Nutrient limitation and site-related growth potential of Norway spruce (Picea abies [L.] Karst) in the Bavarian Alps

The hypothesis that soil chemistry is a main constraint for the vigour of Norway spruce trees on calcareous soils is scrutinised based on data from 60 existing and new intensive study sites in the Bavarian Alps, where comprehensive information on soils, climate, foliar nutrient concentration, ground...

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Bibliographic Details
Published in:European journal of forest research 2014-05, Vol.133 (3), p.433-451
Main Authors: Mellert, K. H, Ewald, J
Format: Article
Language:English
Subjects:
Acidification
bioactive properties
Biogeochemistry
Biomedical and Life Sciences
Calcareous soils
climate
Decomposing organic matter
Forest soils
Forestry
Forests
ground vegetation
harvesting
Humus
iron
Karst
Life Sciences
Limiting factors
manganese
Nutrient concentrations
nutrient content
nutrition
Ordination
organic horizons
Original Paper
Picea abies
Pine trees
Plant Ecology
Plant growth
Plant Sciences
site index
Soil chemistry
Trace elements
tree growth
Trees
Vegetation
vigor
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Summary:The hypothesis that soil chemistry is a main constraint for the vigour of Norway spruce trees on calcareous soils is scrutinised based on data from 60 existing and new intensive study sites in the Bavarian Alps, where comprehensive information on soils, climate, foliar nutrient concentration, ground vegetation, and tree growth is available. We characterised ecological gradients of the response variables site index (SI), foliar nutrient level and needle weight by constrained ordination, identified nutrient limitations based on regression trees and modelled SI based on vegetation-based mean Ellenberg indicator values. Our study confirms the assumption that soil development and concurrent acidification are key determinants for the vitality and growth of spruce in the Bavarian Alps, which surpass the importance of climate on nutrition and growth. Pools and availability of P and N are limiting nutrition and growth of spruce in this region. We hypothesize that N-limitation persists despite considerable deposition inputs because N tends to be locked up in organic horizons with low biological activity. K and trace elements, especially Fe, can also be deficient in some cases but do not appear as major limiting factors. High foliar Mn concentrations are a reliable indicator of mature soils and favourable site conditions in the Bavarian Alps, but Mn itself is usually not limiting. P must be regarded as the most critical macronutrient in the Bavarian Alps, particularly in the face of biomass harvesting. Consequently, at sites with shallow soils forest, management should focus on sustaining or restoring humus stocks. SI of spruce can be predicted from composition of ground vegetation and Ellenberg indicator values with remarkable precision (R ² = 0.75).
ISSN:1612-4669
1612-4677
DOI:10.1007/s10342-013-0775-1