Assessing the neutralisation, wet deposition and source contributions of the precipitation chemistry over Europe during 2000–2017
Background The chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater chemistry in Europe, contributing to a larger understanding of air pollution and atmospheric chemistry. Results The volume-weighted mean con...
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| Published in: | Environmental sciences Europe Vol. 31; no. 1; pp. 1 - 15 |
|---|---|
| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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Springer Berlin Heidelberg
01-08-2019
Springer Nature B.V |
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| Abstract | Background
The chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater chemistry in Europe, contributing to a larger understanding of air pollution and atmospheric chemistry.
Results
The volume-weighted mean concentrations (VWM) were calculated, showing the relative dominance of SO
4
2−
and Cl
−
, explaining the acidic and slightly acidic pH values that ranged from 4.19 to 5.82 over Europe. The VWM concentrations of ionic species measured in rainwater usually followed the SO
4
2
−
> Cl
−
> Na
+
> NH
4
+
> NO
3
−
> H
+
> Ca
2+
> Mg
2+
> K
+
> HCO
3
−
downward order, with small exceptions, depending on the industrial activity or legal framework of a particular area. Fractional acidity showed that ~ 69% of the inorganic acidity in precipitation is neutralised, whilst neutralisation factors showed that Na
+
and NH
4
+
contributed the most to the neutralising process. The relationship between acidic and neutralising compounds was further examined by calculating the ionic ratios. Wet deposition rates showed the dominance of acidic compounds over neutralising ones, reflecting the climatic influences and the local and regional economic characteristics of different regions from Europe. Origins of major ions in rainwater were examined using the sea salt and non-sea salt fractions, crustal and marine enrichment factors, correlation analysis and the Principal Component Analysis, showing the significant influence of anthropogenic sources (industry, agriculture, traffic). Natural sources (maritime, terrestrial) also play a major role in influencing the precipitation chemistry of the European continent.
Conclusions
The main conclusion of this study regarding the precipitation chemistry of the European continent during the studied period is represented by the relative homogenous distribution of the analysed chemical species, which is most likely due to the unitary economic development and to the implementation of common European policies in the field of environmental protection. Since the pH is still acidic due to the anthropogenic emissions, more attention should be given to the implementation of environmental legislation, especially in non-European Union countries or in countries that joined recently. |
|---|---|
| AbstractList | Background
The chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater chemistry in Europe, contributing to a larger understanding of air pollution and atmospheric chemistry.
Results
The volume-weighted mean concentrations (VWM) were calculated, showing the relative dominance of SO
4
2−
and Cl
−
, explaining the acidic and slightly acidic pH values that ranged from 4.19 to 5.82 over Europe. The VWM concentrations of ionic species measured in rainwater usually followed the SO
4
2
−
> Cl
−
> Na
+
> NH
4
+
> NO
3
−
> H
+
> Ca
2+
> Mg
2+
> K
+
> HCO
3
−
downward order, with small exceptions, depending on the industrial activity or legal framework of a particular area. Fractional acidity showed that ~ 69% of the inorganic acidity in precipitation is neutralised, whilst neutralisation factors showed that Na
+
and NH
4
+
contributed the most to the neutralising process. The relationship between acidic and neutralising compounds was further examined by calculating the ionic ratios. Wet deposition rates showed the dominance of acidic compounds over neutralising ones, reflecting the climatic influences and the local and regional economic characteristics of different regions from Europe. Origins of major ions in rainwater were examined using the sea salt and non-sea salt fractions, crustal and marine enrichment factors, correlation analysis and the Principal Component Analysis, showing the significant influence of anthropogenic sources (industry, agriculture, traffic). Natural sources (maritime, terrestrial) also play a major role in influencing the precipitation chemistry of the European continent.
Conclusions
The main conclusion of this study regarding the precipitation chemistry of the European continent during the studied period is represented by the relative homogenous distribution of the analysed chemical species, which is most likely due to the unitary economic development and to the implementation of common European policies in the field of environmental protection. Since the pH is still acidic due to the anthropogenic emissions, more attention should be given to the implementation of environmental legislation, especially in non-European Union countries or in countries that joined recently. BackgroundThe chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater chemistry in Europe, contributing to a larger understanding of air pollution and atmospheric chemistry.ResultsThe volume-weighted mean concentrations (VWM) were calculated, showing the relative dominance of SO42− and Cl−, explaining the acidic and slightly acidic pH values that ranged from 4.19 to 5.82 over Europe. The VWM concentrations of ionic species measured in rainwater usually followed the SO42− > Cl− > Na+ > NH4+ > NO3− > H+ > Ca2+ > Mg2+ > K+ > HCO3− downward order, with small exceptions, depending on the industrial activity or legal framework of a particular area. Fractional acidity showed that ~ 69% of the inorganic acidity in precipitation is neutralised, whilst neutralisation factors showed that Na+ and NH4+ contributed the most to the neutralising process. The relationship between acidic and neutralising compounds was further examined by calculating the ionic ratios. Wet deposition rates showed the dominance of acidic compounds over neutralising ones, reflecting the climatic influences and the local and regional economic characteristics of different regions from Europe. Origins of major ions in rainwater were examined using the sea salt and non-sea salt fractions, crustal and marine enrichment factors, correlation analysis and the Principal Component Analysis, showing the significant influence of anthropogenic sources (industry, agriculture, traffic). Natural sources (maritime, terrestrial) also play a major role in influencing the precipitation chemistry of the European continent.ConclusionsThe main conclusion of this study regarding the precipitation chemistry of the European continent during the studied period is represented by the relative homogenous distribution of the analysed chemical species, which is most likely due to the unitary economic development and to the implementation of common European policies in the field of environmental protection. Since the pH is still acidic due to the anthropogenic emissions, more attention should be given to the implementation of environmental legislation, especially in non-European Union countries or in countries that joined recently. |
| ArticleNumber | 50 |
| Author | Nita, Ion-Andrei Keresztesi, Ágnes Birsan, Marius-Victor Szép, Róbert Bodor, Zsolt |
| Author_xml | – sequence: 1 givenname: Ágnes surname: Keresztesi fullname: Keresztesi, Ágnes organization: Faculty of Natural Sciences, Doctoral School of Chemistry, University of Pécs, Meteo Romania (National Meteorological Administration), Department of Bioengineering, Faculty of Economics, Socio-Human Science and Engineering, Sapientia Hungarian University of Transylvania – sequence: 2 givenname: Marius-Victor surname: Birsan fullname: Birsan, Marius-Victor organization: Meteo Romania (National Meteorological Administration) – sequence: 3 givenname: Ion-Andrei surname: Nita fullname: Nita, Ion-Andrei organization: Meteo Romania (National Meteorological Administration), Faculty of Geography and Geology, Doctoral School of Geosciences, Alexandru Ioan Cuza University – sequence: 4 givenname: Zsolt surname: Bodor fullname: Bodor, Zsolt organization: Department of Bioengineering, Faculty of Economics, Socio-Human Science and Engineering, Sapientia Hungarian University of Transylvania – sequence: 5 givenname: Róbert orcidid: 0000-0001-8702-4061 surname: Szép fullname: Szép, Róbert email: szeprobert@uni.sapientia.ro organization: Faculty of Natural Sciences, Doctoral School of Chemistry, University of Pécs, Department of Bioengineering, Faculty of Economics, Socio-Human Science and Engineering, Sapientia Hungarian University of Transylvania, Institute for Research and Development in Cinegetics and Mountain Resources |
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| Keywords | Source contribution Rainwater Acid rain Chemical composition Neutralisation Wet deposition |
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The chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater... BackgroundThe chemical composition of precipitation was assessed in 27 European countries from 2000 to 2017, offering a general point of view on the rainwater... |
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| SubjectTerms | Acidity Air pollution Air pollution measurements Anthropogenic factors Atmospheric chemistry Calcium Calcium ions Chemical composition Chemical precipitation Chemical speciation Chemistry Correlation analysis Deposition Dominance Earth and Environmental Science Economic development Ecotoxicology Environment Environmental law Environmental legislation Environmental protection Human influences Legislation Magnesium Mathematical analysis Organic chemistry pH effects Pollution Principal components analysis Rain water Rainfall Regional development Terrestrial environments Wet deposition |
| Title | Assessing the neutralisation, wet deposition and source contributions of the precipitation chemistry over Europe during 2000–2017 |
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