Predicting the Effects of Atmospheric Nitrogen Deposition in Conifer Stands: Evidence from the NITREX Ecosystem-Scale Experiments

Predicting the Effects of Atmospheric Nitrogen Deposition in Conifer Stands: Evidence from the NITREX Ecosystem-Scale Experiments

The NITREX project, which encompasses seven ecosystem-scale experiments in coniferous forests at the plot or catchment level in northwestern Europe, investigates the effect of atmospheric nitrogen (N) deposition in coniferous forests. The common factor in all of the experiments is the experimentally...

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Bibliographic Details
Published in:Ecosystems (New York) Vol. 1; no. 4; pp. 352 - 360
Main Authors: Emmett, B. A., Boxman, D., Bredemeier, M., Gundersen, P., Kjønaas, O. J., Moldan, F., Schleppi, P., Tietema, A., Wright, R. F.
Format: Journal Article
Language:English
Published: New York Springer-Verlag 01-07-1998
Springer Nature B.V
Subjects:
Acidification
Biogeochemistry
Coniferous forests
Ecological function
Ecosystems
Environmental changes
Environmental policy
Europe
Forest ecosystems
Forest floor
Forest litter
Forest soils
Forests
Freshwater ecosystems
Leaching
Nitrates
Nitrogen
Soil water
Sulfur
Terrestrial ecosystems
Tree growth
Water quality
Whole-Ecosystem Experiments
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Summary:The NITREX project, which encompasses seven ecosystem-scale experiments in coniferous forests at the plot or catchment level in northwestern Europe, investigates the effect of atmospheric nitrogen (N) deposition in coniferous forests. The common factor in all of the experiments is the experimentally controlled change in N input over a period of 4-5 years. Results indicate that the status and dynamics of the forest floor are key components in determining the response of forests to altered N inputs. An empirical relationship between the carbon-nitrogen (C/N) ratio of the forest floor and retention of incoming N provides a simply measured tool through which the likely timing and consequences of changes in atmospheric N deposition for fresh waters may be predicted. In the terrestrial ecosystem, a 50% increase in tree growth is observed following the experimental reduction of N and sulfur inputs in a highly N-saturated site, illustrating the damaging effects of acidifying pollutants to tree health in some locations. Few biotic responses to the experimental treatments were observed in other NITREX sites, but the rapid response of water quality to changes in N deposition, and the link to acidification in sensitive areas, highlight the need for N-emission controls, irrespective of the long-term effects on tree health. The observed changes in ecosystem function in response to the experimental treatments have been considered within the framework of the current critical-load approach and thus contribute to the formulation of environmental policy.
Bibliography:ObjectType-Article-2
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ISSN:1432-9840
1435-0629
DOI:10.1007/s100219900029