An evaluation of harvesting costs in present and planned operations: case study—Waston District of Mazandaran Wood and Paper Industries

Majid Lotfalian; Mohammad Ali Akbari Gorji; Seyed Ataollah Hoseini; Maryam Kazemi

doi:10.1007/s11676-017-0435-2

Journal of Forestry Research ›› 2017, Vol. 29 ›› Issue (1) : 215 -220. DOI: 10.1007/s11676-017-0435-2

Original Paper

An evaluation of harvesting costs in present and planned operations: case study—Waston District of Mazandaran Wood and Paper Industries

Author information +

History +

PDF

Abstract

Amongst all forest utilization phases, harvesting plays a key role as the beginning phase of the utilization cycle and has a significant effect on the following phases. In this research, in order to examine the reduction of costs with respect to present and planned operations, the starting time of the harvesting or cutting phase and work flow were recorded. The starting time of each phase of the entire operation was recorded as well. Before harvesting the marked tree, the appropriate felling direction was determined and the azimuth of the correct direction was taken. The results indicate that there was not a meaningful relationship between the differences in direction of a leaning tree compared with the felling direction. However, there was a significant relationship between the difference of the defined and felling direction and the difference in tree leaning and defined direction. The same trend was observed between tree leaning and felling directions and tree leaning and defined directions. On the other hand, there was no significant relationship between tree leaning and felling directions and the defined and tree felling directions. In addition, this research shows that with an increase in tree volume, the time for tree cutting rose. Furthermore, when the difference of tree leaning and felling direction decreased, the time to cut the tree declined. The regression equation is Y = 168.9–0.14 (the difference between tree leaning and felling direction) + 0.7 (volume).

Keywords

Chainsaw / Felling direction / Cutting time / Tree leaning direction

Cite this article

Download citation ▾

Majid Lotfalian, Mohammad Ali Akbari Gorji, Seyed Ataollah Hoseini, Maryam Kazemi. An evaluation of harvesting costs in present and planned operations: case study—Waston District of Mazandaran Wood and Paper Industries. Journal of Forestry Research, 2017, 29(1): 215-220 DOI:10.1007/s11676-017-0435-2

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Akay AE, Yilmaz M, Tonguc F. Impact of mechanized harvesting machines on forest ecosystem: residual stand damage. J Appl Sci, 2006, 6(11): 2414-2419.

[2]	Anonymous. Forest management project of Waston District, 2005, Tehran: National Forest, Rangeland and Watershed Organization 262

[3]	Ershadifar M, Nikooy M, Naghdi R. Assessment of ability of cutting groups in implementing of planned cutting in western forests of Gilan province. J Iran For, 2011, 3(2): 169-176.

[4]	Ettehadi Abri M, Majnounian B. Determination of quantitative and qualitative wood waste resulted from tree cutting operation with chainsaw (case study: Kheirood-Kenar). J Iran For, 2010, 3(1): 25-34.

[5]	Fathi J, Azarnoosh MR, Raafatnia N, Mirarab J. Development of tree cutting model by chainsaw in selective method (case study: Namkhaneh District, Kheirood-Kenar Forest). Iran J For Pop Res, 2011, 19(2): 340-351.

[6]	Greene WD, McNeel JF. Productivity, costs, and levels of butt damage with a Bell model T Feller-Buncher. For Prod J, 1987, 37(11/12): 70-74.

[7]	Han HS, Kellogg LD. A comparison of sampling methods and a proposed quick survey for measuring residual stand damage from commercial thinning. J For Eng, 2000, 11(1): 63-69.

[8]	Kato Y. Target costing support systems: lessons from leading Japanese companies. Manag Account Res, 1993, 4(1): 33-47.

[9]	Krueger W. Effects of future crop tree flagging and skid trail planning on conventional diameter-limit logging in a Bolivian tropical forest. For Ecol Manag, 2004, 188(1–3): 381-393.

[10]	Lamson N, Smith I, Calmiller H, Gary W. Logging damage using individual tree selection practice in Appalachian hard wood stands. North J Appl For, 1985, 2(4): 117-120.

[11]	Li YX, Wang JX, Miller G, Mcneel J. Production economics of harvesting small-diameter hardwood stands in central Appalachia. For Prod J, 2006, 56(3): 81-86.

[12]	Lotfalian M. Forest utilization, 2012, Tehran: Aeizh Press 488 (in Persian)

[13]

Murphy G, Twaddle AA (1986) Techniques for the assessment and control of log value recovery in the New Zealand forest harvesting industry in improving productivity through forest engineering. In: Proceedings of the 9th annual council on forest engineering, September 29–October 2, Oregon, USA, pp 48–63

[14]	Naghdi R, Mohammadi LS. Optimal forest road density based on skidding and road construction costs in Iranian Caspian Forest. Casp J Environ Sci, 2009, 7(2): 79-86.

[15]	Nikooy M, Sobhani H, Majnounian B, Marvi Mohajer MR, Feghhi J. Examination of production cost of cutting team (chainsaw) in Asalam Forests of Gilan province. J Nat Resour, 2007, 60(4): 1357-1371.

[16]	Rice JA, MacDonald GB, Weingartner DH. Precommercial thinning of trembling aspen in northern Ontario: part 1—growth responses. J For Chron, 2001, 77(5): 893-901.

[17]	Rizvandi V, Jorgholami M. Comparison of tree cutting cost and production with chainsaw in two common and planned methods (case study: Kheirood Forest). J Iran For, 2012, 4(1): 1-11.

[18]	Sobhani H, Ghafarian MR, Khakzad Rostami MJ. Examination of tree cutting cost and production in Patom district of educational Kheirood-Kenar Forest (in Nowshahr). J Iran Nat Resour, 2007, 60(2): 485-491.

[19]	Wang JX, Long CL, McNeil J, Baumgras J. Productivity and cost of manual felling and cable skidding in central Appalachian hardwood forests. For Prod J, 2004, 54(12): 45-51.