Chosen anions and cations in the precipitation over the coastal zone of the Gulf of Gdańsk

Siudek, P.; Falkowska, L.; Lewandowska, A.; Pryputniewicz, D.; Bełdowska, M.; Gic, P.

Artykuł - szczegóły

Tytuł artykułu

Chosen anions and cations in the precipitation over the coastal zone of the Gulf of Gdańsk

Autorzy

Siudek P. , Falkowska L. , Lewandowska A. , Pryputniewicz D. , Bełdowska M. , Gic P.

Wybrane pełne teksty z tego czasopisma

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Warianty tytułu

Języki publikacji

Abstrakty

The study of the chemical composition of precipitation was carried out from November 2002 till October 2003, in the urbanized area of the Gulf of Gdańsk. About 88% of the collected samples showed acid value, and the average pH was 5.14. The highest acid values were found in summer when sulfates were the dominant ions. The highest concentrations of nitrates were noted between autumn and spring, and the precipitation pH was less acidic than in summer. The coastal station at the Gulf of Gdańsk was characterized by more effective neutralization of precipitation in the heating season as compared to the other urbanized areas. It was found that the neutralization process in the coastal zone was much more intense due to the sea salt particle presence in aerosols rather than in gaseous ammonia. The most intensive neutralization of precipitation was observed between late autumn and spring. In May, when offshore winds dominated, the values of neutralization coefficient (NF) for Na+ and NH_4+ were 1.3 and 0.2, respectively. It was evidenced that the specific combination of meteorological parameters (velocity and direction of wind, humidity and temperature of air) had a significant influence on the chemical composition of precipitation.

Słowa kluczowe

acid neutralization chemical composition of rainwater Gulf of Gdansk pH precipitation wet deposition

Wydawca

Institute of Oceanography University of Gdańsk

Czasopismo

Oceanological and Hydrobiological Studies

Rocznik

2006

Tom

Vol. 35, No.1

Strony

39--53

Opis fizyczny

bibliogr. 27 poz., tab., wykr.

Twórcy

autor

Siudek P.

autor

Falkowska L.

autor

Lewandowska A.

autor

Pryputniewicz D.

autor

Bełdowska M.

autor

Gic P.

Gdańsk University, Institute of Oceanography Al. Marszałka J. Piłsudskiego 46 81- 378, Gdynia, Poland, pati@sat.ocean.univ.gda.pl

Bibliografia

Al-Momani I. F., Tuncel S., Eler U., Örtel E., Sirin G., Tunel G., 1995, Major ion composition of wet and dry deposition in the eastern Mediterranean basin, The Sci. of the Tot. Environ., 164, 75-85.
ARMAAG, 2004, Stan zanieczyszczenia powietrza atmosferycznego w Aglomeracji Gdańskiej w roku 2003 (The state of air contamination in Gdańsk agglomeration in the year of 2003), Agencja Regionalnego Monitoringu Atmosfery Aglomeracji Gdańskiej, 121 pp.
Balestrini R., Galli L., Tartaki G., 2000, Wet and dry deposition at prealpine and alpine site in northern Italy, Atmo. Environ., 34, 1455-1470.
Bridges K. S., Jickells T. D., Davies T. D., Zeman Z., Hunaova I., 2002, Aerosol, precipitation and cloud water chemistry observations over the Czech Krasne Hory plateau adjacent to a heavily industrialised valley, Atmo. Environ., 36, 353-360.
Dougle P. G., Vlasenko A. L., Veefkind J. P., ten Brink H. M., 1996, Humidity dependence of light scattering by mixtures of ammonium nitrate, ammonium sulfate and soot, J. Aerosol Sci., 27, 1, 513-514.
EMEP, 1977, Co-Operative Programme For Monitoring And Evaluation of the Long Range Transmission of Air Pollutants in Europe, Manual for Sampling and Chemical Analysis, Chem. 3.
Falkowska L., Lewandowska A., 2004, Marine boundary layer-transfer of chemical substances (mabla-trans), [in:] Ochrona powietrza w teorii i praktyce (The air protection - theory and practice), Monografia, Konieczyński J., Zarzycki R., Instytut Podstaw Inżynierii Środowiska Polskiej Akademii Nauk w Zabrzu, 412.
Flues M., Hamma P., Limes M. J. L., Dantas E. S. K., Fornaro A., 2002, Evaluation of the rainwater acidity of a rural region due to a coal-fired power plant in Brazil, Atmo. Environ., 36, 2397-2404.
Gordon J. D., Schroder L. J., Morden-Moore A. L., Bowersox V. C., 1995, The stability of hydrogen ion and specific conductance in filtered wet-deposition samples stores at ambient temperatures, Wat., Air and Soil Poll., 83, 299-313.
Gratani L., Varone L., 2005, Daily and seasonal variation of CO2 in the city of Rome in relationship with the traffic volume, Atmo. Environ., 39, 2619-2624.
Granat L., Areskaug H., Hovmad M., Devenish M., Schneider B., Bieber E., Marquardt W., Reissell A., Järvienen O., et al., 1992, Intercomparison of precipitation collectors for chemical analysis, Helcom intercalibration-second stage, Baltic Sea Proceedings, 41, 15-88.
Kostin S., Porkowska T., 1957, Climatology, PWN, Warszawa, 469 pp.
Kvaalen H., Solberg S., Clarke N., Torp T., Aamlid D., 2002, Time Series study of concentrations of SO4 2- and H+ in precipitation and soil waters in Norway, Environ. Poll., 117, 215-224.
Lee B. K., Hong S. H., Lee D. S., 2000, Chemical composition of precipitation and wet deposition of major ions on the Korean peninsula, Atmo. Environ., 34, 563-575.
Lewandowska A., Falkowska L., 2004, Sulphates in particles of different size in the marine layer over the southern Baltic Sea, Oceanologia, 46 (2), 201-215.
Okay C., Akkoyunlu B. O., Taran M., 2002, Composition of wet deposition in Kaynarca, Turkey, Environ. Poll., 118, 401-410.
Owczarek M., 2000, Charakterystyka elementów klimatu Gdyni w latach 1951-1997 (The characteristic of Gdynia climate elements in 1951-1997), [in:] Wiadomości Instytutu Meteorologii i Gospodarki Wodnej (News of Institute of Meteorology and Water Management), IMGW, Warszawa, 2000, Tom XXIII, Zeszyt 1.
PN (Polish Norm), 1992, Woda i ścieki. Badania zanieczyszczeń opadów atmosferycznych. Oznaczanie jonów siarczanowych metodą kolorymetryczną (Water and sludge Contamination analysis of precipitation. The determination of sulphate ions using calorimetric method), Wydawnictwa Normalizacyjne "Alfa", norma nr PN-91/C-04642/03.
PN (Polish Norm), 1992a, Woda i ścieki. Badania zanieczyszczeń opadów atmosferycznych. Oznaczenie sumy jonów azotanowych i azotynowych metodą kolorymetryczną (Water and sludge. Contamination analysis of precipitation. The determination of the nitrate ions sum using calorimetric method), Wydawnictwo Normalizacyjne, norma nr PN-91/C-04642/05.
Possanzini M., Buttini P., Diapalo V., 1988, Characterization of a rural area in terms of dry and wet deposition, The Sci. of the Tot. Environ., 74, 111-120.
Przybylska G., 1997, Zanieczyszczenie opadów atmosferycznych w 1995 roku (Contamination of precipitation in the year of 1995), [in:] Zanieczyszczenie powietrza w Polsce w 1995 roku (Air pollutants in Poland in the year 1995), Państwowa Inspekcja Ochrony Środowiska, Państwowa Inspekcja Sanitarna, Warszawa, 337-355.
Richter D. D., Lindberg S. E., 1988, Wet deposition estimates from long-term bulk and event wetonly samples of incident precipitation and throughfall, J. of Environ. Quality, 17, 619-622.
Rubio M. A., Lissi E., Villena G., 2002, Nitrate in rain and dew in Santiago city, Chile, Its possible impact on the early morning start of the photochemical smog, Atmo. Environ., 36, 293-297.
Sanusi A., Worthman H., Millet M., Mirabel P., 1996, Chemical composition of rainwater in eastern France, Atmo. Environ., 30, 1, 59-71.
Seinfeld J. H., Pandis S. N., 1998, Atmospheric chemistry and physics from air pollution to climate change, Willey Interscience Publication, New York, 1326 pp.
Sievering H., Ennis G., Gorman E., Nagamoto C., 1990, Size distribution and statistical analysis of nitrate, excess sulfate and chloride deficit in the marine boundary layer during GCE/CASE/WATOX, Global Biogeochem. Cycl., 4, 395-405.
Vuorenmaa J., 2004, Long-term changes of acidifying deposition in Finland (1973-2000), Environ. Poll., 128, 351-362.

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Bibliografia

Identyfikator YADDA

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