Stemflow nutrient inputs to soil in a successional hardwood forest |
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Authors: | Christopher S. Potter |
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Affiliation: | (1) Biology Department, Emory University, 30322 Atlanta, GA, USA;(2) Present address: NASA-Ames Research Center, Moffett Field, Mail Stop 239-20, 94035, CA, USA |
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Abstract: | Stemflow and throughfall from a regenerating (8-year-old) southern Appalachian hardwood forest were collected to examine the relative importance of tree bole nutrient leaching in response to acid deposition. Samples from nine (2 m2) stemflow collection plots were analyzed for four dormant season and 11 growing season rainstorm events. Results showed that, relative to throughfall fluxes, stemflow accounted, on average, for approximately 8.5% of total water reaching the forest floor during both dormant and growing season storms. Relative to foliar leaching, K-, SO4-, and PO4 ions appear to be the most easily leached ions from young tree stems. Proportional nitrate and base cation stemflow fluxes increased significantly (p<0.05) with growing-season storm-event duration, suggesting that the stemsurface nutrient pool is depleted by precipitation more slowly than the foliar pool. On average, proportional stemflow fluxes of SO4 (12%) and K (14%) were consistently higher than reported maximum values for more mature forest stands, which indicates that small-scale stemflow inputs of ions such as these to the forest floor may be important in early successional ecosystems. |
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Keywords: | acid deposition hardwood forests nutrient leaching soil inputs stemflow succession |
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