Exceedance of critical loads of nitrogen and sulphur and its relation to forest conditions |
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Authors: | Email author" target="_blank">Sabine?AugustinEmail author Andreas?Bolte Marieanna?Holzhausen Barbara?Wolff |
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Institution: | 1.Federal Environmental Agency,Dessau,Germany;2.Institute of Silviculture, Dept. I,Goettingen University,Goettingen,Germany;3.Faculty of Landscape Management and Nature Conservation,University of Applied Science,Eberswalde,Germany;4.Faculty of Forestry,University of Applied Science,Eberswalde,Germany |
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Abstract: | The calculation of critical loads and their exceedance is one method to describe the vulnerability of forests to environmental
stress caused by anthropogenic impact. Exceedance of critical loads for acidifying inputs and nitrogen was compared to different
indicators of the soil and forest conditions in the German part of the extensive forest monitoring (ICP Forests/EU Level I),
including more than 1,800 plots. In addition, an empirical relationship between the C/N ratio of the forest floor humus layer (C/N
Humus) and the estimated nitrogen output for ten plots of the intensive monitoring (ICP Forests/EU Level II) was established in
order to estimate the potential nitrogen output on Level I plots dominated by Norway spruce. Regarding all tree species assessed,
the exceedance of critical loads for nitrogen and sulphur is negatively correlated with pH and base saturation up to 30 cm
soil depth. The sulphur deposition and the exceedance of critical loads are highly correlated with the sulphur content of
leaves and needles, whereas the respective relations for nitrogen were lower. The crown condition was weakly positively related
to the sulphur content in tree leaves and needles. For Norway spruce sites, high exceedance of critical loads for nitrogen
and nitrogen deposition corresponded well with low C/N
Humus. In regions with high nitrogen load and low C/N ratios in the humus layer, the calculated nitrogen output was high. The results support the concept of critical thresholds
in that way that their exceedance can impair forest ecosystem functions like nitrogen retention. |
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Keywords: | Critical load Critical limit Sulphur Nitrogen Environmental monitoring Environmental risk Sustainability |
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