Nitrogen deposition is positively correlated to foliar nitrogen content in Vaccinium myrtillus and other understory species in temperate forests on acidic soil

Excessive atmospheric nitrogen deposition is known to alter nutrient cycles and species composition in temperate forest ecosystems. Foliar N concentrations reflect the nutrient status of plants and can be used to assess the impact of atmospheric N deposition on ecosystems. Our objective was to test...

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Bibliographic Details
Published in:Acta oecologica (Montrouge) 2021-05, Vol.110, p.103696, Article 103696
Main Authors: Roth, Marina, Günther, Katharina, Michiels, Hans-Gerhard, Puhlmann, Heike, Sucker, Carina, Hauck, Markus
Format: Article
Language:English
Subjects:
Atmospheric deposition
Dry deposition
Eutrophication
Nitrogen cycle
Nutrients
Wet deposition
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Summary:Excessive atmospheric nitrogen deposition is known to alter nutrient cycles and species composition in temperate forest ecosystems. Foliar N concentrations reflect the nutrient status of plants and can be used to assess the impact of atmospheric N deposition on ecosystems. Our objective was to test whether the foliar N content reflects increasing N deposition in the understory vegetation of temperate forests on acidic soil. Therefore, we analyzed the foliar N content of seven plant taxa representing different functional groups of the understory vegetation and correlated them to modeled deposition datasets. Linear mixed models revealed no relationship of N deposition with foliar N concentrations across all species examined but decreasing foliar concentrations with increasing soil C/N ratio. Nevertheless, we found positive correlations of foliar N concentrations with increasing deposition in conifer saplings (Picea abies and Abies alba), the dwarf shrub Vaccinium myrtillus and the graminoid Luzula luzuloides. Such an increase was, however, not found in saplings of broad-leaved trees (Fagus sylvatica and Quercus petraea/robur) and the moss Polytrichum formosum. This suggests marked species-specific differences in nitrogen uptake and allocation. Foliar N concentrations were more strongly correlated to NOy than NHx and to wet than dry deposition. Since foliar N concentrations were correlated to deposition while the species’ cover was not, they may provide a valuable indicator of N deposition. •Foliar N of seven understory species was compared to N deposition and N in the soil.•Foliar N concentrations decreased with increasing soil C/N ratio.•Foliar N in conifer saplings, blueberry and a woodrush increased with N deposition.•Missing correlations for other species suggest species-specific differences.•Foliar N was more strongly correlated to NOy than NHx and to wet than dry deposition.
ISSN:1146-609X
1873-6238
DOI:10.1016/j.actao.2020.103696