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https://www.nrs.fs.fed.us/pubs/50086
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Year Published
2015Source
Forest Ecology and Management 358: 335-343.
Abstract
In forest ecosystems there are numerous factors that influence nitrate (NO3) availability and retention in ways that can significantly affect receiving waters. Unfortunately these factors often co-exist and interact making it difficult to establish the importance of each individually. Three reference watersheds at the Fernow Experimental Forest (FEF) provide a unique opportunity to evaluate the influence of tree species on soil NO3availability across spatial scales because they differ in stream-water NO3 concentrations despite sharing the same macro-climate, geology, hydrology, dominant soils series, stand age, pollution regime, and land-use history. To test the strength of plant/soil associations inferred from previous work in two watersheds in the FEF, we measured NO3 availability and the composition of tree species in a third watershed that has intermediate stream-water NO3 concentrations. We also examined plant/soil relationships in these watersheds at the scale of individual trees. Across the spatial scales examined – from individual trees to small watersheds – there were consistent associations between tree species and soil NO3 availability. For individual trees, species with high underlying soil NO3 availability included Acer saccharum and Lireodendron tulipifera, whereas species with low underlying soil NO3 availability included Acer rubrum, Nyssa sylvatica, and Quercus prinus. For small plots we found plant/soil relationships that were consistent with those made apparent by sampling under individual trees of A. saccharum, A. rubrum, N. sylvatica, and Q. prinus. And at the scale of entire watersheds, those with higher stream-water NO3 had a greater importance of tree species associated with high NO3availability at finer spatial scales than did the watershed with low stream-water NO3. The spatially-robust relationships between tree species and soil NO3 availability at the FEF suggest that well-characterized relationships between dominant tree species and soil properties should improve our understanding of how changes in the species composition of forest trees due to human activities, or natural causes, will alter rates of NO3 production and loss.
Keywords
- Nitrate availability
- Nitrogen cycling
- Tree species
- Spatial scale
- Forest ecosystems
- Fernow Experimental Forest
Citation
Peterjohn, William T.; Harlacher, Margaret A.; Christ, Martin J.; Adams, Mary Beth. 2015. Testing associations between tree species and nitrate availability: do consistent patterns exist across spatial scales? Forest Ecology and Management. 358: 335-343.
For further details log on website :
https://www.nrs.fs.fed.us/pubs/50086
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