Selective logging of a subtropical forest: Long-term impacts on stand structure, timber volumes, and biomass stocks

•Subtropical Atlantic Forest recovered little commercial timber in 20-years post-logging.•Above-ground biomass of all trees recovered faster after CL than after RIL.•Mortality rates were high (4.4–6.3 % year−1) the first-year post-logging regardless of the harvest system applied.•Logging in this Sub...

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Published in:Forest ecology and management Vol. 518; p. 120290
Main Authors: Bedrij, Natalia A., Mac Donagh, Patricio M., Putz, Francis E., Genoveva Gatti, M.
Format: Journal Article
Language:English
Published: Elsevier B.V 15.08.2022
Subjects:
administrative management
Argentina
biomass
Carbon sequestration
Forest dynamics
forest ecology
forest trees
mortality
Reduced-impact logging
Semi-deciduous forest
stand structure
Sustainable forest management
Timber recovery
tree mortality
tropical forests
understory
Argentina
Timber recovery
Reduced-impact logging
Semi-deciduous forest
Carbon sequestration
Forest dynamics
Sustainable forest management
ISSN:0378-1127, 1872-7042
Online Access:Get full text
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Summary:•Subtropical Atlantic Forest recovered little commercial timber in 20-years post-logging.•Above-ground biomass of all trees recovered faster after CL than after RIL.•Mortality rates were high (4.4–6.3 % year−1) the first-year post-logging regardless of the harvest system applied.•Logging in this Subtropical Atlantic Forest is not sustainable even with RIL. Long-term studies are key to understanding the dynamics of managed forests, especially as related to timber supplies. We evaluated 20 years of recovery of pre-harvest structure, biomass, and timber stocks of a Subtropical Atlantic Forest in Argentina subjected to either conventional selective logging (CL = ∼15 m3 ha−1) or reduced-impact logging (RIL = ∼11 m3 ha−1); we also monitored the dynamics of interspersed plots of unlogged forest (Control). All trees ≥10 cm DBH were measured before and at variable intervals for 20 years post-logging; the results are presented for all stems and for only those of species that provide commercial timber. After logging, basal areas and volume of all stems increased two-times faster after CL than after RIL, whereas biomass increments were similar between logged treatments. In contrast, commercial timber tree stocking did not recover regardless of the harvesting system applied. Mortality rates were high in both CL and RIL plots but also in unlogged Control plots (1.6–3.6 % year−1). The failure of timber stocks to recover was apparently due to high tree mortality rates coupled with the proliferation of understory bamboos. Alternative silvicultural methods are clearly needed to avoid degrading the remaining species-rich Subtropical Atlantic Forest.
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ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2022.120290