4.8 Article

Effect of industrial dust on precipitation chemistry in the Czech Republic (Central Europe) from 1850 to 2013

期刊

WATER RESEARCH
卷 103, 期 -, 页码 30-37

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2016.07.017

关键词

Sulphate; Nitrate; Chloride; Ammonium; Base cations; pH; Czech Republic

资金

  1. Grant Agency of the Czech Republic [P504/14/12262S, P503/14/ 09231S, P504/15/04034S]

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Using statistical relationships between the composition of precipitatioa at eight long-term monitoring stations and emission rates of sulphur (S) and nitrogen (N) compounds, as well as industrial dust in the Czech Republic and Slovakia (Central Europe), we modelled historic pH and concentrations of sulphate (SO42-), nitrate (No-3(-)), ammonium (NH4+), chloride (Cl-), base cations (BC), and bicarbonate (HCO3-) in bulk precipitation from 1850 to 2013. Our model suggests that concentrations of SO42-, NO3-, and HCO3- were similar (11-16 mu eq l(-1)) in 1850. Cations were dominated by NH4+ and BC (24-27 mu eg l(-1)) and precipitation pH was >5.6. The carbonate buffering system was depleted around 1920 and, precipitation further acidified at an exponential rate until the 1980s, when concentrations of SO42-, NO3-, Cl-, NH4+ and BC reached maxima of 126, 55, 16, 76, and 57 mu eq l(-1), respectively, and pH decreased to 4.2. Dust emissions from industrial sources were an important source of BC. Without their contribution, pH would have decreased to 4.0 in the 1980s, and the carbonate buffering system would have been depleted already in the 1870s. Since the late 1980s, concentrations of strong acid anions and BC have decreased by 46-81% (i.e. more than in Europe on average) due toa 53-93% reduction in regional emissions of S and N compounds and dust from industrial and agricultural sources. The present composition of precipitation is similar to the late 19th century, except for NO3- concentrations, which are similar to those during 1926 -1950. Precipitation pH now exceeds 5.0, the carbonate buffering system has been re-established, and HCO3- has again become (after almost a century) a significant component of precipitation chemistry. (C) 2016 Elsevier Ltd. All rights reserved.

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