Incorporating Carbon and Bioenergy Concerns Into Forest Management

Purpose of Review The primary focus of this paper is to review articles that incorporate forest carbon sequestration or bioenergy into an optimization framework for forest management at the stand and forest levels and to highlight the gaps in the literature. Forest management is seen as a cost-effec...

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Bibliographic Details
Published in:Current forestry reports 2018-09, Vol.4 (3), p.150-160
Main Authors: Yoshimoto, Atsushi, Asante, Patrick, Itaka, Shizu
Format: Article
Language:English
Subjects:
Carbon
Carbon sequestration
Climate change
Earth and Environmental Science
Ecology
Emissions control
Environment
Environmental impact
Environmental Management
Fertilization
Forest management
Forestry
Forestry Management
Forests
Greenhouse effect
Greenhouse gases
Integrating Forestry in Land use Planning (P Bettinger
Literature reviews
Mitigation
Nature Conservation
Optimization
Optimization techniques
Renewable energy
Reviews
Section Editor
Silviculture
Spatial data
Strategy
Sustainable Development
Topical Collection on Integrating forestry in land use planning
Wood
Wood products
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Summary:Purpose of Review The primary focus of this paper is to review articles that incorporate forest carbon sequestration or bioenergy into an optimization framework for forest management at the stand and forest levels and to highlight the gaps in the literature. Forest management is seen as a cost-effective strategy to reduce carbon emission, and optimization techniques are a powerful tool to assist in developing an optimal strategy. Recent Findings Our review of literature shows a gap in research on the use of optimal management schemes to investigate the impact of silvicultural techniques such as site preparation, genetic improvement, and fertilization on carbon sequestration. For operational planning, spatial information is helpful in developing an optimal mitigation strategy. However, there is a gap in literature when it comes to the application of exact solution techniques to solve spatially constrained harvest scheduling problems that encourage carbon sequestration and timber production, while taking into account forest management prescriptions. The review further shows that assessing the impacts of using carbon sequestration and bioenergy strategies to mitigate the impact of greenhouse gas-induced climate change is complex due to the interaction between the forest sector, energy, and other industrial product sectors. Summary We suggest that more research should be directed towards using optimization techniques and an integrated system approach that tracks carbon flow in multiple sectors as a strategy to reduce carbon emissions. This strategy should encourage higher wood utilization and increase use of long-lived harvested wood products as well as bioenergy from waste wood.
ISSN:2198-6436
2198-6436
DOI:10.1007/s40725-018-0080-9