy acquisition and metabolism in nontarget aquatic insects with potential population level effects. (C) 2016 SETAC

机译：由于镉的敏感性和生态意义，它们已被纳入生态毒理学研究。本研究旨在评估邻氨基苯甲酰胺类杀虫剂百虫腈（CAP）对Sericostoma vittatum的亚致死作用。 CAP在世界范围内使用，是一种持久性化合物，已在地表水中发现，浓度为0.1μg / L至9.7μg / L。它针对的是ryanodine受体，目前的生态毒理学评估集中在与神经传递，生物转化，氧化应激损伤以及与能量加工（喂养，能量储备和细胞代谢）有关的终点相关的生物标志物上。六天的暴露试验表明，暴露于0.9μg / L CAP的S. vittatum幼虫的摄食活性明显降低。同时，在暴露于CAP的蝇幼虫中，还观察到了细胞代谢的降低和蛋白质含量的显着降低，表明代谢抑制。结果表明，CAP的亚致死浓度可在低至0.2 mg / L的浓度下对盾形葡萄球菌总谷胱甘肽含量产生有害的亚致死作用。生物能学可用于评估污染物的生理效应，目前的结果表明，暴露于低浓度，与环境相关的CAP浓度会改变非目标水生昆虫的能量获取和新陈代谢，从而具有潜在的种群水平影响。（C）2016年SETAC

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来源
《Environmental toxicology and chemistry》 |2017年第6期|1584-1591|共8页
作者
Rodrigues Andreia C. M.; Gravato Carlos; Quintaneiro Carla; Bordalo Maria D.; Golovko Oksana; Zlabek Vladimir; Barata Carlos; Soares Amadeu M. V. M.; Pestana Joao L. T.;
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作者单位

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal|CSIC, IDAEA, Spanish Council Sci Res, Dept Environm Chem,Inst Environm Assessment & Wat, Barcelona, Spain;

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal;

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal;

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal;

Univ South Bohemia Ceske Budejovice, Fac Fisheries & Protect Waters, South Bohemian Res Ctr Aquaculture & Biodivers Hy, Vodnany, Czech Republic;

Univ South Bohemia Ceske Budejovice, Fac Fisheries & Protect Waters, South Bohemian Res Ctr Aquaculture & Biodivers Hy, Vodnany, Czech Republic;

CSIC, IDAEA, Spanish Council Sci Res, Dept Environm Chem,Inst Environm Assessment & Wat, Barcelona, Spain;

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal;

Univ Aveiro, Dept Biol, Aveiro, Portugal|Univ Aveiro, Ctr Environm & Marine Studies CESAM, Aveiro, Portugal;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
Anthranilic diamides; Aquatic invertebrate; Feeding inhibition; Energy reserves; Biochemical biomarkers;

机译：邻氨基苯甲酰胺;水生无脊椎动物;进食抑制;能量储备;生化生物标志物;
入库时间 2022-08-17 13:28:10

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2. Cholinesterase activity in the caddisfly Sericostoma vittatum: Biochemical enzyme characterization and in vitro effects of insecticides and psychiatric drugs [J] . Joao L.T. Pestana, Sara C. Novais, Marco F.L. Lemos, Ecotoxicology and Environmental Safety . 2014,第JUNa期

机译：蝇科弓形虫体内的胆碱酯酶活性：杀虫剂和精神药物的生化酶特性及体外作用
3. Energetic costs and biochemical biomarkers associated with esfenvalerate exposure in Sericostoma vittatum [J] . Rodrigues Andreia C. M., Gravato Carlos, Quintaneiro Carla, Chemosphere . 2017,第DECa期

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4. Exposures to Traffic-Related Air Pollutants are Associated with Changes in Amino Acid Metabolism [C] . Zhanghua Chen, Douglas I. Walker, Jeniffer Kim, Joint annual meeting of the International Society of Exposure Science and the International Society for Environmental Epidemiology . 2018

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5. Physiological effects of sublethal copper exposure on the energy metabolism of the common carp, Cyprinus carpio. [D] . De Boeck, Gudrun. 1996

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6. Obesity Diabetes and Energy Homeostasis: Arsenic exposure induces glucose intolerance and alters global energy metabolism [O] . Andrew G. Kirkley, Christopher M. Carmean, Daniel Ruiz, -1

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8. Dichlorvos Exposure Results in Large Scale Disruption of Energy Metabolism in the Liver of the Zebra Fish, Danio Rerio. [R] . Bui-Nguyen, T., Baer, C. E., Lewis, J. A., 2015

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EXPOSURE TO CHLORANTRANILIPROLE AFFECTS THE ENERGY METABOLISM OF THE CADDISFLY SERICOSTOMA VITTATUM

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