Litter removal in a sclerophyll forest: short- and medium-term consequences for soil properties
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2014Metadata
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Fuentes Espoz, Juan
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Litter removal in a sclerophyll forest: short- and medium-term consequences for soil properties
Abstract
Litter extraction (LE) is a common practice in many forests of the world.
This process can cause long-term depletion of C substrates, thereby
affecting ecosystem balances. The effects of LE on soil properties such as
soil respiration (Rs), soil water content (q), soil temperature (T), microbial
activity, and dissolved organic C (DOC) are not well understood in various
forests ecosystems. We investigated the short and medium-term effects of LE
on these soil properties in a sclerophyll forest of central Chile. A completely
randomized block design was set with three blocks and two treatments,
i.e., a control (no LE) and LE totaling six 10- by 10-m plots. The Rs, q, and T
were determined immediately after LE and then at Days 4, 12, 16, and 20.
The same properties were determined in the medium term (between Days
448–853). Soil organic C (SOC), basal respiration (Cmin), microbial biomass
C (Cbio), and microbial (qCO2, qMic) and mineralization (qMin) quotients
were determined at Day 711 after LE from soil cores obtained at depths
intervals of 0 to 3, 3 to 6, and 6 to 9 cm. Soil pore water was extracted from
suction lysimeters during the rainfall season of 2011 and analyzed for DOC,
specific ultraviolet absorbance, the ratio between the absorbance at 465 and
665 nm in water extracts, and electric conductivity. Litter extraction caused
large reductions in Rs in the short term (33%) and smaller reductions in the
medium term (21.2%). In addition to the effect of LE, Rs was governed by
q. The SOC, Cmin, qCO2, qMic, and qMin were unaffected by LE, but DOC
significantly decreased with LE by 59.6% (10-cm depth) and 48.8% (30-cm
depth). The DOC was comprised of aromatic-rich, low- molecular-weight
compounds in both treatments.
General note
Artículo de publicación ISI
Patrocinador
National Fund for the Development of Science and
Technology FONDECYT-Chile (Grant no. 1090283)
FONDECYT Grant no. 1090259
Identifier
URI: https://repositorio.uchile.cl/handle/2250/120395
DOI: DOI: 10.2136/sssaj2013.03.0100
Quote Item
Soil Sci. Soc. Am. J. 78:634–644
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