DOI: 10.1016/j.foreco.2017.02.026
Scopus记录号: 2-s2.0-85013250241
论文题名: Quantifying uncertainty about forest recovery 32-years after selective logging in Suriname
作者: Roopsind A. ; Wortel V. ; Hanoeman W. ; Putz F.E.
刊名: Forest Ecology and Management
ISSN: 0378-1127
出版年: 2017
卷: 391 起始页码: 246
结束页码: 255
语种: 英语
英文关键词: Allometric models
; Cutting cycles
; REDD+
; Reduced-impact logging
; Sustainable forest management
; Timber stocks
Scopus关键词: Climate change
; Economic and social effects
; Harvesting
; Logging (forestry)
; Probability
; Recovery
; Timber
; Uncertainty analysis
; Allometric models
; Cutting cycles
; REDD
; Reduced-impact logging
; Sustainable forest management
; Timber stocks
; Forestry
; aboveground biomass
; aboveground production
; allometry
; biomass allocation
; climate change
; diameter
; selective logging
; sustainability
; Guyana Shield
; Suriname
英文摘要: The inclusion of managed tropical forests in climate change mitigation has made it important to find the sustainable sweet-spot for timber production, carbon retention, and the quick recovery of both. Here we focus on recovery of aboveground carbon and timber stocks over the first 32 years after selective logging with the CELOS Harvest System in Suriname. Our data are from twelve 1-ha permanent sample plots in which growth, survival, and recruitment of trees ≥15 cm diameter were monitored between 1978 and 2012. We evaluate plot-level changes in basal area, stem density, aboveground carbon, and timber stock in response to average timber harvests of 15, 23, and 46 m3 ha−1. We use a linear mixed-effects model in a Bayesian framework to quantify recovery time for aboveground carbon and timber stock, as well as annualized increments for both. Our statistical models accounted for the uncertainty associated with the height and biomass allometries used to estimate aboveground carbon and increased precision of annualized aboveground carbon increments by including data from forty-one plots located elsewhere on the Guiana Shield. The probabilities of aboveground carbon recovery to pre-logging levels 32 years after harvests of 15, 23 and 46 m3 ha−1 were 45%, 40%, and 24%, respectively. Net aboveground carbon increment for logged forests across all harvest intensities was 0.64 Mg C ha−1 yr−1, more than twice the rate observed in unlogged forests (0.26 Mg C ha−1 yr−1). The probabilities of timber stock recovery at the end of the 32-year period were highest after harvest intensities of 15 and 23 m3 ha−1 (with 80% probability) and lowest after the harvest of 46 m3 ha−1 (with 70% probability). Timber stock recovery across all harvest intensities was driven primarily by residual tree growth. Application of the legal cutting limit of 25 m3 ha−1 will require more than 70 and 40 years to recover aboveground carbon and timber stocks, respectively, with 90% probability. Based on the low recruitment rates of the twelve species harvested, the 25 year cutting cycle currently implemented in Suriname is too short for long-term timber stock sustainability. We highlight the value of propagating uncertainty from individual tree measurements to statistical predictions of carbon stock recovery. Ultimately, our study reveals the trade-offs that must be made between timber and carbon services as well as the opportunity to use carbon payments to enable longer cutting rotations to capture carbon from forest regrowth. © 2017 Elsevier B.V. Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/64418
Appears in Collections: 影响、适应和脆弱性
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作者单位: Department of Biology, University of Florida, Gainesville, Florida, FL, United States; Iwokrama International Centre, Georgetown, Guyana; Department of Forest Management, Centre for Agricultural Research in Suriname (CELOS), Paramaribo, Suriname; Greenheart (Suriname) N.V., Paramaribo, Suriname
Recommended Citation:
Roopsind A.,Wortel V.,Hanoeman W.,et al. Quantifying uncertainty about forest recovery 32-years after selective logging in Suriname[J]. Forest Ecology and Management,2017-01-01,391