[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7747/JFES.2017.33.3.233

Log Production of Major Commercial Species for Sawtimber in Hongcheon Region of South Korea

Lee, Ilsub (Department of Forest Management, College of Forest and Environmental Sciences, Kangwon National University)
Lee, Daesung (Department of Forest Management, College of Forest and Environmental Sciences, Kangwon National University)
Seo, Yeongwan (Institute of Forest Science, Kangwon National University)
Choi, Jungkee (Department of Forest Management, College of Forest and Environmental Sciences, Kangwon National University)

Publication Information

Journal of Forest and Environmental Science / v.33, no.3, 2017 , pp. 233-238 More about this Journal

Abstract

This study was carried out to figure out the number of logs for sawtimber by DBH and height class and to compare merchantable volume ratio by categorizing into sawtimber, lagging board and pulpwood, and others for Pinus densiflora, Pinus koraiensis, and Larix kaempferi. Logs for sawtimber were hardly produced in small DBH class of three species, but produced evidently from medium DBH class. In large DBH class, the number of logs for sawtimber were noticeably different among species: 4.3 logs for L. kaempferi, 2.6 logs for P. densiflora, and 1.0 logs for P. koraiensis on average. Similarly, merchantable volume ratio for sawtimber were largely different among species in large DBH class with higher than 15 m: 82% logs for L. kaempferi, 60% logs for P. densiflora, and 44% logs for P. koraiensis. When compared to the upper diameter and upper height by species with regard to the last log of a tree produced for sawtimber, upper diameter was smallest with 14.1 cm and upper height was highest with 12.2 m in L. kaempferi. Overall, L. kaempferi was considered as the more commercial species for sawtimber production than P. densiflora and P. koraiensis.

Keywords

merchantable volume ratio; upper diameter; upper height; lagging board; pulpwood;

Citations & Related Records

Times Cited By KSCI : 3 (Citation Analysis)

Reference
Cited By KSCI

1	Choi J, Burkhart HE, Amateis RL. 2008. Modeling trends in stem quality characteristics of loblolly pine trees in unthinned plantations. Can J For Res 38: 1446-1457. DOI
2	Deadman MW, Goulding CJ. 1979. A method for assessment of recoverable volume by log types. N. Z. J For Sci 8: 225-239.
3	Hongcheon-gun. 2016. 2015 statistical yearbook. https://www.hongcheon.gangwon.kr/www/contents.do?key=1461.
4	Kim KD. 2017. Domestic timber distribution condition and implication. Research report. National Institute of Forest Science, Seoul, pp 16. (in Korean)
5	Korea Forest Research Institute. 2012a. Commercial Tree Species 1 Pinus densiflora. Korea Forest Research Institute, Seoul, pp 250. (in Korean)
6	Korea Forest Research Institute. 2012b. Commercial Tree Species 3 Pinus koraiensis. Korea Forest Research Institute, Seoul, pp 168. (in Korean)
7	Korea Forest Research Institute. 2012c. Commercial Tree Species 4 Larix kaempferi. Korea Forest Research Institute, Seoul, pp 180. (in Korean)
8	Korea Forest Research Institute. 2013. Log Standards and Volume Table. Korea Forest Research Institute, Seoul, pp 139. (in Korean)
9	Korea Forest Service. 2016. The Statistical Yearbook of Forestry 2016. Korea Forest Service, Daejeon, pp 414. (in Korean)
10	Korea Forest Service. 2017. Dictionary of forest and forestry terms. http://www.forest.go.kr. Accessed 28 Jul 2017.
11	Kwon S, Kim H, Chung J. 2007. Estimation of merchantable volume and yield using a stem shape simulation. J Korean For Soc 96: 362-368. (in Korean)
12	Mousavi R. 2009. Comparison of productivity, cost and environmental impacts of two harvesting methods in Northern Iran: short-log vs. long-log. PhD thesis. University of Joensuu, Joensuu, Finland. (in English)
13	National Forestry Cooperative Federation. 2017. National Forestry Cooperative Federation Timber Distribution Center. http://www.woodkorea.or.kr. Accessed 28 July 2017.
14	Park JH, Kim KM, Eom CD, Jung DJ. 2013. A study on log diameter classes of Korean softwood log. J Korean Wood Sci Technol 41: 337-345. (in Korean) DOI
15	Perstorper M, Pellicane PJ, Kliger IR, Johansson G. 1995. Quality of timber products from Norway spruce. Wood Sci Technol 29: 157-170.
16	Pickens JB, Throop SA, Frendewey JO. 1997. Choosing prices to optimally buck hardwood logs with multiple log-length demand restrictions. For Sci 43: 403-413.
17	Shim S, Yeo H. 2004. Visual log grading and evaluation of lamina yield for manufacturing structural glued laminated timber of pitch pine. J Korean Wood Sci Technol 32: 90-95. (in Korean)