Freitas Emanuela Cristina, Pinheiro Carlos, Rocha Odete, Loureiro Susana
Department of Ecology and Evolutionary Biology, Federal University of São Carlos, Rodovia Washington Luis, km 235, CEP 13565-905 São Carlos, SP, Brazil.
Department of Biology and Centre for Environmental and Marine Studies, University of Aveiro, 3810-193 Aveiro, Portugal.
Harmful Algae. 2014 Jan;31:143-152. doi: 10.1016/j.hal.2013.11.004. Epub 2013 Dec 1.
Worldwide, cyanobacterial blooms have been increasing in intensity and frequency, with toxic cyanobacteria sometimes dominant throughout the year in many freshwater bodies. Since the coexistence of more than one type of cyanotoxins in freshwater environments is a common phenomenon, studies on the joint effects of these toxins would be very useful. In this study, the single and combined effects of two cyanotoxins with different modes of action (hepatotoxic and neurotoxic) on the survival (lethal exposure) and feeding (sublethal exposure) of the cladoceran Daphnia magna were investigated. With the single exposures, it was observed that both the survival and feeding activity of the daphnids were impaired by the hepatotoxic and neurotoxic extracts at environmentally relevant concentrations. In the combined exposures, both survival and feeding rate endpoints showed a good fit to the independent action model. For the acute assay and 24h exposure period in the feeding inhibition test, there was no interaction between components of the hepatotoxic and neurotoxic extracts, although a slight tendency to a synergistic deviation could be seen in the feeding rates. On the other hand, for the 4h post-exposure period, a synergistic deviation was found in feeding rates at all mixture concentrations tested. Hence, the combined exposure of hepatotoxins and neurotoxins should also be taken into account in risk assessments of freshwater bodies, since the mixture of these toxins can result in more severe post-exposure effects on the feeding of daphnids than the sum of those expected for single exposures.
在全球范围内,蓝藻水华的强度和频率一直在增加,在许多淡水水体中,有毒蓝藻有时全年占主导地位。由于淡水环境中多种蓝藻毒素共存是常见现象,因此研究这些毒素的联合作用将非常有用。在本研究中,研究了两种具有不同作用模式(肝毒性和神经毒性)的蓝藻毒素对枝角类大型溞的存活(致死暴露)和摄食(亚致死暴露)的单一和联合影响。在单一暴露实验中,观察到在与环境相关的浓度下,肝毒性和神经毒性提取物均会损害大型溞的存活和摄食活动。在联合暴露实验中,存活和摄食率终点均与独立作用模型拟合良好。在急性试验和摄食抑制试验的24小时暴露期内,肝毒性和神经毒性提取物各成分之间没有相互作用,尽管在摄食率上可以看到轻微的协同偏差趋势。另一方面,在暴露后4小时期间,在所有测试的混合浓度下,摄食率均出现协同偏差。因此,在淡水水体的风险评估中也应考虑肝毒素和神经毒素的联合暴露,因为这些毒素的混合物对大型溞摄食的暴露后影响可能比单一暴露预期的总和更严重。
