Impact of Dust Filter Installation in Ironworks and Construction on Brownfield Area on the Toxic Metal Concentration in Street and House Dust (Celje, Slovenia)

Žibret, Gorázd

doi:10.1007/s13280-011-0188-7

Cited by 23 publications

(8 citation statements)

References 12 publications

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“…In all cases, indoor dust Mn levels were significantly lower than outdoor levels, with the median indoor/outdoor dust Mn concentration ratios ranging from 0.15 (Bagnolo Mella) to 0.33 (Valcamonica) to 0.44 (Garda Lake). The differences between indoor and outdoor dust Mn concentrations in Valcamonica and Garda Lake are similar to values of Tong et al (Tong et al, 1998), who reported mean indoor dust Mn levels (224 µg/g) from schools in Hong Kong that were ~40% of outdoor dust Mn levels (532 µg/g), and Zibret et al (Zibret et al, 2012) who reported indoor house dust Mn levels that were ~45% of outdoor levels in the vicinity of a ferroalloy plant in Solvenia (Table 3). …”

Section: Discussionsupporting

confidence: 87%

“…Notably, that study also reported a significant inverse relationship between dust Mn levels and distance from the steel plant, as we observed in Bagnolo Mella. (Zibret et al, 2013) Separately, a study by Zibret et al, (Zibret et al, 2012) reported outdoor dust Mn levels of 2970 µg/g in the vicinity of a ferroalloy plant in Celje, Slovenia, where levels declined by half to 1310 µg/g following installation of emission control filters on the plant. These data show that, in general, active ferromanganese alloy plant operations significantly impact the local dust Mn levels.…”

Section: Discussionmentioning

confidence: 99%

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Impact of ferromanganese alloy plants on household dust manganese levels: Implications for childhood exposure

Lucas

Bertrand

Guazzetti

et al. 2015

Environmental Research

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Adolescents living in communities with ferromanganese alloy plant activity have been shown to exhibit deficits in olfactory and fine motor function. Household dust may serve as an important manganese (Mn) exposure pathway to children, though dust Mn concentrations have not previously been measured to assess household contamination from ferromanganese alloy plant emissions. Here we determined the association between dust concentrations and surface loadings of Mn and other metals (Al, Cd, Cr, Cu, Fe, Pb, and Zn) in indoor and outdoor household dust from three Italian communities that differ by history of ferromanganese alloy plant activity: Bagnolo Mella, with an active ferromanganese alloy plant (n=178 households); Valcamonica, with historically active plants (n=166); and Garda Lake, with no history of ferromanganese plant activity (n=99). We also evaluated Mn levels in other environmental (soil, airborne particulates) and candidate biomarker (blood, hair, saliva, fingernails) samples from children within the households. Household dust Mn concentrations and surface loadings were significantly different between the three sites, with levels highest in Bagnolo Mella (outdoor median Mn concentration = 4620, range 487 – 183,000 µg/g), intermediate in Valcamonica (median = 876, range 407 – 8240 µg/g), and lowest in Garda Lake (median = 407, range 258 – 7240 µg/g). Outdoor dust Mn concentrations in Bagnolo Mella, but not the other communities, were significantly inversely related with distance from the plant (R2=0.6630, P<0.0001). Moreover, outdoor dust Mn concentrations and loadings were highly predictive of but significantly higher than indoor dust Mn concentrations and loadings by ~2 to ~7-fold (Mn concentrations) and ~7 to ~20-fold (Mn loadings). Finally, both indoor and outdoor dust Mn concentrations and outdoor dust Mn loading values were highly significantly correlated with both soil and air Mn concentrations, and with children’s hair and fingernail Mn concentrations, but weakly or not associated with saliva or blood Mn levels. Given the evidence associating elevated Mn exposure with neurological impairments in children, these data support that dust Mn levels should be reduced in contaminated environments to protect the health of resident children.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionmentioning

confidence: 99%

Impact of ferromanganese alloy plants on household dust manganese levels: Implications for childhood exposure

Lucas

Bertrand

Guazzetti

et al. 2015

Environmental Research

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“…Since XRF-measured Cr was not accurate and no XRF measurement of Cd was higher than the detection limit, XRF measurements of Cr and Cd were abandoned and only ICP measurements of these two elements were used in further analysis. Although 50 % of the detection limit may be used as the substitution in cases where concentrations were BDLs (Zibret 2012), taking this substitution into account would bring about big errors when establishing regression models and performing the transformations. Therefore, in the data transformation stage, ICP measurements of Pb, Zn, Cu, Cr, and Cd were reserved at the training sample points, and XRF measurements of Pb, Zn, and Cu that were higher than detection limit were transformed using the regression models at other data points.…”

Section: Appendix 2: Xrf Data Transformationmentioning

confidence: 99%

“…On the one hand, soil particles can enter the atmosphere as dusts, being further carried by wind into sensitive environments (Meza-Figueroa et al 2007). These dusts mainly come from urban construction sites (Zibret 2012) and vehicular exhaust (Johansson et al 2009). On the other hand, contaminated urban soils may also affect water quality due to surface runoff and soil erosion (Helmreich et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Spatial distribution and ecological risk assessment of trace metals in urban soils in Wuhan, central China

Zhang

Yang

et al. 2015

Environ Monit Assess

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Surface soil samples from 467 sample sites were collected in urban area of Wuhan City in 2013, and total concentrations of five trace metals (Pb, Zn, Cu, Cr, and Cd) were measured. Multivariate and geostatistical analyses showed that concentrations of Pb, Zn, and Cu are higher along Yangtze River in the northern area of Wuhan, gradually decrease from city center to suburbs, and are mainly controlled by anthropogenic activities, while those of Cr and Cd are relatively spatially homogenous and mainly controlled by soil parent materials. Pb, Zn, Cu, and Cd have generally higher concentrations in roadsides, industrial areas, and residential areas than in school areas, greenbelts, and agricultural areas. Areas with higher road and population densities and longer urban construction history usually have higher trace metal concentrations. According to estimated results of the potential ecological risk index and Nemero synthesis pollution index, almost the whole urban area of Wuhan is facing considerable potential ecological risk caused by soil trace metals. These results reveal obvious trends of trace metal pollution, and an important impact of anthropogenic activities on the accumulation of trace metals in soil in Wuhan. Vehicular emission, industrial activities, and household wastes may be the three main sources for trace metal accumulation. Increasing vegetation cover may reduce this threat. It should be pointed out that Cd, which is strongly accumulated in soil, could be the largest soil pollution factor in Wuhan. Effective measures should be taken as soon as possible to deal with Cd enrichment, and other trace metals in soil should also be reduced, so as to protect human health in this important large city.

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“…Attic dust is derived predominantly from external sources such as aerosol deposits and as a result of crop dusting and less from household activities (Šajn 1999, 2003). Attic dust as sampling material has the advantage that its composition remains constant, i.e., chemically unchanged over time, as long as the anthropogenic source of pollution is not changed; otherwise, it changes over time (Žibret and Rokavec 2010;Žibret 2012). Investigations of attic dust chemistry therefore reveal the average historical state of the atmosphere (Šajn 1999, 2000, 2005Balabanova et al 2011;Bačeva et al 2011;Stafilov et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Influence of a nickel smelter plant on the mineralogical composition of attic dust in the Tikveš Valley, Republic of Macedonia

Boev

Stafilov

Baceva

et al. 2012

Environ Sci Pollut Res

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Mineral phases and their content were determined in attic dust samples collected from 27 houses in the Tikveš Valley, Republic of Macedonia. By using quantitative X-ray diffraction, the principal mineral phases were determined to be the serpentinite group (chrysotile, lizardite) and amphibole group of minerals (ribecite, tremolite, actinolite) present in the attic dust samples from this region which are not common constituents of urban dust. Strong correlations existed between these mineral phases in the dust and those in ores processed at a ferronickel smelter plant situated in this region. Spatial distributions of specific mineral phases were made and were consistent with wind directions and predicted deposition (60-70 %) of dust emitted from the metallurgical plant.

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Impact of Dust Filter Installation in Ironworks and Construction on Brownfield Area on the Toxic Metal Concentration in Street and House Dust (Celje, Slovenia)

Cited by 23 publications

References 12 publications

Impact of ferromanganese alloy plants on household dust manganese levels: Implications for childhood exposure

Impact of ferromanganese alloy plants on household dust manganese levels: Implications for childhood exposure

Spatial distribution and ecological risk assessment of trace metals in urban soils in Wuhan, central China

Influence of a nickel smelter plant on the mineralogical composition of attic dust in the Tikveš Valley, Republic of Macedonia

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