Institute of Environmental Sciences, Jagiellonian University, Gronostajowa 7, 30-387 Kraków, Poland.
Sci Total Environ. 2010 Aug 15;408(18):3763-74. doi: 10.1016/j.scitotenv.2010.01.043. Epub 2010 Feb 14.
The paper addresses problems arising from effects of natural environmental factors on toxicity of pollutants to organisms. Most studies on interactions between toxicants and natural factors, including those completed in the EU project NoMiracle (Novel Methods for Integrated Risk Assessment of Cumulative Stressors in Europe) described herein, showed that effects of toxic chemicals on organisms can differ vastly depending purely on external conditions. We compiled data from 61 studies on effects of temperature, moisture and dissolved oxygen on toxicity of a range of chemicals representing pesticides, polycyclic aromatic hydrocarbons, plant protection products of bacterial origin and trace metals. In 62.3% cases significant interactions (p< or =0.05 or less) between natural factors and chemicals were found, reaching 100% for the effect of dissolved oxygen on toxicity of waterborne chemicals. The meta-analysis of the 61 studies showed that the null hypothesis assuming no interactions between toxic chemicals and natural environmental factors should be rejected at p=2.7 x 10(-82) (truncated product method probability). In a few cases of more complex experimental designs, also second-order interactions were found, indicating that natural factors can modify interactions among chemicals. Such data emphasize the necessity of including information on natural factors and their variation in time and across geographic regions in ecological risk assessment. This can be done only if appropriate ecotoxicological test designs are used, in which test organisms are exposed to toxicants at a range of environmental conditions. We advocate designing such tests for the second-tier ecological risk assessment procedures.
本文探讨了自然环境因素对污染物对生物毒性的影响所产生的问题。大多数关于有毒物质与自然因素相互作用的研究,包括本文中所描述的欧盟 NoMiracle 项目(欧洲累积胁迫综合风险评估的新方法)中的研究,都表明有毒化学物质对生物的影响纯粹取决于外部条件,可以有很大的不同。我们从 61 项关于温度、湿度和溶解氧对一系列化学物质(包括农药、多环芳烃、细菌来源的植物保护产品和痕量金属)毒性影响的研究中汇编了数据。在 62.3%的情况下,发现自然因素和化学物质之间存在显著的相互作用(p≤0.05 或更低),对于溶解氧对水基化学物质毒性的影响,这种相互作用达到了 100%。对这 61 项研究的荟萃分析表明,假设有毒化学物质与自然环境因素之间没有相互作用的零假设,应该在 p=2.7 x 10(-82)(截断乘积方法概率)时被拒绝。在一些更复杂的实验设计的情况下,也发现了二阶相互作用,这表明自然因素可以改变化学物质之间的相互作用。这些数据强调了在生态风险评估中必须包括有关自然因素及其在时间和地理区域内变化的信息。只有使用适当的生态毒理学测试设计,使测试生物在一系列环境条件下接触有毒物质,才能做到这一点。我们主张为二级生态风险评估程序设计此类测试。
