Magnetic, Geochemical, and Microstructural Characteristics of Road Dust on Roadsides with Different Traffic Volumes—Case Study from Finland
The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in ho...
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| Published in: | Water, air, and soil pollution Vol. 209; no. 1-4; pp. 295 - 306 |
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| Format: | Journal Article |
| Language: | English |
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Dordrecht : Springer Netherlands
01-06-2010
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| Abstract | The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal (κ) and vertical (χ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100 μm) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d ~ 3-15 μm) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. |
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| AbstractList | The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal (κ) and vertical (χ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100 µm) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d ~ 3-15 µm) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. Keywords Roadside soils * Vehicle emissions * Magnetic material * Traffic volume * Environmental magnetics The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal ( κ ) and vertical ( χ ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2–100 μm) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules ( d ~ 3–15 μm) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal (K) and vertical (j) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100km) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d~3-15km) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal (κ) and vertical (χ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100 μm) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d~3-15 μm) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils.[PUBLICATION ABSTRACT] The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal (κ) and vertical (χ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100 μm) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d ~ 3-15 μm) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. The combination of magnetic, geochemical, and microstructural methods was used to characterize road dust properties in roadside soils of two sites in southern Finland: a highway (Tuusula no. 45, high traffic volume) and a local road (Mikkeli no. 13, low traffic volume). Significant differences in horizontal ( Kappa ) and vertical ( chi ) distribution of magnetic susceptibility were observed in the investigated roadside soils. These variations were concluded to be mostly associated to traffic volume, which is considered to be a major factor that determines the degree of particle emissions derived from vehicle traffic. Magnetic parameters of hysteresis, isothermal remanence magnetization (IRM) acquisition curves, and thermomagnetic data indicated coarse-grained (pseudo-single-domain/multi-domain) magnetite as the primary magnetic carrier. Scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDX) analyses identified two groups of magnetic materials: angular/aggregate particles (diameter ~2-100 mu m) derived from circulation of motor vehicles (e.g., vehicle exhaust emission, cycling of dust in suspension due to vehicular movement, dispersion of road construction materials, and abrasion of tires, brake linings, and road surface), and magnetic spherules (d~3-15 mu m) possibly originating from industrial and domestic heating systems. Concentrations of selected trace elements Cu, Zn, and Pb in highway roadside soils were significantly higher than those in local roadside soils. |
| Audience | Academic |
| Author | Janus, Barbara Pesonen, Lauri J Bućko, Michał S Magiera, Tadeusz |
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| Copyright | Springer Science+Business Media B.V. 2009 2015 INIST-CNRS COPYRIGHT 2010 Springer Springer Science+Business Media B.V. 2010 |
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| Keywords | Environmental magnetics Magnetic material Traffic volume Roadside soils Vehicle emissions Scanning electron microscopy Highway Identification Traffic load Soil pollution Dispersive spectrometry Heavy metal Magnetic susceptibility Road side Trace element Dust Remanent magnetization Pollution source Freeway Road traffic Hysteresis Magnetic properties Anthropogenic factor |
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| PublicationPlace_xml | – name: Dordrecht |
| PublicationSubtitle | An International Journal of Environmental Pollution |
| PublicationTitle | Water, air, and soil pollution |
| PublicationTitleAbbrev | Water Air Soil Pollut |
| PublicationYear | 2010 |
| Publisher | Dordrecht : Springer Netherlands Springer Netherlands Springer Springer Nature B.V |
| Publisher_xml | – name: Dordrecht : Springer Netherlands – name: Springer Netherlands – name: Springer – name: Springer Nature B.V |
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| SubjectTerms | Air pollution Applied sciences Atmospheric Protection/Air Quality Control/Air Pollution Case studies Climate Change/Climate Change Impacts Combustion products Construction Construction materials Dust Earth and Environmental Science Earth sciences Earth, ocean, space Emissions Engineering and environment geology. Geothermics Environment Environmental monitoring Exact sciences and technology Geochemistry Heating systems Hydrogeology Industrial plant emissions Laboratories magnetic properties Magnetic susceptibility Magnetite Magnetization Mineralogy Motor vehicles Outdoor air quality Pollution Pollution sources. Measurement results Pollution, environment geology Road construction Roads Roads & highways roadside soils Roadsides Scanning electron microscopy Sensors Soil and sediments pollution Soil contamination soil pollution Soil Science & Conservation Speed limits Spherules Studies Tires Trace elements Vehicle emissions Vehicles Water Quality/Water Pollution X-ray spectroscopy |
| Title | Magnetic, Geochemical, and Microstructural Characteristics of Road Dust on Roadsides with Different Traffic Volumes—Case Study from Finland |
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