Evaluating specificity of sequential extraction for chemical forms of lead in artificially-contaminated and field-contaminated soils

Tai, Yu‐Chong; McBride, Murray B.; Li, Zhaojun

doi:10.1016/j.talanta.2013.01.008

Cited by 22 publications

(12 citation statements)

References 23 publications

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“…Highly variable spatial distribution of Pb in soils of urban environments, from the scale of several hundred meters (Säumel et al, 2012; Shinn et al, 2000) to the minute scale of the root zone, soil aggregates and microscopic particles (Tai et al, 2013; Wharton et al, 2012). …”

Section: Introductionmentioning

confidence: 99%

Concentrations of lead, cadmium and barium in urban garden-grown vegetables: The impact of soil variables

McBride

Shayler

Spliethoff

et al. 2014

Environmental Pollution

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191

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Paired vegetable/soil samples from New York City and Buffalo, NY, gardens were analyzed for lead (Pb), cadmium (Cd) and barium (Ba). Vegetable aluminum (Al) was measured to assess soil adherence. Soil and vegetable metal concentrations did not correlate; vegetable concentrations varied by crop type. Pb was below health-based guidance values (EU standards) in virtually all fruits. 47% of root crops and 9% of leafy greens exceeded guidance values; over half the vegetables exceeded the 95th percentile of market-basket concentrations for Pb. Vegetable Pb correlated with Al; soil particle adherence/incorporation was more important than Pb uptake via roots. Cd was similar to market-basket concentrations and below guidance values in nearly all samples. Vegetable Ba was much higher than Pb or Cd, although soil Ba was lower than soil Pb. The poor relationship between vegetable and soil metal concentrations is attributable to particulate contamination of vegetables and soil characteristics that influence phytoavailability.

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Section: Introductionmentioning

confidence: 99%

Concentrations of lead, cadmium and barium in urban garden-grown vegetables: The impact of soil variables

McBride

Shayler

Spliethoff

et al. 2014

Environmental Pollution

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191

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“…Previous investigations using the electron microprobe have revealed a strong tendency for Pb in anthropogenically contaminated soils to be spatially distributed in a highly heterogeneous manner (Cotter-Howells, 1996;Fleming et al, 2013;Tai et al, 2013;McBride, 2016). This characteristic was observed in the soils of the present study, with the EDS X-ray spectra of selected Pb-rich regions within the (Albany) urban soil and orchard soil in Figure 3 showing a clearer indication of a Pb phosphate phase in the former soil, as the Pb "peak" has greater intensity than the P "peak", consistent with the measured X-ray spectrum of pyromorphite (not shown here).…”

Section: Microprobe Results For Pb-rich Particlesmentioning

confidence: 99%

“…We used a density separation procedure to concentrate Pb-rich particles in the high-Pb urban and orchard soils, as previous investigation of contaminated orchard and urban soils had indicated that Pb tends to be concentrated in discrete particles (Tai et al, 2013).…”

Section: Electron Microprobe Investigation Of Pb-rich Particlesmentioning

confidence: 99%

Bioaccessibility of As and Pb in orchard and urban soils amended with phosphate, Fe oxide and organic matter

Cai

McBride

et al. 2017

Chemosphere

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Soils historically contaminated in urban and orchard environments by Pb and As were amended separately with organic matter, soluble Ca phosphate, and Fe oxide to determine whether these materials could lower Pb or As bioaccessibility. After 5 years of equilibration in the laboratory, the amended soils and control were tested for bioaccessibility using the standard physiologically based extraction test (PBET). Bioaccessibilities of Pb and As were not substantially reduced relative to the unamended controls after the 5-year period by any of the soil amendments. Gastric bioaccessibility (GB) of Pb was in all cases much greater than gastrointestinal bioaccessibility (GIB) regardless of soil treatment, whereas GB and GIB of As were similar in magnitude for all soils. Both GB and GIB of Pb were greater in the orchard than the urban soil. Electron microprobe investigations identified discrete particulate forms of Pb in the soils by elemental mapping, and energy dispersive spectrometry (EDS) revealed a frequent spatial association of Pb-rich particles with phosphorus. It is suggested that Pb-rich particles in anthropogenically contaminated soils resist chemical transformation into less labile forms despite thermodynamic favorability because of their low surface area and low solubility. This kinetic effect could explain the observed ineffectiveness of amendments in reducing metal bioaccessibility.

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“…The sequential extraction procedure, as shown in Tab. , was chosen for the optimized BCR scheme . Sequential extraction was performed for both fractions of contaminated soil: The fraction extracted by LED3A and the fraction without extraction.…”

Section: Methodsmentioning

confidence: 99%

“…At present, sequential extraction techniques are commonly used to study heavy metal behavior in soils. The BCR (formerly the Community Bureau of Reference) sequential extraction procedure is recommended by the Standards, Measurements and Testing Program of the European Commission .…”

Section: Introductionmentioning

confidence: 99%

Removal of Lead and Zinc From Contaminated Soil by a Novel Chelating Surfactant

Qiao

Zhao

Diao

et al. 2016

CLEAN Soil Air Water

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In the present study, the focus was to explore the feasibility of using a chelating surfactant, sodium N-lauroyl ethylenediamine triacetate (LED3A), as an effective washing reagent for lead (Pb)-and zinc (Zn)-contaminated soils. The total content of Pb and Zn was equal to 949.6 and 936.4 mg kg À1 , respectively. A series of batch washing experiments was conducted. The results showed that the washing experiments reached equilibrium within 17 h, at >3 g L À1 LED3A. The desorption processes of Pb and Zn could be best described by the pseudo-second-order equation. The intra-particle diffusion model implied that the desorption processes included three continuous stages, and that intra-particle diffusion was not the only rate-limiting step. Results from the effect of the LED3A concentration and temperature indicated that desorption of Pb and Zn was an endothermic process, and the optimum concentration of LED3A was 7 g L À1 . Data from sequential extractions showed that LED3A washing resulted in the decrease of the Pb and Zn percentage in the mobile fractions, and an increase in fractions strongly bonded to the soil matrix. LED3A showed a significant potential for chelating extensive amounts of the used heavy metals from contaminated soil.

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Evaluating specificity of sequential extraction for chemical forms of lead in artificially-contaminated and field-contaminated soils

Cited by 22 publications

References 23 publications

Concentrations of lead, cadmium and barium in urban garden-grown vegetables: The impact of soil variables

Concentrations of lead, cadmium and barium in urban garden-grown vegetables: The impact of soil variables

Bioaccessibility of As and Pb in orchard and urban soils amended with phosphate, Fe oxide and organic matter

Removal of Lead and Zinc From Contaminated Soil by a Novel Chelating Surfactant

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