Contribution of charcoal to short-term nutrient dynamics after surface fire in the humus layer of a dwarf bamboo-dominated forest

Ecological function of charcoal has been mainly investigated by adding charcoal to soil, which is not fully adequate to understand in situ the role in fire-prone forest ecosystem. To determine in situ effects of charcoal on ecosystem functions, such as nutrient availability, we conducted an experime...

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Veröffentlicht in:Biology and fertility of soils 2012-07, Vol.48 (5), p.569-577
Hauptverfasser: Makoto, K., Shibata, H., Kim, Y. S., Satomura, T., Takagi, K., Nomura, M., Satoh, F., Koike, T.
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Sprache:eng
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Zusammenfassung:Ecological function of charcoal has been mainly investigated by adding charcoal to soil, which is not fully adequate to understand in situ the role in fire-prone forest ecosystem. To determine in situ effects of charcoal on ecosystem functions, such as nutrient availability, we conducted an experimental burning in a Japanese white birch forest with dense coverage of dwarf bamboo in the understory with or without removal of charcoal. Ammonium-N in the remaining humus layer increased immediately after the burning, but decreased to the level of unburnt plots within 1 month of the burning. Removal of charcoal had no significant effect on the NH 4 + -N dynamics. Although burning did not affect NO 3 − -N dynamics during the sampling period, charcoal removal led to a slight increase in NO 3 − -N. The available P increased immediately after the burning, but then fell at 1 month after burning. Charcoal inhibited the available P depletion and prolonged the high availability of P. Greater availability of P might be due to the adsorption of phosphate in charcoal pores. Exchangeable Ca and Mg increased gradually; charcoal appeared to extend the period of higher concentration of exchangeable Ca and Mg. Charcoal deriving from fire is a key factor in influencing available nutrient in the humus layer of post-fire forests.
ISSN:0178-2762
1432-0789
1432-0789
DOI:10.1007/s00374-011-0657-y