Affiliation:
1. Utsunomiya University
2. Mongolian University of Science and Technology
3. Forestry and Forest Products Research Institute
Abstract
This study estimates the costs and profits of extracting dead trees from forests to be sold at provincial centers via sub-provincial centers as lumber, to be sold at sub-provincial centers as firewood and unused materials for the production of energy. The effect of site conditions on cost and profit was examined. Forest registration data including subgroup area, tree species, and forest stocks; polygonal data describing province/sub-province, protected/nonprotected, and subgroup boundaries (shape file); point data of provincial/sub-provincial center (shape file); and linear data about roads (shape file) were acquired from the Mongolian government. Subgroups comprising Siberian larch, Scotch pine, and Asian white birch trees were analyzed. A positive correlation was found between off-road/primary transportation distance and harvesting/total cost; the total cost and ratio of lumber yield in each subgroup, resulting from the additional cost of transporting lumber from the sub-provincial center to the provincial center. The strong positive correlation between profitability and the ratio of lumber yield to the total yield of each subgroup means that profits will increase as more lumber is harvested, although lumber costs more than firewood or other unused wood. Therefore, the extent to which lumber can be harvested from each subgroup has a significant influence on profitability.
Publisher
European Journal of Forest Engineering
Subject
Engineering (miscellaneous),Forestry
Reference34 articles.
1. Accastello, C., Brun, F., Borgogno-Mondina, E., 2017. A spatial-based decision support system for wood harvesting management in mountain areas. Land Use Policy 67: 277-287.
2. Altrell, D., 2019. Multipurpose National Forest Inventory in Mongolia, 2014-2017 -A tool to support sustainable forest management. Geogr. Environ. Sustain. 12(3): 167-183.
3. Aruga, K., 2016. Analyses on strip road networks and profitability of final felling operations considering regeneration expenses at Nasu in Tochigi Prefecture, Japan. Eur. J. For. Eng. 2(2): 74–81.
4. Aruga, K., Hiyamizu, G., Nakahata, C., Saito, M., 2013a. Effects of aggregating forests, establishing forest road networks, and mechanization on operational efficiency and costs in a mountainous region in Japan. J. For. Res. 24(4): 747–754.
5. Aruga, K., Murakami, A., Nakahata, C., Yamaguchi, R., Saito, M., Yoshioka, T., 2014. Estimating annual available amounts of forest biomass resources with total revenues and costs during the 60-year rotation in a mountainous region in Japan. Cro. J. For. Eng. 35: 125-138.