Using linear mixed models to evaluate stand level growth rates for dipterocarps and Macaranga species following two selective logging methods in Sabah, Borneo

•Linear mixed models provide appropriate framework for modeling forest growth data.•Supervised logging with climber cutting (SLC) reduces recovery time.•SLC reduces Macaranga establishment compared to conventional logging (CL).•Double growth rate for dipterocarps in SLC compared to CL. To understand...

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Veröffentlicht in:	Forest ecology and management 2019-04, Vol.437, p.372-379
Hauptverfasser:	Lussetti, Daniel, Kuljus, Kristi, Ranneby, Bo, Ilstedt, Ulrik, Falck, Jan, Karlsson, Anders
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Sprache:	eng
Schlagworte:	Basal area growth Climber cutting Dipterocarpaceae Forest Science LMM Reduced impact logging Skogsvetenskap Sustainable forest management
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creator	Lussetti, Daniel Kuljus, Kristi Ranneby, Bo Ilstedt, Ulrik Falck, Jan Karlsson, Anders
description	•Linear mixed models provide appropriate framework for modeling forest growth data.•Supervised logging with climber cutting (SLC) reduces recovery time.•SLC reduces Macaranga establishment compared to conventional logging (CL).•Double growth rate for dipterocarps in SLC compared to CL. To understand and predict the dynamics and productivity of the world’s tropical rainforests after logging is a major challenge for ecologists and forest managers. Realistic forest-dynamics models for this biome are largely lacking. Using linear mixed models, we analyse basal area development for the commercially valuable tree species of dipterocarps and the fast-growing pioneer Macaranga spp., following two selective logging methods; supervised logging (SL) and conventional logging (CL) combined with- or without pre-harvest climber cutting (SLC and SL, and CLC and CL, respectively). After logging there was an initial period of about five years before recovery started. During the 18-year study period, the average stand basal area growth rates of the dipterocarp group in the SLC treatment was double that in the CL treatment, revealing a faster recovery. Eighteen years after logging, SL and SLC treatments recovered 93% and 84%, respectively, of the initial standing dipterocarp basal area, compared to 73% and 72% recovery for the CL and CLC treatments. SLC treatments reduced the overall establishment of pioneer species (Macaranga spp.) by about 45% in contrast to CL and CLC treatments. Our study provides a framework for evaluating and comparing growth rates in tropical forests for different logging methods. The results suggest that a combination of directional felling, pre-aligned skid trails and pre-harvest climber cutting can improve future yields in tropical rainforests.
doi_str_mv	10.1016/j.foreco.2019.01.044
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subjects	Basal area growth Climber cutting Dipterocarpaceae Forest Science LMM Reduced impact logging Skogsvetenskap Sustainable forest management
title	Using linear mixed models to evaluate stand level growth rates for dipterocarps and Macaranga species following two selective logging methods in Sabah, Borneo
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