Helmholtz Centre for Environmental Research - UFZ, Permoserstrasse 15, 04318 Leipzig, Germany.
Norwegian Geotechnical Institute (NGI), P.O. Box 3930, Ullevål Stadion, 0806 Oslo, Norway.
Environ Sci Technol. 2024 May 7;58(18):7710-7718. doi: 10.1021/acs.est.4c00125. Epub 2024 Apr 24.
When chemical pollutants enter the environment, they can undergo diverse transformation processes, forming a wide range of transformation products (TPs), some of them benign and others more harmful than their precursors. To date, the majority of TPs remain largely unrecognized and unregulated, particularly as TPs are generally not part of routine chemical risk or hazard assessment. Since many TPs formed from oxidative processes are more polar than their precursors, they may be especially relevant in the context of persistent, mobile, and toxic (PMT) and very persistent and very mobile (vPvM) substances, which are two new hazard classes that have recently been established on a European level. We highlight herein that as a result, TPs deserve more attention in research, chemicals regulation, and chemicals management. This perspective summarizes the main challenges preventing a better integration of TPs in these areas: (1) the lack of reliable high-throughput TP identification methods, (2) uncertainties in TP prediction, (3) inadequately considered TP formation during (advanced) water treatment, and (4) insufficient integration and harmonization of TPs in most regulatory frameworks. A way forward to tackle these challenges and integrate TPs into chemical management is proposed.
当化学污染物进入环境时,它们可能会经历多种转化过程,形成广泛的转化产物 (TPs),其中一些是良性的,而另一些则比其前体更具危害性。迄今为止,大多数 TPs 仍然很大程度上未被识别和监管,特别是因为 TPs 通常不是常规化学风险或危害评估的一部分。由于许多由氧化过程形成的 TPs 比其前体更具极性,因此它们在持久性、移动性和毒性 (PMT) 和非常持久性和非常移动性 (vPvM) 物质的背景下可能尤其相关,这是最近在欧洲层面上建立的两个新的危害类别。我们在此强调,因此,TPs 在研究、化学品监管和化学品管理中值得更多关注。本观点总结了在这些领域更好地整合 TPs 所面临的主要挑战:(1)缺乏可靠的高通量 TPs 识别方法,(2)TP 预测的不确定性,(3)在 (先进) 水处理过程中对 TPs 形成的考虑不足,以及 (4)大多数监管框架中对 TPs 的整合和协调不足。提出了一种解决这些挑战并将 TPs 纳入化学管理的方法。
