Chemosensory responses of ciliates: A sensitive end point in xenobiotic hazard assessment

Environmental Toxicology & Water Quality Pub Date : 1994-11-01 DOI:10.1002/TOX.2530090414

W. Pauli, S. Berger, S. Schmitz, L. Jaskulka

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引用次数: 7

Abstract

It is known that ciliates exhibit chemosensory behavior. An assay implementing this response was performed with Tetrahymena thermophila, a well-studied representative of the ciliates. A concentration-dependent avoiding reaction was observed for all substances of the test battery, comprising a heterogeneous set of 43 compounds from the European Inventory of Existing Chemicals. Comparisons were made between toxic data from this chemosensory test and chemical concentrations leading to effects on Tetrahymena growth, and EC values from recommended aquatic toxicity tests. Low correlation coefficients indicate that the chemosensory response reflects chemical interactions, which cannot be adequately explained by these other tests. The chemosensory assay proved to be more sensitive in the majority of cases than the Tetrahymena growth test and standard tests with fish and Daphnia. Tetrahymena is able to recognize and avoid about half the substances at concentrations lower than those effective in the algae growth inhibition test. The behavioral response of Tetrahymena could provide further lexicological information and serve as a complementary sublethal end point for ecotoxicological screening purposes. © 1994 by John Wiley & Sons, Inc..

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纤毛虫的化学感觉反应:异种生物危害评估的敏感终点

众所周知，纤毛虫表现出化学感觉行为。实现这种反应的实验是用四膜虫进行的，四膜虫是一种研究得很好的纤毛虫的代表。测试电池的所有物质都观察到浓度依赖的避免反应，包括来自欧洲现有化学品清单的43种异构化合物。将化学感觉试验的毒性数据与导致四膜虫生长影响的化学浓度与推荐的水生毒性试验的EC值进行了比较。低相关系数表明，化学感觉反应反映了化学相互作用，这不能被这些其他测试充分解释。在大多数情况下，化学感觉试验比四膜虫生长试验和鱼和水蚤的标准试验更敏感。四膜虫能够识别和避免大约一半浓度低于藻类生长抑制试验有效浓度的物质。四膜虫的行为反应可以提供进一步的词源学信息，并作为生态毒理学筛选的补充亚致死终点。©1994 by John Wiley & Sons, Inc.。

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Environmental Toxicology & Water Quality

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