Decomposition of fine woody debris in a deciduous forest in North Carolina1

We examined the effect of position with respect to the soil surface, species, and piece size on the decomposition rate of fine woody debris (< 15 cm diameter) in a North Carolina forest disturbed by hurricane. To examine year-to-year trends, pieces of two species (Carya tomentosa ((Lam.) Nutt.) a...

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Veröffentlicht in:The journal of the Torrey Botanical Society 2011-04, Vol.138 (2), p.192-206
Hauptverfasser: Fasth, Becky G, Harmon, Mark E, Sexton, Jay, White, Peter
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Sprache:eng
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Zusammenfassung:We examined the effect of position with respect to the soil surface, species, and piece size on the decomposition rate of fine woody debris (< 15 cm diameter) in a North Carolina forest disturbed by hurricane. To examine year-to-year trends, pieces of two species (Carya tomentosa ((Lam.) Nutt.) and Quercus alba (Lam.)) in four size classes were placed on the forest floor and collected annually for ten years. In addition, to examine position effects samples of the same species and sizes were suspended in the air and buried underground at a depth of 20 cm and collected at years 2, 4, and 8. Nine other species were placed on the forest floor and collected at years 2, 4, and 8 to determine the range of variability among species. Decomposition was slower the first year than subsequent years, therefore the lag exponential equation was used to determine time trends and an integrated decomposition rate-constant (kI) reflecting the overall decomposition rate-constant was calculated. The kI for C. tomentosa and Q. alba ranged from 0.17–0.25 year−1 with a significant interaction between species and size. The buried and suspended samples generally decomposed more slowly than the samples on the surface and kI ranged from 0.11–0.24 year−1 and from 0.10–0.18 year−1, respectively. There was a significant interaction between position and size; while drying limited decomposition of suspended pieces regardless of size, high moisture may have limited decomposition in the largest buried pieces. The kI for all eleven species and sizes averaged over all size classes ranged from 0.06–0.33 year−1. There was a highly significant interaction between species and size with the smaller sizes tending to decompose faster than the larger sizes and in general species with the most decay-resistant heartwood having the largest response to increases in size. Our experiments and comparison to other studies suggests that the interactions between species, size, and position relative to soil surface are highly complex and dependent on site climate.
ISSN:1095-5674
1940-0616
DOI:10.3159/TORREY-D-10-00009.1