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. 2024 Apr 9;46(5):164.
doi: 10.1007/s10653-024-01954-z.

Neighborhood-scale lead (Pb) speciation in Akron, Ohio (USA) soils: primary sources, post-deposition diagenesis, and high concentrations of labile Pb

Nicholas Santoro  1 David M Singer  2 Bridget K Mulvey  3 Katrina Halasa  4 Nadya Teutsch  5 Allie Shedleski  1 Madison Wood  1
Affiliations

Neighborhood-scale lead (Pb) speciation in Akron, Ohio (USA) soils: primary sources, post-deposition diagenesis, and high concentrations of labile Pb

Nicholas Santoro et al. Environ Geochem Health. .

Abstract

Lead (Pb) poses a significant risk to infants and children through exposure to contaminated soil and dust. However, there is a lack of information on Pb speciation and distribution at the neighborhood-scale. This work aimed to determine: (1) the distribution of acid-extractable (labile) Pb and other metals ([M]AE) in two neighborhoods in Akron, Ohio (USA) (Summit Lake and West Akron; n = 82 samples); and (2) Pb speciation and potential sources. Total metal concentration ([M]T) and [M]AE was strongly correlated for Pb and Zn (R2 of 0.66 and 0.55, respectively), corresponding to 35% and 33% acid-extractability. Lead and Zn exhibited a strong positive correlation with each other (R2 = 0.56 for MT and 0.68 for MAE). Three types of Pb-bearing phases were observed by electron microscopy: (1) galena (PbS)-like (5-10 μm); (2) paint chip residuals (10-20 μm); and (3) Pb-bearing Fe-oxides (20 μm). Isotope ratio values for PbAE were 1.159 to 1.245 for 206Pb/207Pb, and 1.999 to 2.098 for 208Pb/206Pb, and there was a statistically significant difference between the two neighborhoods (p = 0.010 for 206Pb/207Pb and p = 0.009 for 208Pb/206Pb). Paint and petrol are the dominant sources of Pb, with some from coal and fly ash. Lead speciation and distribution is variable and reflects a complex relationship between the input of primary sources and post-deposition transformations. This work highlights the importance of community science collaborations to expand the reach of soil sampling and establish areas most at risk based on neighborhood-dependent Pb speciation and distribution for targeted remediation.

Keywords: Lead; Metal contamination; Pb isotopes; Urban soil.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

Fig. 1
Fig. 1
A location of Akron, OH (USA); B map of Akron (in blue) with the locations of the West Akron and Summit Lake neighborhoods outlined in dashed lines. Each circle represents the location where a soil sample was collected; the symbol size corresponds to the amount of total Pb (PbT) and the symbol color corresponds to the amount of nitric acid-extractable Pb (PbAE)
Fig. 2
Fig. 2
Box-and-whisker plots (left) for [M]T and [M]AE for M = Ti, Cr, Mn, Cu, Zn, and Pb (n = 82), and scatter plots (right) showing the relationship between [M]T and [M]AE
Fig. 3
Fig. 3
Representative SEM images and EDS element maps for two samples showing Pb–S-rich phases consistent with the composition and morphology of galena. Values for [Pb]T and [Pb]AE were 263 mg/kg and 26 mg/kg, respectively (A) and 762 mg/kg and 114 mg/kg, respectively (B)
Fig. 4
Fig. 4
Representative SEM images and EDS maps of Pb-Ti–O-rich phases consistent with paint particles. Values for [Pb]T and [Pb]AE were 544 mg/kg and 123 mg/kg, respectively (A) and 517 mg/kg and 102 mg/kg, respectively (B)
Fig. 5
Fig. 5
Representative SEM images and EDS maps of Pb-Fe–O-rich phases consistent with Pb associated with Fe-oxides. Values for [Pb]T and [Pb]AE were 435 mg/kg and 260 mg/kg, respectively (A) and 139 mg/kg and 79 mg/kg, respectively (B)
Fig. 6
Fig. 6
Isotopic composition of acid-extractable Pb (PbAE) for all Akron soil samples separated by neighborhood (red triangles for Summit Lake; and blue circles for West Akron). Also included are average data and ranges for US soil (natural Pb, gray area), paint (short dash-lined area), petrol (solid-lined region), and coal and fly ash (long dashed-line area) (Wang et al., 2019). Error bars (representing instrumental error based on reference standards collected in between samples) are smaller than the data symbols
See this image and copyright information in PMC

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