Department of Environmental Science (ACES), Stockholm University, S-10691 Stockholm, Sweden.
Environ Sci Process Impacts. 2020 May 1;22(5):1233-1242. doi: 10.1039/c9em00595a. Epub 2020 Mar 30.
Previous research has shown that unspiked OECD 309 tests can be used to quantify chemical biodegradation in surface waters, relying on chemical residues already present in the water. Here we test the hypothesis that unspiked OECD 309 tests can quantitatively predict chemical persistence in the environment by comparing chemical half-lives assessed in the laboratory against those measured in the field. The study object was a Swedish lake heavily impacted by treated municipal wastewater. Half-lives in the field were measured by mass balance over 12 weeks. In parallel, half-lives in the lab were determined with an unspiked OECD 309 test run for 60 days. Chemical analysis was conducted using a non-target screening approach. The field study yielded a half-life <100 days for 38 chemicals for which the dominant source was wastewater; 32 of these were also detected in the lab test, whereby 18 had half-lives with a well-constrained uncertainty that did not intersect infinity. For 14 of the 18 chemicals, the field and lab half-lives agreed within a factor 3. In summary, the lab test predicted chemical attenuation in the field well. Limitations of the approach include the need for measurable chemical concentrations in the water body and failure to account for some attenuation mechanisms like phototransformation.
先前的研究表明,未加标 OECD309 测试可用于量化地表水的化学生物降解,方法是利用水中已有的化学残留物。在此,我们通过比较实验室评估的化学半衰期和野外测量的半衰期来检验未加标 OECD309 测试是否可以定量预测环境中化学物质持久性的假设。研究对象是瑞典一个受处理城市污水严重影响的湖泊。在野外,通过 12 周的质量平衡来测量半衰期。同时,使用未加标 OECD309 测试进行了为期 60 天的实验室测试,以确定实验室中的半衰期。化学分析采用非靶向筛选方法进行。该野外研究得出了半衰期<100 天的结论,这是因为 38 种化学物质的主要来源是废水;其中 32 种也在实验室测试中被检测到,其中 18 种半衰期的不确定性限制很好,且半衰期不与无穷大相交。对于 18 种化学物质中的 14 种,野外和实验室的半衰期在 3 倍以内一致。总的来说,实验室测试很好地预测了野外的化学衰减。该方法的局限性包括需要水体中可测量的化学浓度,以及无法考虑一些衰减机制,如光转化。
