A toxicological study of inhalable particulates in an industrial region of Lanzhou City, northwestern China: Results from plasmid scission assay

Zhenghui Xiao, Longyi Shao, Ning Zhang, Jing Wang, Hsiao Chi Chuang, Zhenzhen Deng, Zhen Wang, Kelly BéruBé

Research output: Contribution to journalArticlepeer-review

20 Citations (Scopus)

Abstract

The city of Lanzhou in northwestern China experiences serious air pollution episodes in the form of PM10 that is characterized by having high levels of heavy metals. The Xigu District represents the industrial core area of Lanzhou City and is denoted by having the largest petrochemical bases in western China. This study investigates heavy metal compositions and oxidative potential of airborne PM10 (particulate matter with aerodynamic diameter of 10μm or less) collected in Xigu District in the summer and winter of 2010. An in vitro plasmid scission assay (PSA) was employed to study the oxidative potential of airborne PM10 and inductively coupled plasma-mass spectrometry (ICP-MS) was used to examine heavy metal compositions. Transmission electron microscopy coupled with energy-dispersive X-ray spectrometry (TEM/EDX) was used to investigate elemental compositions and mixing states of PM10. The average mass concentrations of PM10 collected in Xigu District were generally higher than the national standard for daily PM10 (150μg/m3). Cr, Zn, Pb and Mn were the most abundant metals in the intact whole particles of PM10. Zn, Mn and As was the most abundant metal in the water-soluble fraction, while Cr, Pb, and V existed primarily in insoluble forms. TD20 values (i.e. toxic dosage of PM10 causing 20% of plasmid DNA damage) varied considerably in both winter and summer (from 19μg/mL to >1000μg/mL) but were typically higher in summer, suggesting that the winter PM10 exhibited greater bioreactivity. In addition, the PM10 collected during a dust storm episode had a highest TD20 value and thus the least oxidative damage to supercoiled plasmid DNA, while the particles collected on a hazy day had a lowest TD20 value and thus the highest oxidative damage to supercoiled plasmid DNA. The particles collected on the first day after snow fall and on a day of cold air intrusion exhibited minor oxidative potential (i.e. caused limited DNA damage). The water-soluble Zn, Mn, As, and Cu displayed a significant negative correlation with TD20 values, suggesting that these heavy metals were responsible for the increase of oxidative potential. The high mass concentration of PM10 and resulting high oxidative potential in Xigu District may be due to the constant low wind speed and high relative humidity, particularly in winter. Finally, TEM analysis suggested that the oxidative potential of PM10 may be associated with its degree of internal mixing, whereby the heterogeneous assortment of soot, mineral and metals created a highly reactive moiety.

Original languageEnglish
Pages (from-to)25-34
Number of pages10
JournalAeolian Research
Volume14
DOIs
Publication statusPublished - Sept 2014

Keywords

  • Dust storm
  • Haze
  • Heavy metal
  • Oxidative potential
  • Plasmid scission assay

ASJC Scopus subject areas

  • Geology
  • Earth-Surface Processes

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