A generalized Faustmann model with multiple carbon pools

In the context of “carbon neutrality”, it is crucial to accurately account for forest carbon sequestration, including living tree biomass, dead organic matter, and harvested wood products. This study develops a generalized Faustmann model, including carbon sequestration in multiple carbon pools unde...

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Bibliographic Details
Published in:Forest policy and economics 2024-12, Vol.169, p.103363, Article 103363
Main Authors: Yu, Zhihan, Ning, Zhuo, Zhang, Han, Yang, Hongqiang, Chang, Sun Joseph
Format: Article
Language:English
Subjects:
biomass
carbon
carbon sequestration
Carbon sequestration benefits
carbon sinks
case studies
Dead organic matter
Decay mode
discount rate
forest land
forest policy
forests
Generalized Faustmann model
half life
Harvested wood products
organic matter
paperboard
statics
trees
wood
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Summary:In the context of “carbon neutrality”, it is crucial to accurately account for forest carbon sequestration, including living tree biomass, dead organic matter, and harvested wood products. This study develops a generalized Faustmann model, including carbon sequestration in multiple carbon pools under different assumptions of the decay modes of harvested wood products. Then, a comparative statics analysis of key parameters of dead organic matter and the harvested wood product carbon pool is conducted. The results show that the effect of the carbon pool parameters of dead organic matter and harvested wood products' on the optimal rotation usually depends on the economic environment, such as the discount rate and the time of their changes. Results of our case study indicate that considering the carbon sequestration in multiple carbon pools increases land expectation value and forest land carbon stocks. Meanwhile, different harvest wood products types and decay modes affect the optimal rotation differently. Our results demonstrate that different carbon accounting methodologies should be established for different types of harvested wood products, such as exponential decay for paper and paperboard and chi-square decay for solid wood products. It is also necessary to expand the outlets of harvested wood products in wood-based building materials and extend their half-lives. •We developed a generalized Faustmann model with multiple carbon pools.•We conducted a comparative statics analysis to study the effect of parameters on optimal rotation and land expectation value.•We found that different decay assumptions are suitable for different harvested wood products types.
ISSN:1389-9341
DOI:10.1016/j.forpol.2024.103363