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Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland

The results of a dew monitoring program performed in Poland with the aim to outline the chemical composition of dew water in meteorological context are presented. Dew samples were collected from eight measurement stations from August 2004 to November 2006. Taking into account the type of land use an...

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Autores principales: Polkowska, Żaneta, Błaś, Marek, Klimaszewska, Kamila, Sobik, Mieczysław, Małek, Stanisław, Namieśnik, Jacek
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Molecular Diversity Preservation International (MDPI) 2008
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3924937/
https://www.ncbi.nlm.nih.gov/pubmed/27879920
http://dx.doi.org/10.3390/s8064006
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author Polkowska, Żaneta
Błaś, Marek
Klimaszewska, Kamila
Sobik, Mieczysław
Małek, Stanisław
Namieśnik, Jacek
author_facet Polkowska, Żaneta
Błaś, Marek
Klimaszewska, Kamila
Sobik, Mieczysław
Małek, Stanisław
Namieśnik, Jacek
author_sort Polkowska, Żaneta
collection PubMed
description The results of a dew monitoring program performed in Poland with the aim to outline the chemical composition of dew water in meteorological context are presented. Dew samples were collected from eight measurement stations from August 2004 to November 2006. Taking into account the type of land use and characteristics of pollutant emission, sampling sites were divided into the following categories: rural, coastal urban and inland urban stations. Selected anions and cations as well as formaldehyde and sum of phenols were determined. The average TIC (Total Inorganic Ionic Content) values in dew samples ranged from 0.83 to 3.93 between individual stations with 10.9 meq/L as the highest daily value of TIC measured. The average TIC values observed in dew at all stations were at a similar level (2.46 meq/L) when compared with hoarfrost (2.86 meq/L). However, these values were much higher in comparison with other kinds of atmospheric water like precipitation (wet only; 0.37 meq/L) or fog/cloud (1.01 meq/L). The pH values of dew water ranged from 5.22 to 7.35 for urban coastal stations, from 5.67 to 8.02 for urban inland stations and from 4.16 to 8.76 for dew samples collected in the rural area. HCHO was found in 97 % of dew samples, with concentrations ranging from 0.010 to 5.40 meq/L. Excluding stations near the seashore, where the contribution of Na(+) and Cl(-) increased, the most important ions were sulphates. A very low contribution of NO(3)(-) and noticeable increase of Ca(2+) which were not observed in the case of precipitation and fog water, were typical in all stations. The contribution of ammonium ion was two times higher at rural stations as a result of agricultural ammonia emissions. The strongest correlations were noticed between the sum of acidifying anions SO(4)(2-) + NO(3)(-) and Ca(2+) ion for all urban and rural stations. A very strong correlation was also observed for Na(+) and Cl(-) ions in urban coastal stations, as a natural consequence of the location of these stations close to the sea. It was proved that thermal stratification, direction of circulation and local breeze circulation control the atmospheric chemistry at ground level, where dew is formed. The highest TIC values at urban stations were associated with anticyclonic weather, while at rural sites with cyclonic weather situations. The chemistry of dew water in urban coastal stations was closely related to local breeze circulation in the warm season, mainly in the form of diurnal breeze causing a significant increase of the concentration of Na(+) and Cl(-)ions. Thus, dew can be a good indicator of the atmospheric pollution level at a given site. Taking into account both high TIC values and the annual water equivalent estimated at around 50 mm, dew is a considerable factor of wet deposition, responsible for an additional 60 % of pollutant input into the ground when compared with precipitation.
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spelling pubmed-39249372014-02-18 Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland Polkowska, Żaneta Błaś, Marek Klimaszewska, Kamila Sobik, Mieczysław Małek, Stanisław Namieśnik, Jacek Sensors (Basel) Article The results of a dew monitoring program performed in Poland with the aim to outline the chemical composition of dew water in meteorological context are presented. Dew samples were collected from eight measurement stations from August 2004 to November 2006. Taking into account the type of land use and characteristics of pollutant emission, sampling sites were divided into the following categories: rural, coastal urban and inland urban stations. Selected anions and cations as well as formaldehyde and sum of phenols were determined. The average TIC (Total Inorganic Ionic Content) values in dew samples ranged from 0.83 to 3.93 between individual stations with 10.9 meq/L as the highest daily value of TIC measured. The average TIC values observed in dew at all stations were at a similar level (2.46 meq/L) when compared with hoarfrost (2.86 meq/L). However, these values were much higher in comparison with other kinds of atmospheric water like precipitation (wet only; 0.37 meq/L) or fog/cloud (1.01 meq/L). The pH values of dew water ranged from 5.22 to 7.35 for urban coastal stations, from 5.67 to 8.02 for urban inland stations and from 4.16 to 8.76 for dew samples collected in the rural area. HCHO was found in 97 % of dew samples, with concentrations ranging from 0.010 to 5.40 meq/L. Excluding stations near the seashore, where the contribution of Na(+) and Cl(-) increased, the most important ions were sulphates. A very low contribution of NO(3)(-) and noticeable increase of Ca(2+) which were not observed in the case of precipitation and fog water, were typical in all stations. The contribution of ammonium ion was two times higher at rural stations as a result of agricultural ammonia emissions. The strongest correlations were noticed between the sum of acidifying anions SO(4)(2-) + NO(3)(-) and Ca(2+) ion for all urban and rural stations. A very strong correlation was also observed for Na(+) and Cl(-) ions in urban coastal stations, as a natural consequence of the location of these stations close to the sea. It was proved that thermal stratification, direction of circulation and local breeze circulation control the atmospheric chemistry at ground level, where dew is formed. The highest TIC values at urban stations were associated with anticyclonic weather, while at rural sites with cyclonic weather situations. The chemistry of dew water in urban coastal stations was closely related to local breeze circulation in the warm season, mainly in the form of diurnal breeze causing a significant increase of the concentration of Na(+) and Cl(-)ions. Thus, dew can be a good indicator of the atmospheric pollution level at a given site. Taking into account both high TIC values and the annual water equivalent estimated at around 50 mm, dew is a considerable factor of wet deposition, responsible for an additional 60 % of pollutant input into the ground when compared with precipitation. Molecular Diversity Preservation International (MDPI) 2008-06-25 /pmc/articles/PMC3924937/ /pubmed/27879920 http://dx.doi.org/10.3390/s8064006 Text en © 2008 by the authors; licensee Molecular Diversity Preservation International, Basel, Switzerland. This article is an open-access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/3.0/).
spellingShingle Article
Polkowska, Żaneta
Błaś, Marek
Klimaszewska, Kamila
Sobik, Mieczysław
Małek, Stanisław
Namieśnik, Jacek
Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title_full Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title_fullStr Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title_full_unstemmed Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title_short Chemical Characterization of Dew Water Collected in Different Geographic Regions of Poland
title_sort chemical characterization of dew water collected in different geographic regions of poland
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3924937/
https://www.ncbi.nlm.nih.gov/pubmed/27879920
http://dx.doi.org/10.3390/s8064006
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