Shenbo Wang, Qishe Yan, Fei Yu, Qun Wang, Liuming Yang, Ruiqin Zhang, Shasha Yin College of Chemistry and Molecular Engineering, Research Institute of Environmental Science, Zhengzhou University, Zhengzhou 450001, China
Received:
April 5, 2017
Revised:
September 3, 2017
Accepted:
September 23, 2017
Download Citation:
||https://doi.org/10.4209/aaqr.2017.04.0126
Cite this article:
Wang, S., Yan, Q., Yu, F., Wang, Q., Yang, L., Zhang, R. and Yin, S. (2018). Distribution and Source of Chemical Elements in Size-Resolved Particles in Zhengzhou, China: Effects of Regional Transport.
Aerosol Air Qual. Res.
18: 371-385. https://doi.org/10.4209/aaqr.2017.04.0126
HIGHLIGHTS
ABSTRACT
To investigate the characteristics of elements in size-segregated atmospheric particulates, samples were collected using a 14-stage electrical low-pressure impactor (ELPI+) at an urban site in Zhengzhou from October 1 till 25, 2016, and analyzed for 25 elements. Results show that crustal elements were concentrated in coarse particles and toxic elements were concentrated in ultra-fine particles. The size distributions of Na, Mg, Al, Si, Ca, Fe, Ti, S and Cl were uni-modal with dominant peaks in the size range of 1.43–2.14 µm or 0.295–0.487 µm. K, P, Mn and Ba exhibited bimodal distributions, and the remaining elements showed multimodal distributions. Enrichment factor, correlation and principal component analyses indicated that vehicles were the dominant source of particles. Biomass burning, coal combustion and dust also contributed to the accumulation of particles. The elemental concentrations affected by different air masses are discussed to investigate the effects of regional transport. An increase in elemental concentrations related to vehicle and coal sources was observed when air masses came from eastern areas. Furthermore, air masses from the southeast could be a major factor in air pollution for Zhengzhou during special times, such as periods of biomass burning or naked cropland. When air masses came from the northwest, the majority of elements from dust and coal combustion were lower in concentration compared with clean days, while elements originating from vehicle emissions increased.
Keywords:
Particle; Element; Size distribution; Principal component analysis; Regional transport.