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2013 | 51 |

Tytuł artykułu

Magnetometria jako narzędzie do oceny zanieczyszczeń środowiska

Treść / Zawartość

Warianty tytułu

EN
Magnetometry as a tool to evaluate the environmental pollution

Języki publikacji

PL

Abstrakty

EN
This paper presents the use of magnetometry to study pollution of soil and air. The magnetic method consists in determining the magnetic properties of pollution floating in the air and deposited in the soil, the leaves of trees or household dust in apartments. The method based on the fact that the magnetic particles present in the pollution are associated with heavy metals and toxic trace elements harmful to human health. The study of traffic pollution was focused on the spatial distribution of pollution in soils along roads in relation to the distance from the edge of road, the area topography and the factors affecting the speed of motor transport (traffic lights, traffic jams, road narrowing, etc.). The study of air pollution allowed to determine the seasonal correlation between pollution deposited on filters and meteorological parameters such as temperature, humidity and precipitation. Detailed analysis of magnetic susceptibility as an indicator of pollution revealed increasing trend with temperature and absolute humidity in the cold months of the year and the decreasing trend in the warm months. Similar correlations were not observed between the magnetic susceptibility and the precipitation. The second part presents a study of indoor air pollution based on measurements of dust collected in apartments in different districts of Warsaw. It was found that floor on which dust was taken did not affect the amount and composition of pollution in opposite to vehicle traffic, housing density and way of ventilation. Study shows that the most polluted apartments are in the Center, in the district of Praga Południe, Mokotów and Ursynów located close to the narrow streets with the large vehicle traffic and poor ventilation. Correlation of the magnetic susceptibility with the concentration of heavy metals in household dust is the base for use of susceptibility for monitoring indoor air pollution.

Wydawca

-

Rocznik

Tom

51

Opis fizyczny

s.17-28,rys.,wykr.,bibliogr.

Twórcy

  • Instytut Geofizyki - Polska Akademia Nauk, Warszawa
autor
  • Instytut Geofizyki - Polska Akademia Nauk, Warszawa
  • Instytut Geofizyki - Polska Akademia Nauk, Warszawa

Bibliografia

  • Bućko M.S., Magiera T., Johanson B., Petrovský E. Pesonen L.J., 2011, Identification of magnetic particulates in road dust accumulated on roadside snow using magnetic, geochemical and micromorphological analyses, Environ. Pollut. 159, 1266-1276.
  • Bućko M.S., Magiera T., Pesonen L.J. Janus B., 2010, Magnetic, geochemical, and microstructural characteristics of road dust on roadsides with different traffic volumes - case study from Finland, Water Air Soil. Pollut. 209, 295-306.
  • Fabian K., Reimann C., McEnroe S.A. Willemoes-Wissing B., 2011, Magnetic properties of terrestrial moss (Hylocomium splendens) along a north-south profile crossing the city of Oslo, Norway, Sci. Tot. Environ. 409, 2252-2260.
  • Gautam P., Blaha U., Appel E. Neupane G., 2004, Environmental magnetic approach towards the quantification of pollution in Kathmandu urban area, Nepal, Phys. Chem. Earth 29, 973-984.
  • Goddu S.R., Appel E., Jordanova D. Wehland F., 2004, Magnetic properties of road dust from Visakhapatnam (India) - relationship to industrial pollution and road traffic. Phys. Chem. Earth 29, 985-995.
  • Górka-Kostrubiec B., Król E., Jeleńska M., 2012a, Podatność magnetyczna jako wskaźnik zanieczyszczeń komunikacyjnych w wybranych lokalizacjach w Warszawie. Prace Naukowe Politechniki Warszawskiej seria „INŻYNIERIA ŚRODOWISKA” 59, 67-82.
  • Górka-Kostrubiec B., Król E., Jeleńska M., 2012b, Magnetic measurements of polluted filters in relation to meteorological conditions - Case study from Warsaw, Stud. Geophys. Geod. 56, 861-877.
  • Hjortenkrans D.S.T., Bergbäck B.G., Haggerud A.V., 2007, Metal emissions from brake linings and tires-case studies of Stockholm, Sweden 1995/98 and 2005, Environmental Science and Technology 41, 5224-5230.
  • Jeleńska M., Hasso-Agopsowicz A., Kadzialko-Hofmokl M., Kopcewicz B., Sukhorada A., Bondar K., Matviishina Zh., 2008, Magnetic structure of the polluted soil profiles from eastern Ukraine, Acta Geophys. 56, 1043-1064.
  • Jeleńska M., Hasso-Agopsowicz A., Kopcewicz B., Sukhorada A., Tyamina K., Kądziałko-Hofmokl M., Matviishina Z., 2004, Magnetic properties of the profiles of polluted and non-polluted soils. A study case from Ukraine, Geophys. J. Int. 159, 104-116.
  • Jeleńska M., Górka-Kostrubiec B., Król E., 2011, Magnetic properties of dust as indicators of indoor air pollution: preliminary results. in: Management of Indoor Air Quality-Dudzińska (ed) Taylor & Francis Group, London, 129-136.
  • Jordanova D., Jordanova N., Lanos Ph., Petrov P., Tsacheva T., 2012, Magnetism of outdoor and indoor settled dust and its utilization as a tool for revealing the effect of elevated particulate air pollution on cardiovascular mortality, Geochem. Geophys. Geosyst. 13, Q08Z49, doi: 10.1029/2012GC004160.
  • Magiera T., Strzyszcz Z., Kapička A., Petrovsky E., 2006, Discrimination of lithogenic and anthropogenic influence on topsoil magnetic susceptibility in Central Europe. Geoderma 130, 279-311.
  • Król E., Górka-Kostrubiec B., Jeleńska M., 2013, The magnetometric study of indoor air pollution inside flats located in Warsaw and its suburbs, [w:] A. Pawłowski, M. Dudzińska & L. Pawłowski (red.), Environmental Engineering IV,- Taylor & Francis Group, London, 323-329.
  • Maher B.A., Mooreb C., Matzkac J., 2008, Spatial variation in vehicle-derived metal pollution identified by magnetic and elemental analysis of roadside tree leaves, Atmos. Environ. 42, 364-373.
  • Mitchell R., Maher B., 2009, Evaluation and application of biomagnetic monitoring of trafficderived particulate pollution, Atmos. Environ. 43, 2095-2103.
  • Moreno E., Sagnotti L., Dinarès-Turell J., Winkler A., Cascella A., 2003, Biomonitoring of traffic air pollution in Rome using magnetic properties of tree leaves, Atmos. Environ. 37, 2967-2977.
  • Muxworthy A.R., Matzka J., Petersen N., 2001, Comparison of magnetic parameters of urban atmospheric particulate matter with pollution and meteorological data, Atmos. Environ. 35, 4379-4386.
  • Muxworthy A.R., Matzka J., Davila A.F., Petersen N., 2003, Magnetic signature of daily sampled urban atmospheric particles, Atmos. Environ. 37, 4163-4169.
  • Muxworthy A.R., Schmidbauer E. Petersen N., 2002, Magnetic properties and Mössbauer spectra of urban atmospheric particulate matter: a case study from Munich, Germany, Geophys. J. Int. 150, 558-570.
  • Sagnotti L., Macri P., Egli R. Mondino M., 2006, Magnetic properties of atmospheric particulate matter from automatic air sampler stations in Latinum (Italy): Toward a definition of magnetic fingerprints for natural and anthropogenic PM10 sources, J. Geophys. Res. 111, B12S22, DOI: 10.1029/2006JB004508.
  • Salo H., Bućko M.S., Vaahtovuo E., Limo J., Mäkinen J., Pesonen L.J., 2012, Biomonitoring of air pollution in SW Finland by magnetic and chemical measurements of moss bags and lichens. Journal of Geochemical Exploration 115, 69-81.
  • Shilton V.F., Booth C.A., Smith J.P., Giess P., Mitchell D.J. Williams C.D., 2005, Magnetic properties of urban street dust and their relationship with organic matter content in the West Midlands, UK, Atmos. Environ. 39, 3651-3659.
  • Spassov S., Egli R., Heller F., Nourgaliev D.K. Hannam J., 2004, Magnetic quantification of urban sources in atmospheric particulate matter, Geophys. J. Int. 159, 555-564.
  • Szönyi M., Sagnotti L., Hirt A.M., 2007, On leaf homogeneity in particulate matter biomonitoring studies, Geophys. Res. Lett. 34, L06306, DOI: 10.1029/2006GL029076.
  • Szönyi M., Sagnotti L. Hirt A.M., 2008, A refined biomonitoring study of airborne particulate matter pollution in Rome, with magnetic measurements on Quercus Ilex tree leaves, Geophys. J. Int. 173, 127-141.

Typ dokumentu

Bibliografia

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Identyfikator YADDA

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