Abstract
Improving the efficiency of the forestry sector will have an important impact on our possibility to attain long-term sustainability and mitigate climate change. In this study, attainable, and sustainable, efficiency improvements in the harvesting of forest products are analysed using data envelopment analysis (DEA). The price impacts of the efficient harvesting volumes are evaluated in a second step using a spatial forest sector model. The results indicate that the harvested volumes of forest products, both for the industry and energy sectors, can be significantly increased if a more efficient forest management is adopted. This supply-side effect will also result in general price decreases for sawlogs, pulpwood, fuelwood and harvesting residues. However, in certain counties, and for specific forest products, the estimated decreasing price effect from a more efficient forest management cannot fully offset the increasing price effect of the energy sector expanding its use of forest products. More forest biomass enters the market, which is need in the transition towards a bioeconomy, and the increased availability of forest biomass will restrict the price effect making investments in the bioeconomy more likely to be profitable.
Highlights
Improving the efficiency of the forestry sector will have an important impact on our possibility to attain long-term sustainability and mitigate climate change
The network Data Envelopment Analysis (DEA) model is solved to estimated efficient harvesting levels and in a second step the Forest Sector Model (FSM) model is solved to estimate the price effects, using the average efficient volumes estimated by the network DEA model
More forest biomass enters the market, which is needed in the transition towards a bioeconomy, and secondly the increased availability of forest biomass will restrict the price effect making investments in the bioeconomy more likely to be profitable
Summary
Improving the efficiency of the forestry sector will have an important impact on our possibility to attain long-term sustainability and mitigate climate change. The results indicate that the harvested volumes of forest products, both for the industry and energy sectors, can be significantly increased if a more efficient forest management is adopted. This supply-side effect will result in general price decreases for sawlogs, pulpwood, fuelwood and harvesting residues. The purpose of this study is to evaluate price impacts of attainable, and sustainable, efficiency improvements in the harvesting of forest products. To achieve this purpose, an integrated approach of two forest models is proposed. This paper is the first one analyzing effects from an improved performance in the forestry sector by integrating these two methodologies
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