School of Life Sciences, Applied Ecology Team, University of Technology Sydney, PO Box 123, NSW 2007, Australia.
School of Life Sciences, Applied Ecology Team, University of Technology Sydney, PO Box 123, NSW 2007, Australia.
Sci Total Environ. 2016 Jul 1;557-558:636-43. doi: 10.1016/j.scitotenv.2016.03.142. Epub 2016 Mar 31.
Herbicides are common pollutants of rivers in agricultural regions. These contaminants include various types of chemicals with different modes of toxic action. Herbicides can have toxic effects on freshwater benthic diatoms, the base of the aquatic food web. We examined the effects of (non-mixture) herbicide exposure to the health of diatoms for eight common herbicides with three different modes of action; the photosystem II (PSII) inhibitors: atrazine, simazine, hexazinone, tebuthiuron and diuron; two auxinic herbicides: MCPA and 2,4-D; and the EPSP synthase inhibitor: glyphosate. Benthic diatoms within riverine communities were exposed to each herbicide in rapid toxicity tests at concentrations of 50, 200 and 500μgL(-1). The most sensitive taxa were Gomphonema spp. and Encyonema gracilis. Navicula cryptotenella was the most tolerant to herbicide exposure. There was no significant effect of the different herbicide modes of action at the community level. Herbicide mode of action did not alter which taxa were most sensitive within the community and sensitivity rankings of the dominant diatom taxa were similar for each of the eight herbicides. The consistency of the results between herbicides suggests that freshwater benthic diatoms may be suitable in situ indicators for detecting the toxicity of herbicides with differing modes of action.
除草剂是农业区河流中常见的污染物。这些污染物包括具有不同毒性作用模式的各种类型的化学物质。除草剂会对淡水底栖硅藻产生毒性影响,而硅藻是水生食物网的基础。我们研究了(非混合物)除草剂暴露对具有三种不同作用模式的八种常见除草剂的硅藻健康的影响:光合作用系统 II(PSII)抑制剂:莠去津、西玛津、六嗪酮、特丁津和敌草隆;两种激素型除草剂:MCPA 和 2,4-D;以及 EPSP 合酶抑制剂:草甘膦。在浓度为 50、200 和 500μg/L 的快速毒性试验中,将底栖硅藻暴露于每种除草剂中。最敏感的分类群是 Gomphonema spp. 和 Encyonema gracilis。Navicula cryptotenella 对除草剂暴露最耐受。在群落水平上,不同除草剂作用模式没有显著影响。除草剂作用模式并未改变群落中哪些分类群最敏感,并且对于八种除草剂中的每一种,优势硅藻分类群的敏感性排名都相似。除草剂之间结果的一致性表明,淡水底栖硅藻可能是检测具有不同作用模式的除草剂毒性的合适原位指示物。