State Key Laboratory of Coal Mine Disaster Dynamics and Control, Chongqing University, Chongqing, 400030, China; Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP(3)), Department of Environmental Science & Engineering, Fudan University, Shanghai, 200438, China; Department of Environmental Science, College of Resources and Environmental Science, Chongqing University, Chongqing, 400030, China.
Department of Environmental Science, College of Resources and Environmental Science, Chongqing University, Chongqing, 400030, China.
Environ Pollut. 2019 Feb;245:771-779. doi: 10.1016/j.envpol.2018.11.059. Epub 2018 Nov 25.
75 paired TSP and PM samples were collected over four seasons on Huaniao Island (HNI), an island that lies downwind of continental pollutants emitted from mainland China to the East China Sea (ECS). These samples were analyzed for organic carbon (OC) and elemental carbon (EC), with a special focus on char-EC (char) and soot-EC (soot), to understand their sources, and the scale and extent of pollution and dry deposition over the coastal ECS. The results showed that char concentrations in PM and TSP averaged from 0.13 to 1.01 and 0.31-1.44 μg m; while for soot, they were from 0.03 to 0.21 and 0.16-0.56 μg m, respectively. 69.0% of the char and 36.4% of the soot were present in PM. The char showed apparent seasonal variations, with highest concentrations in winter and lowest in summer; while soot displayed maximum concentrations in fall and minimum in summer. The char/soot ratios in PM averaged from 3.29 to 17.22; while for TSP, they were from 1.20 to 7.07. Both of the ratios in PM and TSP were highest in winter and lowest in fall. Comparisons of seasonal variations in OC/EC and char/soot ratios confirmed that char/soot may be a more effective indicator of carbonaceous aerosol source identification than OC/EC. Annual average atmospheric dry deposition fluxes of OC and EC into ECS were estimated to be 229 and 107 μg m d, respectively, and their deposition fluxes significantly increased during episodes. It was estimated that the loadings of OC + EC and EC accounted for 1.3% and 4.1% of the total organic carbon and EC in ECS surface sediments, respectively, implying a relatively small contribution of OC and EC dry deposition to organic carbon burial. This finding also indicates a possibly more important contribution of wet deposition to organic carbon burial in sediments of ECS, and this factor should be considered for future study.
75 对配对的 TSP 和 PM 样本在 Huaniao 岛(HNI)上采集,该岛位于中国大陆向东海(ECS)排放的污染物下风方向。对这些样本进行了有机碳(OC)和元素碳(EC)分析,特别关注炭质-EC(char)和烟尘-EC(soot),以了解它们的来源,以及东海沿海地区的污染程度和干沉降规模。结果表明,PM 和 TSP 中 char 的浓度平均值分别为 0.13-1.01 和 0.31-1.44μg/m;而 soot 的浓度分别为 0.03-0.21 和 0.16-0.56μg/m。69.0%的 char 和 36.4%的 soot 存在于 PM 中。char 显示出明显的季节性变化,冬季浓度最高,夏季浓度最低;而 soot 则在秋季浓度最高,夏季浓度最低。PM 中 char/soot 的比值平均值为 3.29-17.22;而 TSP 的比值平均值为 1.20-7.07。PM 和 TSP 中的比值均在冬季最高,秋季最低。OC/EC 和 char/soot 比值的季节性变化比较证实,char/soot 可能是比 OC/EC 更有效的碳质气溶胶源识别指标。OC 和 EC 的大气干沉降通量的年平均值分别估计为 229 和 107μg/m d,在事件期间明显增加。据估计,OC+EC 和 EC 的负荷分别占东海表层沉积物中总有机碳和 EC 的 1.3%和 4.1%,这意味着 OC 和 EC 的干沉降对有机碳埋藏的贡献相对较小。这一发现还表明,湿沉降对东海沉积物中有机碳埋藏的贡献可能更为重要,这一因素应在未来的研究中加以考虑。
