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郑凯,马晓妍,郝丽伟,王晓昌,金鹏康,杨文博.基于叶绿素荧光成像技术的藻毒性检测法的建立及在环境监测中的应用[J].环境科学学报,2019,39(3):768-773

The establishment of algal toxicity detection method based on chlorophyll fluorescence imaging and its application in environmental monitoring

摘要：应用新型大面积调制叶绿素荧光成像系统（Maxi-Imaging-PAM），以蛋白核小球藻作为指示生物，以典型的光合作用抑制剂敌草隆和莠灭净为测试物质，建立了微孔板式藻毒性检测方法，确定了实验参数对结果的影响，并将该方法应用于检测石油废水的藻毒性.结果表明，最适实验条件为：藻细胞的暴露浓度在3.45×10⁶~5.28×10⁶ cell·mL^-1范围内，暴露时间为2 h时，毒性检测最灵敏，获得的敌草隆和莠灭净的半最大效应浓度（EC₅₀）分别为（4.33±0.38）μg·L^-1和（3.87±0.27）μg·L^-1.将该方法成功应用于某石油废水的藻毒性检测，确定其EC₅₀值为1.03%±0.07%（稀释百分数），相当于414.96 μg·L^-1的敌草隆的毒性.本研究建立的微孔板式藻毒性检测方法具有灵敏度高、所需样品量少、可大批量测试等优点，对毒理学发展具有重要意义.

Abstract：Using a novel large-area modulating chlorophyll fluorescence imaging system (Maxi-Imaging-PAM), a method for algae toxicity test was developed and optimized based on microplate. In this method, Chlorella pyrenoidosa was the testing organism, and typical photosynthesis inhibitors diuron and ametryn were chosen as testing substances. The influence of the experimental parameters on the results were discussed in this study. Finally, this developed method was applied on the algae toxicity test of petroleum wastewater. The results showed that when the concentration of the algal solution was 3.45×10⁶~5.28×10⁶ cells·mL^-1 and exposure time was 2 hours, the method displayed a good testing property. At this condition, the concentration of 50% maximal effect (EC₅₀) of diuron and ametryn were (4.33±0.38) μg·L^-1 and (3.87±0.27) μg·L^-1, respectively. The method was successfully applied to the algae toxicity test of petroleum wastewater, and its EC₅₀ value was 1.03%±0.07% (dilution percentage), which is equivalent to 414.96 μg·L^-1 diuron. The established microplate algae toxicity detection method has the advantages of high sensitivity, less sample volume demanded, and large batch test. This has great significance for the development of toxicology.

Key words：chlorophyll fluorescence imaging technology algae toxicity diuron ametryn fluorescence quantum yield