Tree Species Effects on Soils: Implications for Global Change Proceedings of the NATO Advanced Research Workshop on Trees and Soil Interactions, Implications to Global Climate Change August 2004 Krasnoyarsk, Russia /
Almost 50% of the total area of Austria is forested, and the forests are dominated by commercially valuable stands of Norway spruce ( (Picea abies). The few remaining forests that resemble the natural vegetation composition are located in forest reserves with restricted management. These natural for...
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| Other Authors: | , |
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Dordrecht :
Springer Netherlands,
2005.
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| Series: | NATO Science Series IV: Earth and Environmental Sciences,
55 |
| Subjects: | |
| Online Access: | Full Text via HEAL-Link |
Table of Contents:
- Gaining Insights on the Effects of Tree Species on Soils
- Effects of British Columbia Tree Species on Forest Floor Chemistry
- Nutrient Turnover, Greenhouse Gas Exchange and Biodiversity in Natural Forests of Central Europe
- Tree Species Effects on Nitrogen Cycling and Retention: A Synthesis of Studies Using 15N Tracers
- Tree Species Management and Nitrate Contamination of Groundwater: A Central European Perspective
- Plant Effects on Soils in Drylands: Implications for Community Dynamics and Ecosystem Restoration
- The Response of Belowground Carbon Allocation in Forests to Global Change
- How Nitrogen-Fixing Trees Change Soil Carbon
- Effects of Tree Species on C- and N-Cycling and Biosphere-Atmosphere Exchange of Trace Gases in Forests
- Significance of Forests as Sources for N2O and NO
- Microbial Processing of Humic Substances from Meadow and Forest Soils
- Phosphorus Compounds Under Different Plants in an Artificial Soil Formation Experiment
- Short-Term Kinetics of Soil Microbial Respiration — A General Parameter Across Scales?
- The Influence of Stand Density on Growth of Three Conifer Species
- The Siberian Afforestaton Experiment: History, Methodology, and Problems
- Productivity of Six Tree Species Plantations for Three Decades in the Siberian Afforestation Experiment
- Biochemistry of Carbon and Nitrogen in the Siberian Afforestation Experiment
- Tree Species Effects on Potential Production and Consumption of Carbon Dioxide, Methane, and Nitrous Oxide: The Siberian Afforestation Experiment
- The Formation of Soil Invertebrate Communities in the Siberian Afforestation Experiment
- The Transformation of Plant Residues Under Different Tree Species in the Siberian Afforestation Experiment
- Tree Diversity and Soil Biology: A New Research Program in French Guyana.
