Kyungpook National University, Department of Chemistry, Daegu 702-701, Republic of Korea.
Oil and POPs Research Group, Korea Institute of Ocean Science and Technology, KIOST, Geoje 656-834, Republic of Korea.
J Hazard Mater. 2015 Oct 15;296:93-100. doi: 10.1016/j.jhazmat.2015.04.042. Epub 2015 Apr 17.
The resin fractions of fresh mixtures of three oils spilled during the M/V Hebei Spirit oil spill, as well as weathered oils collected at weathering stages II and IV from the oil spill site were analyzed and compared by atmospheric pressure photo-ionization hydrogen/deuterium exchange mass spectrometry (HDX MS). The significantly decreased abundance of N(+) and N-H+D ions suggested that secondary and tertiary amine-containing compounds were preferentially degraded during the early stage of weathering. N+H and N+D ions previously attributed to pyridine-type compounds degraded more slowly than secondary and tertiary amine-containing compounds. The preferential degradation of nitrogen-containing compounds was confirmed by photo-degradation experiments using 15 standard compounds. In addition, significant increases of S1O1+H and S1O1+D ions with higher DBE values were observed from fresh oil mixtures as compared to stages II and IV samples, and that could be linked with the decrease of higher DBE compounds of the S1 class. This study presented convincing arguments and evidence demonstrating that secondary and tertiary amines were more vulnerable to photo-degradation than compounds containing pyridine, and hence, preferential degradation depending on chemical structures must be considered in the production of hazardous or toxic components.
对“河北精神”号溢油事故中三种溢油混合物的新鲜树脂馏分以及溢油现场第二和第四风化阶段采集的风化油进行了大气压光离子化氢/氘交换质谱(HDX MS)分析和比较。大量减少的 N(+) 和 N-H+D 离子表明,在风化的早期阶段,含仲胺和叔胺的化合物优先降解。先前归因于吡啶型化合物的N+H 和 N+D 离子比含仲胺和叔胺的化合物降解得更慢。通过使用 15 种标准化合物进行光降解实验证实了含氮化合物的优先降解。此外,与第二和第四阶段样品相比,从新鲜油混合物中观察到具有更高 DBE 值的S1O1+H 和 S1O1+D 离子显著增加,这可能与 S1 类更高 DBE 值化合物的减少有关。本研究提供了令人信服的论据和证据,证明仲胺和叔胺比含吡啶的化合物更容易光降解,因此,在产生有害或有毒成分时,必须考虑基于化学结构的优先降解。
