Unveiling the Occurrence, Ecotoxicity, Risks, and Removal of Major Nonylphenol Ethoxylate Alternatives in the Aquatic Environment

With increasingly stringent global regulations on nonylphenol ethoxylates (NPEO), the use of NPEO alternatives has increased significantly, resulting in their widespread environmental occurrence and notable ecological risks. This review synthesizes the global occurrence of NPEO alternatives in surface waters, their toxicological impacts on aquatic organisms, their associated ecological risks, and an evaluation of treatment techniques. Based on the existing global detection data, Europe had the highest detection frequency, and linear alkylbenzenesulfonate (LAS) was the predominant alternative. Toxicological studies demonstrated that these alternatives induce multiple adverse effects in aquatic species, including mortality, behavioral abnormalities, and tissue/organ dysfunction, with fish and crustaceans showing particular sensitivity. Ecological risk assessments revealed that NPEO alternatives posed acute and chronic risks (hazard quotient >1) in 84% and 80% of investigated sites globally, respectively, with LAS being the primary risk driver, whereas alkyl ether sulfate (AES) presented negligible risks. Among treatment technologies, biodegradation was the most widely used but exhibited varying removal efficiencies (30–100%), whereas membrane filtration achieved the highest average removal rate (91.53%). Given their widespread occurrence, ecological threats, and inadequate removal, strengthened risk control and the development of greener alternatives are urgently needed.