A matter of time: Recovery of plant species diversity in wild plant communities at declining nitrogen deposition

Aim High levels of nitrogen deposition have been responsible for important losses of plant species diversity. It is often assumed that reduction of ammonia and nitrogen oxide emissions will result in the recovery of the former biodiversity. In Western Europe, N deposition peaked between 1980 and 198...

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Bibliographic Details
Published in:Diversity & distributions 2021-07, Vol.27 (7), p.1180-1193
Main Authors: Berendse, Frank, Geerts, Rob H. E. M., Elberse, Wim Th, Bezemer, Thiemo Martijn, Goedhart, Paul W., Xue, Wei, Noordijk, Erik, ter Braak, Cajo J. F., Korevaar, Hein
Format: Article
Language:English
Subjects:
Acidic soils
Acidification
Ammonia
Biodiversity
Biomass
Composition
Deposition
Experiments
Fertilization
Flowering
Flowers & plants
Forbs
Grasslands
hay meadows
Legumes
Liming
long‐term dynamics
Meadows
Nitrogen
nitrogen deposition
Nitrogen oxides
oscillations
pH effects
Photochemicals
Plant communities
Plant diversity
Plant populations
Plant species
plant species abundance
plant species diversity
Potassium
Productivity
Recovery
RESEARCH ARTICLE
Soil acidification
Soil analysis
Soil chemistry
Soil pH
Soil treatment
Soils
Species composition
Species diversity
Sulfur
Vegetation
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Summary:Aim High levels of nitrogen deposition have been responsible for important losses of plant species diversity. It is often assumed that reduction of ammonia and nitrogen oxide emissions will result in the recovery of the former biodiversity. In Western Europe, N deposition peaked between 1980 and 1988 and declined thereafter. In a 60‐year experiment in hay meadows, we tested the hypothesis that increasing and declining nitrogen deposition had negative, respectively, positive effects on plant species diversity. Location Wageningen, the Netherlands. Method Duplicated plots received different fertilization treatments from 1958 onwards (control, Ca, K, P, PK, N, NPK). Productivity, soil pH and species composition were measured at regular intervals. In the control plots, the correlations between N deposition, diversity, production and soil acidification were analysed. Subsequently, we tested whether the treatment effects (e.g. N addition and liming) confirmed the hypothesized interactions. Results In the control plots, soil pH, species diversity and the abundance of legumes and short forbs declined between 1958 and 1987 when atmospheric N deposition was high but recovered after 1987 when N deposition decreased. However, also in the N addition plots species diversity recovered partly after 1987, although the soil pH of the acidified soils in these plots did not. In addition, also in the limed plots diversity decreased rapidly during the first 30 years while in this treatment soil acidification was more than compensated. Main conclusions We conclude that declining N deposition resulted in the recovery of plant species diversity, but not in recovery of the former species composition. Time appears to be an additional, but crucial factor for the recovery of diverse, flowering meadows. Species not adapted to the new management conditions created at the start of the experiment disappeared during the first decades, while species fit for the new environment needed many years to establish.
ISSN:1366-9516
1472-4642
DOI:10.1111/ddi.13266