Linkage between solid-phase apportionment and bioaccessible arsenic, chromium and lead in soil from Glasgow, Scotland, UK

Wragg, Joanna; Broadway, A.; Cave, Mark; Fordyce, F.M.; Palumbo-Roe, Barbara; Beriro, Darren J.; Farmer, John G.; Graham, Margaret C.; Ngwenya, Bryne T.; Bewley, R. J. F.

doi:10.1017/s1755691018000762

Cited by 3 publications

(5 citation statements)

References 40 publications

(153 reference statements)

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“…Although the CISED procedure does not incorporate simulated biological fluids, and so does not accurately mimic dissolution processes within the human body, it does provide an indication of the physico-chemical components in the test material and how PHE are distributed between them, from which information on relative lability, mobility and bioavailability can be inferred. There are also indications that the output of the CISED can be related to results of the physiologically relevant Unified BARGE Method [57]. Application of the flow through CISED procedure to samples collected during air quality monitoring programmes worldwide could thus provide valuable information on the binding and potential mobility of PHE associated with respirable PM, and hence contribute towards greater understanding of the exposure of urban populations to airborne pollutants.…”

Section: Discussionmentioning

confidence: 99%

“…Calibration was with respect to solutions freshly-prepared by serial dilution of Agilent Technologies multi-element standard solution 2A. The nuclides quantified were: 27 Al, 137 Ba, 40 Ca, 52 Cr, 53 Cr, 63 Cu, 65 Cu, 56 Fe, 57 Fe, 39 K, 24 Mg, 55 Mn, 23 Na, 60 Ni, 31 P, 206 Pb, 207 Pb, 208 Pb, 28 Si, 29 Si, 88 Sr, 45 Ti, 51 V, 64 Zn, and 66 Zn. The internal standard was 115 In.…”

Section: Icp-ms Analysismentioning

confidence: 99%

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Comparison of two non-specific flow-through sequential extraction approaches to identify the physico-chemical partitioning of potentially harmful elements in a certified reference material

Sagagi

Davidson

Cave

et al. 2021

Talanta

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Two non-specific sequential extraction methods utilising chemometric data processing (chemometric identification of substrates and element distribution, CISED) have been developed and used to determine the physico-chemical partitioning of potentially harmful elements (PHE) in certified reference material BCR CRM 701 (lake sediment). A miniaturised centrifugation method in which the sample was extracted on a filter insert in a polypropylene centrifuging tube, and a quasi-flow through method in which the sample was supported on a TX40 filter in a 47 mm in-line polycarbonate filter holder, gave similar results. The CISED data processing identified nine components. Seven of these were of geochemical origin -two carbonate components, an Al/Fe oxide/hydroxide component, three Fe-dominated components and one Si-dominated component -while the others represented the TX40 filter blank. The overall extraction capabilities of the methods were similar to that of the well-established BCR sequential extraction (steps 1-3). However, whilst the BCR extraction is operationally defined, the CISED provides information on associations between PHE and the geochemical components identified. The flow through CISED procedure has potential applications in investigating the chemical speciation of PHE associated with urban airborne particular matter.

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Section: Discussionmentioning

confidence: 99%

Section: Icp-ms Analysismentioning

confidence: 99%

Comparison of two non-specific flow-through sequential extraction approaches to identify the physico-chemical partitioning of potentially harmful elements in a certified reference material

Sagagi

Davidson

Cave

et al. 2021

Talanta

Self Cite

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“…The CISED approach for determining the physico-chemical fractionation of Pb in the test soils has been previously described in a number of studies [13,[23][24][25][26]. The CISED method is designed to identify the distribution and physical form of PTE within the constituents of any given soil and developed to overcome the problems associated with traditional sequential extraction methods [21].…”

Section: Pb Extraction Profilesmentioning

confidence: 99%

Investigating the Geochemical Controls on Pb Bioaccessibility in Urban Agricultural Soils to Inform Sustainable Site Management

et al. 2020

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The solid-phase speciation of contaminants in soil plays a major role in regulating both the environmental mobility of contaminants and their bioavailability in biological receptors such as humans. With the increasing prevalence of urban agriculture, in tandem with growing evidence of the negative health impacts of even low levels of exposure to Pb, there is a pressing need to provide regulators with a relevant evidence base on which to build human health risk assessments and construct sustainable site management plans. We detail how the solid-phase fractionation of Pb from selected urban agricultural soil samples, using sequential extraction, can be utilised to interpret the bioaccessible fraction of Pb and ultimately inform sustainable site management plans. Our sequential extraction data shows that the Pb in our urban soils is primarily associated with Al oxide phases, with the second most important phase associated with either Fe oxyhydroxide or crystalline FeO, and only to a limited extent with Ca carbonates. We interpret the co-presence of a P component with the Al oxide cluster to indicate the soils contain Pb phosphate type minerals, such as plumbogummite (PbAl3(PO4)2(OH)5·H2O), as a consequence of natural “soil aging” processes. The presence of Pb phosphates, in conjunction with our biomonitoring data, which indicates the lack of elevated blood Pb levels in our gardeners compared to their non-gardening neighbours, suggests the (legacy) Pb in these soils has been rendered relatively immobile. This study has given confidence to the local authority regulators, and the gardeners, that these urban gardens can be safe to use, even where soil Pb levels are up to ten times above the UK’s recommended lead screening level. The advice to our urban gardeners, based on our findings, is to carry on gardening but follow recommended good land management and hygiene practices.

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“…The soil paper by Fordyce et al (2018b) reveals that metal concentrations in the urban environment (especially copper, molybdenum, nickel, lead, antimony, zinc and chromium) are typically up to 2.1 times (median values) those of rural soil, as a consequence of urbanisation. The bioaccessibility and mobility of arsenic, chromium and lead in Glasgow soil are evaluated further in the paper by Wragg et al (2018). Similarly, Kim et al (2018) document the extent of persistent organic pollutants (POPs) associated with various land uses in Glasgow and demonstrate that polycyclic aromatic hydrocarbons (PAHs) in the urban soil are largely derived from the combustion of fossil fuels.…”

Section: The Clyde-urban Super-project (Cusp)mentioning

confidence: 99%

“…The bioaccessibility and mobility of arsenic, chromium and lead in Glasgow soil are evaluated further in the paper by Wragg et al . (2018). Similarly, Kim et al .…”

Section: The Clyde-urban Super-project (Cusp)mentioning

confidence: 99%

The Geoscience Context for Europe's Urban Sustainability – Lessons from Glasgow and Beyond (CUSP): preface

Fordyce¹,

Campbell²

2017

Earth and Environmental Science Transactions of the Royal Socie

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Linkage between solid-phase apportionment and bioaccessible arsenic, chromium and lead in soil from Glasgow, Scotland, UK

Cited by 3 publications

References 40 publications

Comparison of two non-specific flow-through sequential extraction approaches to identify the physico-chemical partitioning of potentially harmful elements in a certified reference material

Comparison of two non-specific flow-through sequential extraction approaches to identify the physico-chemical partitioning of potentially harmful elements in a certified reference material

Investigating the Geochemical Controls on Pb Bioaccessibility in Urban Agricultural Soils to Inform Sustainable Site Management

The Geoscience Context for Europe's Urban Sustainability – Lessons from Glasgow and Beyond (CUSP): preface

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