School of Civil and Environmental Engineering, and National International Cooperation Based on Environment and Energy, University of Science and Technology Beijing, Xueyuan Road No. 30, Haidian District, Beijing 100083, PR China.
School of Civil and Environmental Engineering, and National International Cooperation Based on Environment and Energy, University of Science and Technology Beijing, Xueyuan Road No. 30, Haidian District, Beijing 100083, PR China.
Chemosphere. 2014 Sep;111:458-63. doi: 10.1016/j.chemosphere.2014.04.037. Epub 2014 May 20.
Compound-specific isotope analysis (CSIA) has been established as a tool to study the environmental fate of a wide range of contaminants. In this study, CSIA was developed to analyse the stable carbon isotope signatures of the widely used organophosphorus pesticides: dichlorvos, omethoate and dimethoate. The linearity of the GC-C-IRMS system was tested for target pesticides and led to an acceptable isotope composition within the uncertainty of the instrument. In order to assess the accuracy of the developed method, the effect of the evaporation procedure on measured carbon isotope composition (δ(13)C) values was studied and showed that concentration by evaporation of solvents had no significant isotope effect. The CSIA was then applied to investigate isotope fractionation of the hydrolysis and photolysis of selected pesticides. The carbon isotope fractionation of tested pesticides was quantified by the Rayleigh model, which revealed a bulk enrichment factor (ε) of -0.2±0.1‰ for hydrolysis of dichlorvos, -1.0±0.1‰ and -3.7±1.1‰ for hydrolysis and photolysis of dimethoate respectively. This study is a first step towards the application of CSIA to trace the transport and degradation of organophosphorus pesticides in the environment.
化合物特定同位素分析(CSIA)已被确立为研究各种污染物环境归宿的工具。本研究建立 CSIA 以分析广泛使用的有机磷杀虫剂:敌敌畏、氧乐果和乐果的稳定碳同位素特征。GC-C-IRMS 系统的线性度针对目标杀虫剂进行了测试,结果在仪器的不确定度范围内得到了可接受的同位素组成。为了评估所开发方法的准确性,研究了蒸发过程对测定的碳同位素组成(δ(13)C)值的影响,结果表明溶剂蒸发浓缩没有显著的同位素效应。然后,CSIA 被应用于研究选定杀虫剂的水解和光解的同位素分馏。通过瑞利模型定量了测试杀虫剂的碳同位素分馏,结果表明敌敌畏水解的整体富集因子(ε)为-0.2±0.1‰,乐果的水解和光解分别为-1.0±0.1‰和-3.7±1.1‰。本研究是将 CSIA 应用于追踪环境中有机磷杀虫剂的迁移和降解的第一步。
