[Characterization of Metal Elements in Atmospheric PM2.5 and Health Risk Assessment in Heze in Winter from 2017 to 2018]

Hong-Xuan Du; Li-Hong Ren; Ming-Sheng Zhao; Hui-Xia Han; Yi-Sheng Xu

doi:10.13227/j.hjkx.202304185

[Characterization of Metal Elements in Atmospheric PM_2.5 and Health Risk Assessment in Heze in Winter from 2017 to 2018]

Huan Jing Ke Xue. 2024 Mar 8;45(3):1361-1370. doi: 10.13227/j.hjkx.202304185.

[Article in Chinese]

Authors

Hong-Xuan Du¹, Li-Hong Ren¹, Ming-Sheng Zhao^{1

2}, Hui-Xia Han¹, Yi-Sheng Xu¹

Affiliations

¹ Institute of Atmospheric Environment, Chinese Research Academy of Environmental Sciences, Beijing 100012, China.
² School of Petrochemical Engineering, Lanzhou University of Technology, Lanzhou 730050, China.

PMID: 38471852
DOI: 10.13227/j.hjkx.202304185

Abstract

Atmospheric PM_2.5 samples were collected in Heze, Shandong Province, from a total of three sampling sites at Heze College, Huarun Pharmacy, and a wastewater treatment plant between October 15, 2017 and January 31, 2018, to determine the concentrations of 21 metal elements in PM_2.5 using inductively coupled plasma mass spectrometry (ICP-MS). The degree of elemental enrichment was also discussed, the health risks and potential heavy metal ecological risks were assessed. The results showed that ρ (PM_2.5) ranged from 26.7 to 284.1 μg·m^-3 at the three sampling sites during the sampling period, and the concentration values did not differ significantly, all of which were at high pollution levels. The highest concentrations of K were found in the three sampling sites, accounting for 31.03%, 39.47%, and 38.43% of the total, respectively, mainly due to the high contribution of biomass burning in autumn and winter in Heze, a large agricultural city. The highest concentrations of Zn, 89.70, 84.21, and 67.68 ng·m^-3, were found in the trace elements at the three sampling sites, respectively. The enrichment factor results showed that the enrichment factor values of Zn, Pb, Sn, Sb, Cd, and Se were higher than 100, among which the enrichment factors of Cd and Se were higher than 2 000 and 4 000, respectively, which were significantly influenced by anthropogenic activities and might have been related to industrial production, metal smelting, road sources, and coal combustion emissions. The health risk results showed that there was some potential non-carcinogenic risk (HQ>0.1 for children and adults) for As and a combined potential non-carcinogenic risk (HI>0.1) and some potential carcinogenic risk (CRT>1×10^-6) for both children and adults at the three sampling sites. There was a more significant carcinogenic risk (CRT>1×10^-4) for adults at the wastewater treatment plant, and the slightly higher carcinogenic risk for adults than that for children may have been related to the longer outdoor activity and higher PM_2.5 exposure for adults. The elements with the highest potential ecological risk values were Cd, As, and Pb, with Cd exhibiting a very high potential ecological risk that should be taken seriously. All three sampling sites showed a very high combined potential ecological risk, with the intensity spatially expressed as Heze College>Huarun Pharmacy>wastewater treatment plant.

Keywords: PM2.5; enrichment factor; health risk assessment; heavy metals; potential ecological risks.

Publication types

English Abstract

MeSH terms

Adult
Cadmium* / analysis
Carcinogens / analysis
Child
China
Dust / analysis
Environmental Monitoring / methods
Humans
Lead / analysis
Metals, Heavy* / analysis
Particulate Matter / analysis
Risk Assessment

Substances

Cadmium
Lead
Metals, Heavy
Carcinogens
Particulate Matter
Dust