Wojciech Mill scite author profile

Sulphur and nitrogen deposition were calculated with the FRAME model and used to assess the exceedances of the critical loads for acidification and eutrophication of natural ecosystems in Poland. For the first time two tools: the FRAME and SONOX models were used jointly to provide information on ecosystems at risk. The FRAME model obtained close agreement with available sulphur and nitrogen wet deposition measurements. The total mass of sulphur deposited in Poland in year 2008 was estimated as 292 Gg S. Total deposition of nitrogen (oxidized + reduced) is 389 Gg N. 11% of the ecosystems in Poland were calculated to be at risk of acidification due to deposition of sulphur and nitrogen. In the case of eutrophication, over 95% of terrestrial ecosystems are at risk due to the large deposition of nitrogen compounds.

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Potential ecological risk due to acidification of heavy industrialized areas—the Upper Silesia case

Worsztynowicz

Mill

1995

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Modelling of atmospheric nitrogen deposition effects to Polish terrestrial ecosystems for various emission scenarios until the target year 2020

Pecka

Mill

2012

Environ. Protect. Eng.

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Biogeochemical effects to Polish terrestrial ecosystems resulting from atmospheric nitrogen deposition were forecasted until the target year 2020. To this end recently updated critical loads of nutrient nitrogen were applied and the nitrogen deposition projections for the sequence of decades from 1980 until the target year 2020, based on the Current Legislation (CLE) and Maximum Feasible Reductions (MFR) emission scenarios. The predictions were done by use of the Very Simple Dynamic (VSD) Model developed within the Working Group on Effects of the UN ECE Convention on the Long-Range Transboundary Air Pollution CLRTAP. The calculations were done for three main forest ecosystems and three selected semi-natural ecosystems encompassing the whole territory of Poland with the spatial resolution defined by a grid cell of 1×1 km size. The study concluded with maps of CL nut (N) exceedances and expected nitrogen concentrations in soil as chemical criterion, assigned to different eutrophication risk categories for each deposition scenario. The obtained results show that in spite of the realistic (CLE scenario) and extreme (MFR) nitrogen emission reductions until 2020, more than 99% and 80% of total area of terrestrial ecosystems of Poland, respectively, will be exposed to excessive nitrogen deposition. Results of this study as well as studies done on the European scale reveal that the nitrogen emission reductions determined by the Gothenburg Protocol are still insufficient and may lead to negative ecological effects including loss of ecosystems biodiversity. This substantiates a demanding need for the revision of the CLRTAP Gothenburg Protocol.

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Critical Loads Mapping in Poland: Lessons Learned

Mill¹

1995

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Dynamic Modelling Predictions of Airborne Acidification of Polish Terrestrial Ecosystems

Mill¹

2010

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Untitled

Mill

2001

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Integrated Modelling of Acidification Effects to Forest Ecosystems — Model Sonox

Mill

2001

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Wojciech Mill

Temporal and spatial development of critical loads exceedance of acidity to Polish forest ecosystems in view of economic transformations and national environmental policy

Calculation of Sulphur and Nitrogen Deposition with the Frame Model and Assessment of the Exceedance of Critical Loads in Poland

Potential ecological risk due to acidification of heavy industrialized areas—the Upper Silesia case

Modelling of atmospheric nitrogen deposition effects to Polish terrestrial ecosystems for various emission scenarios until the target year 2020

Critical Loads Mapping in Poland: Lessons Learned

Dynamic Modelling Predictions of Airborne Acidification of Polish Terrestrial Ecosystems

Untitled

Integrated Modelling of Acidification Effects to Forest Ecosystems — Model Sonox

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