Mineralogical and oxygen isotope composition of inorganic dust-fall in Wrocław (SW Poland) urban area – test of a new monitoring tool

• Autorzy: Górka M. , Jędrysek M.-O. , Lewicka-Szczebak D. , Krajniak J.
• Języki publikacji: EN

Abstrakty

EN

We have analysed the mineralogical and oxygen isotope composition of solid inorganic atmospheric particles (SIAP) in Wrocław (SW Poland) to determine potential natural and anthropogenic sources of deposited dust. The mineralogical compositions of SIAP and local soils are very similar and quite typical. Dust sources were attributed to high emission sources (two large coal-fired power generation plants, i.e., "Wrocław and "Czechnica") and low emission sources (mostly small furnaces for home heating). A mullite phase was confirmed in the non-magnetic fraction of high emission dust. The δ^18181818

Słowa kluczowe

EN

atmospheric particles; anthropogenic; oxygen isotopes; Wrocław

• Wydawca: Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy
• Czasopismo: Geological Quarterly
• Rocznik: 2011
• Tom: Vol. 55, No. 1
• Strony: 71--80
• Opis fizyczny: Bibliogr. 46 poz., rys., tab., wykr.

Twórcy

autor

Górka M.

autor

Jędrysek M.-O.

autor

Lewicka-Szczebak D.

autor

Krajniak J.

• Laboratory of Isotope Geology and Geoecology, Department of Applied Geology and Geochemistry, Institute of Geological Science, University of Wrocław, Cybulskiego 30, PL-50-205 Wrocław, Poland,

Bibliografia

• 1.ALÉON J., CHAUSSIDON M., MARTY B., SCHÜTZ L. and JAENICKE R. (2002) - Oxygen isotopes in single micrometer-sized quartz grains: tracing the source of Saharan dust over long-distance atmospheric transport. Geochim. Cosmochim. Acta, 66 (19): 3351-3365.
• 2.BRILL R. H. (1970) - Lead and oxygen isotopes in ancient objects. Philosoph. Transact. Royal Soc., London, 269: 143-164.
• 3.BURKHARD D. J. M. (2001) - Crystallization and oxidation of Kilauea Basalt Glass: process during reheating experiment. J. Petrol., 42 (3): 507-527.
• 4.CAO J. J., ZHU C. S., CHOWAJ. C., LIU W. G., HAN Y. M. and WATSON J. G. (2008) - Stable carbon and oxygen isotopic composition of cabonate in fugitive dust in the Chinese Loess Plateau. Atmosph. Environ., 42: 9118-9122.
• 5.COLLINS H. P., BLEVINS R. L., BOUNDY L. G., CHRISTENSEN D. R., DICK W. A., HUGGINS D. R. and PAUL E. A. (1999) - Soil carbon dynamics in corn-based agroecosystems: results from carbon-13 natural abundance. Soil Sc. Soc. Am. J., 63: 584-591.
• 6.CONNIN S. L., VIRGINIA R. A. and CHAMBERLAIN C. P. (1997) -Carbon isotopes reveal soil organic matter dynamics following arid land shrub expansion. Oecologia, 110: 374-386.
• 7.COZ E., GÓMEZ-MORENO F. J., PUJADAS M., CASUCCIO G. S., LERSCH T. L. and ART)+ANO B. (2009) - Individual particle characteristics of North African dust under different long-range transport scenarios. Atmosph. Environ., 43: 1850-1863.
• 8.DOCKERY D. and POPE A. (1996) - Epidemiology of acute health effects: summary of time-series studies. In: Particles in our Air: Concentrations and Health Effects (eds. R. Wilson and J. Spengler): 123-147. Harvard University Press, Cambridge, MA, USA.
• 9.DRZENIECKA A., PEREYMA J., PYKA J. L. and SZCZUREK A. (2000) - The impact of meteorological conditions on the air pollutants concentration in Wrocław down-town (in Polish). Chem. Ecol. Engin., 7 (8/9): 865-882.
• 10.FIELITZ P., BORCHARDT G., SCHMÜCKER M., SCHNEIDER H. and WILLICH P. (2003) - Measurements of oxygen grain boundary diffusion in mullite ceramics by SIMS depth profiling. App. Surf. Sc., 203-204: 639-643.
• 11.GÓRKA M. and JĘDRYSEK M.-O. (2004) - Solid atmospheric particles and wet precipitations in Wrocław (SW Poland): mineralogical and isotopic preliminary studies. Pol. Miner. Soc. Spec. Pap., 24: 179-182.
• 12.GÓRKA M. and JĘDRYSEK M.-O. (2008) - d13C of organic atmospheric dust deposited at Wrocław (SW Poland): critical remarks on the passive method. Geol. Quart., 52 (2): 115-126.
• 13.GÓRKA M., JĘDRYSEK M.-O. and STRĄPOĆ D. (2008) - Isotopic composition of sulphates from meteoric precipitation as an indicator of pollutant origin in Wrocław (SW Poland). Isotopes Environ. Health Stud., 44(2): 177-188.
• 14.HAŁAS S., TREMBACZOWSKI A. and JOSSEF A. A. (1982) - Oxygen isotope exchange in BaSO4-O2 system (in Russian). ALL-Union Symposium on Stable Isotope Geochemistry, November 16-19, 1982, Moscow, Acad. Sc. USSR.
• 15.HENDERSON J., EVANS J. A., SLOANE H. J., LENG M. J. and DOHERTY C. (2005) - The use of oxygen, strontium and lead isotopes to provenance the ancient glasses in the Middle East. J. Archaeolog. Sc., 32: 665-673.
• 16.INYANG H. I. and BAE S. (2006) - Impacts of dust on environmental systems and human health. J. Hazardous Mater., 132: v-vi 2006.
• 17.JABŁOŃSKA M. and JANECZEK J. (2000) - Phase composition of atmospheric dust collected at different heights. Acta Miner.-Petrogr., Szeged, 41 Supp. B.
• 18.JABŁOŃSKA M., JANECZEK J. and M. RIETMEIJER F. J. (2003) - Seasonal changes in the mineral compositions of tropospheric dust in the industrial region of Upper Silesia, Poland. Miner. Mag., 67: 1231-1241.
• 19.JACKSON M. L. (1981) - Oxygen isotopic ratios in quartz as an indicator of provenance of dust. Geol. Soc. Am. Spec. Pap., 186: 27-36.
• 20.JACKSON M. L. (1985) - Soil chemical analysis. Advanced Course, 2nd edition. 11th printing, published by the author, Madison, WIS 53705 (Revised from 1956 edition).
• 21.JĘDRYSEK M.-O. (2000) - Oxygen and sulphur isotope dynamics in the SO2 of an urban precipitation. Water Air Soil Pollut., 117: 15-25.
• 22.JĘDRYSEK M.-O. (2003) - The new data regarding variations in d34S(SO42-) and d18O(SO42-) in precipitation waters: the potential tracer of supplying surface and groundwaters (in Polish). In: Current Problems of Hydrogeology (ed. H. Piekarek-Jankowska and B. Jaworska-Szulc), 11 (2): 157-164. Technical University in Gdańsk.
• 23.JĘDRYSEK M.-O. and WEBER-WELLER A. (2000) - Oxygen isotope microanalysis of silicates and oxides (in Polish). Prz. Geol., 48 (7): 619-624.
• 24.JIRES A., EL-HASAN T. and MANASRAH W. (2002) - Qualitative evaluation of the mineralogical and chemical composition of dry deposition in the central and southern higlands of Jordan. Chemosphere, 48: 933-938.
• 25.KITA N. T., USHIKUBO T., FU B. and VALLEY J. W. (2009) - High precision SIMS oxygen isotope analysis and the effect of sample topography. Chem. Geol., 264: 43-57.
• 26.MANECKI A., SCHEJBAL-CHWASTEK M. and TARKOWSKI J. (1988) - Mineralogical and chemical characteristics of dust air pollutants from areas affected by short- and long-range industrial emissions. In: Changes in Geochemistry of the Natural Environment in Areas Affected by Industrial Emissions. Miner. Transactions, 78: 27-45.
• 27.MIKOŁAJCZYK A., PEREYMA J. and SZCZUREK A. (1999) - The assessment of meteorological conditions' impact on the air quality in Wrocław down-town (in Polish). POL-IMIS '99 III Symposium the Assessment of Air Pollutants Emission, PZITS, 764: 71-80.
• 28.MIZOTA C., IZUHARA H. and NOTO M. (1992) - Eolian influence on oxygen isotope abundance and clay minerals in soils of Hokkaido, northern Japan. Geoderma, 52 (1-2): 161-172.
• 29.MIZOTA C., FAURE K. and YAMAMOTO M. (1996) - Provenance of quartz in sedimentary mantles and laterites overlying bedrock in West Africa: evidence from oxygen isotopes. Geoderma, 72: 65-74.
• 30.MORENO T., JONES T. P. and RICHARDS R. J. (2004) - Characterisation of aerosol particulate matter from urban and industrial environments: examples from Cardiff and Port Talbot, South Wales, UK. Sc. Total Environ., 334-335: 337-346.
• 31.NORRA S., LANKA-PANDITHA M., KRAMAR U. and STÜBEN D. (2006) - Mineralogical and geochemical patterns of urban surface soils, the example of Pforzheim, Germany. App. Geochem., 21: 2064-2081.
• 32.NORRA S. and STÜBEN D. (2004) - Trace element patterns and seasonal variability of dust precipitation in a low polluted city - the example of Karslruhe/Germany. Environ. Monitoring and Assessment, 93: 203-228.
• 33.QUEROL X., ALASTUEYA A., de la ROSA J., SÁNCHEZ-DE-LA-CAMPAA., PLANAF. and RUIZAC. R. (2002) - Source apportionment analysis of atmospheric particulates in an industrialised urban site in southwestern Spain. Atmosph. Environ., 36: 3113-3125.
• 34.SCHEJBAL-CHWASTEK M. and TARKOWSKI J. (1988) - Mineralogy of industrial air dusts and their influence on the changes in geochemistry of natural environment in national parks of southern Poland (in Polish with English summary). Miner. Transactions, 80.
• 35.SHARPZ. D. (1990)- A laser-based microanalytical method for the in situ determination of oxygen isotope ratios of silicates and oxides. Geochim. Cosmochim. Acta, 54: 1353-1357.
• 36.SIEGMANN K., SHERRER L. and SIEGMAN H. C. (1999) - Physical and chemical properties of airborne nanoscale particles and how to measure the impact on human health. J. Molecular Structure (Theochem), 458: 191-201.
• 37.SILVESTRI A., LONGINELLI A. and MOLIN G. (2010) - d18O measurements of archaeological glass (Roman to Modern age) and raw materials: possible interpretation. J. Archaeol. Sc., 37: 549-560.
• 38.SÓWKA I., ZWOZDZIAK A., TRZEPLAK-NABAGLO K., SKRĘTOWICZ M. and ZWOZDZIAK J. (2010) - PM 2.5 elemental composition and source apportionment in a residential area of Wrocław, Poland (in Polish). In: Współczesne osiągnięcia w ochronie powietrza atmosferycznego (eds. A. Musialik-Piotrowska i J. D. Rutkowski): 351-356. Polskie Zrzeszenie Inżynierów i Techników Sanitarnych, Sekcja Główna Inżynierii Ochrony Atmosfery, Wrocław.
• 39.TRIMAILLE I. and GANEM J.-J. (1997) - Isotopic tracing of oxygen during thermal growth of thin films of SiO2 on Si in dry O2. Brazilian J. Physics, 27 (2): 293-301.
• 40.Van ZELM R., HUIJBREGTS M. A. J., Den HOLLANDER H. A., van JAARSVELD H. A., SAUTER F. J., STRUIJS J., van WIJNEN H. J. and van de MEENT D. (2008) - European characterization factors for human health damage of PM10 and ozone in life cycle impact assessment. Atmosph. Environ., 42 (3): 441-453.
• 41.WANG Y. Q., ZHANG X. Y., ARIMOTOC R., CAOA J. J. and SHENAZ. X. (2005) - Characteristics of carbonate content and carbon and oxygen isotopic composition of northern China soil and dust aerosol and its application to tracing dust sources. Atmosph. Environ., 39: 2631-2642.
• 42.WIECHERT U. and HOEFS J. (1995) - An excimer laser-based microanalytical preparation technique for in situ oxygen analysis of silicate and oxide minerals. Geochim. Cosmochim. Acta, 59: 4093-4101.
• 43.WILCZYŃSKA-MICHALIK W. (1981) - Mineralogical study of dusts emitted from the Lenin Steel Plant in Kraków (in Polish). Pr. Miner., PAN, 68: 1-57.
• 44.WILCZYŃSKA-MICHALIK W. (2004) - Influence of atmospheric pollution on the weathering on stones in Cracow monuments and rock outcrops in Cracow, Cracow-Częstochowa Upland and the Carpathians. Wyd. Nauk. Akad. Pedagogicznej, Kraków.
• 45.YANG X., ZHANG F., FU X. and WANG X. (2008) - Oxygen isotopic compositions of quartz in the sand seas and sandy lands of northern China and their implications for understanding the provenances of ae-olian sands. Geomorphology, 102: 278-285.
• 46.ZWOZDZIAK J. and ZWOZDZIAK A. (2006) - Characteristics and variability of the PM 10 and PM 2.5 concentrations in the Wroclaw atmosphere. In: Ochrona powietrza atmosferycznego. Osiągnięcia w nauce, energetyce i przemyśle (eds. A. Musialik-Piotrowska i J. D. Rutkowski): 239-242. Polskie Zrzeszenie Inżynierów i Techników Sanitarnych, Sekcja Główna Inżynierii Ochrony Atmosfery, Wrocław.