Solid-phase speciation of Zn in road dust sediment
Solid-phase speciation of Zn in road dust sediment
Mineralogical Magazine (October 2011) 75 (5): 2611-2629
- chemical fractionation
- clastic sediments
- dust
- England
- Europe
- EXAFS data
- goethite
- Great Britain
- heavy metals
- human ecology
- Manchester England
- metals
- oxides
- pollutants
- pollution
- public health
- roads
- sediments
- SEM data
- sheet silicates
- silicates
- solid phase
- spectra
- United Kingdom
- urban environment
- Western Europe
- X-ray analysis
- X-ray diffraction data
- X-ray spectra
- XANES spectra
- zinc
X-ray absorption spectroscopy, scanning electron microscopy (SEM) and X-ray diffractometry (XRD) have been used to study the solid-phase speciation of Zn in urban road dust sediments (RDS) in Manchester, UK. X-ray absorption near-edge structure (XANES) analysis using linear combination modelling suggest that the soluble species Zn(NO (sub 3) ) (sub 2) .6H (sub 2) O and ZnCl (sub 2) represent 70-83%, and Zn-sorbed goethite 17-30%, of the Zn species present. The presence of goethite is not corroborated by extended X-ray absorption fine structure (EXAFS) modelled first shell scattering Zn-O distances of 2.01-2.03 Aa, but this may be due to distortion of the Zn octahedra on the goethite surface, or the existence of Zn-sorbed species with other metal hydrous oxides, as inferred by the EXAFS-modelled second shell Fe and Al scatterers. Analysis by EXAFS also suggests that metallic Zn-Cu-Sn-Pb and Zn-silicate phases are present in the RDS, and this is corroborated by SEM and XRD. Other phases suggested by EXAFS include ZnO, franklinite, Zn-sorbed birnessite and zinc formate. Differences between the XANES and other results suggest that model compounds such as Zn-bearing phyllosilicates and metallic Zn phases may have been missing from the XANES fitting. Long-term low-level exposure to the RDS Zn phases identified may lead to an increased risk of cardiovascular or pulmonary diseases.