Global environmental and toxicological data of emerging plasticizers: current knowledge, regrettable substitution dilemma, green solution and future perspectives
Abdul Qadeer, Muhammad Yunus Anis, Genoa R. Warner, Courtney Potts, Georgios Giovanoulis, Samia Nasr, Denisse Archundia, Qinghuan Zhang, Zeeshan Ajmal, Anthony C. Tweedale, Kun Wang, Pengfei Wang, Haoyu Ren, Xia Jiang, Shuhang Wang
Abstract
7.5-10.4), indicating potential bioaccumulation and health consequences. Field studies have demonstrated that phosphate esters can undergo bioaccumulation and biomagnification, but there is a lack of bioaccumulation studies for other compounds. We also discuss the metabolism of emerging plasticizers, though data is limited. Our article highlights that numerous alternative compounds display potential health and ecological risks, indicating they might not be suitable substitutes for legacy plasticizers. There is also a lack of scientific data on most emerging plasticizers. This way, we call for increased research and timely regulatory action to prevent global contamination and health risks. Finally, this study presents a scientifically robust protocol to avoid harmful substitutions and ensure the production of safer chemicals.