Institute for Chemical and Bioengineering, ETH Zurich, CH-8093 Zurich, Switzerland.
Department of Environmental Science and Analytical Chemistry (ACES), Stockholm University, SE-10691 Stockholm, Sweden.
Environ Int. 2016 Apr-May;89-90:235-47. doi: 10.1016/j.envint.2016.01.023. Epub 2016 Feb 26.
Perfluoroalkyl phosphonic and phosphinic acids (PFPAs and PFPiAs) are sub-groups of per- and polyfluoroalkyl substances (PFASs) that have been commercialized since the 1970s, particularly as defoamers in pesticide formulations and wetting agents in consumer products. Recently, C4/C4 PFPiA and its derivatives have been presented as alternatives to long-chain PFASs in certain applications. In this study, we systematically assess the publicly available information on the hazardous properties, occurrence, and exposure routes of PFPAs and PFPiAs, and make comparisons to the corresponding properties of their better-known carboxylic and sulfonic acid analogs (i.e. PFCAs and PFSAs). This comparative assessment indicates that [i] PFPAs likely have high persistence and long-range transport potential; [ii] PFPiAs may transform to PFPAs (and possibly PFCAs) in the environment and biota; [iii] certain PFPAs and PFPiAs can only be slowly eliminated from rainbow trout and rats, similarly to long-chain PFCAs and PFSAs; [iv] PFPAs and PFPiAs have modes-of-action that are both similar to, and different from, those of PFCAs and PFSAs; and [v] the measured levels of PFPAs/PFPiAs in the global environment and biota appear to be low in comparison to PFCAs and PFSAs, suggesting, for the time being, low risks from PFPAs and PFPiAs alone. Although risks from individual PFPAs/PFPiAs are currently low, their ongoing production and use and high persistence will lead to increasing exposure and risks over time. Furthermore, simultaneous exposure to PFPAs, PFPiAs and other PFASs may result in additive effects necessitating cumulative risk assessments. To facilitate effective future research, we highlight possible strategies to overcome sampling and analytical challenges.
全氟烷基膦酸和亚膦酸(PFPAs 和 PFPiAs)是全氟和多氟烷基物质(PFASs)的亚组,自 20 世纪 70 年代以来已商业化,特别是作为农药制剂中的消泡剂和消费品中的润湿剂。最近,C4/C4 PFPiA 及其衍生物已被提出作为某些应用中长链 PFASs 的替代品。在这项研究中,我们系统地评估了有关 PFPAs 和 PFPiAs 的危险特性、出现和暴露途径的公开信息,并与它们更知名的羧酸和磺酸类似物(即 PFCAs 和 PFSAs)的相应特性进行了比较。这种比较评估表明:[i] PFPAs 可能具有高持久性和长距离迁移潜力;[ii] PFPiAs 可能在环境和生物群中转化为 PFPAs(和可能的 PFCAs);[iii]某些 PFPAs 和 PFPiAs 只能像长链 PFCAs 和 PFSAs 一样从虹鳟鱼和大鼠中缓慢消除;[iv] PFPAs 和 PFPiAs 的作用模式与 PFCAs 和 PFSAs 相似且不同;[v]与 PFCAs 和 PFSAs 相比,全球环境和生物群中 PFPAs/PFPiAs 的测量水平似乎较低,这表明 PFPAs 和 PFPiAs 目前单独的风险较低。尽管目前个别 PFPAs/PFPiAs 的风险较低,但它们的持续生产和使用以及高持久性将导致随着时间的推移暴露和风险增加。此外,同时暴露于 PFPAs、PFPiAs 和其他 PFASs 可能会导致需要累积风险评估的附加效应。为了促进未来的有效研究,我们强调了克服采样和分析挑战的可能策略。
