Operational impacts to residual stands following ground-based skidding in Hyrcanian Forest, northern Iran

Meghdad Jourgholami

doi:10.1007/s11676-012-0261-5

Journal of Forestry Research ›› 2012, Vol. 23 ›› Issue (2) :333 -337. DOI: 10.1007/s11676-012-0261-5

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Operational impacts to residual stands following ground-based skidding in Hyrcanian Forest, northern Iran

Meghdad Jourgholami ¹^,^a

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Abstract

Hyrcanian (Caspian) Forest in northern Iran has a richness of biological diversity, with endemic and endangered species. The usage of ground-based skidding is well accepted practice for the extraction of timber from the forest, but this operation has tended to cause the greatest environmental problems. The aims of the study were to evaluate and comparison of operational impacts, residual stand damage, regeneration, and to quantify these effects such as: the extent of the damage, wounding patterns, size and distribution after logging operations that utilized two different methods: short-log and long-log. A Timberjack cable skidder was used and the study location was in the Kheyrud Forest. Post harvesting assessment of damage to the residual stand was compared along skid trail by 100% inventory method and also for the assessment of regeneration damage along winching strips. The results show that along winching strips the percentage of damage to the regeneration was 44% and 36%, while the tree damages along skid trails reached 2.3% and 4.1% in the short-log and long-log methods, respectively. The greatest average amount of damage to a bole occurred along the first 1 m up from the ground (97%) and also within 4 m of the skidder centerline (80%). These results show that the short-log method causes less damage to the residual stand than the long-log method. Tree location to skidder trail appears to have a significant effect on the number and height of scars on a tree. Well designed and constructed trails should be wide enough to allow wood extraction from the forest. Damage to the residual stand might be reduced by proper planning and training of logging crews.

Keywords

operational impacts / forest harvesting method / residual stand damage / regeneration

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Meghdad Jourgholami. Operational impacts to residual stands following ground-based skidding in Hyrcanian Forest, northern Iran. Journal of Forestry Research, 2012, 23(2): 333-337 DOI:10.1007/s11676-012-0261-5

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References

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

[1]	Ahmadi H.. Residual stand damage from logging operation. 1996, Tehran: University of Tehran, 125.

[2]	Athanassiadis D.. Residual stand damage following cut-to-length harvesting operations with a farm tractor in two conifer stands. Silva Fennica, 1997, 31(4): 461-467.

[3]	Benson R.E., Gonsior M.J.. Tree damage from skyline logging in western larch/Douglas-fir stands. Res. Pap. INT-RP-268. 1981, Ogden, UT: U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station, 15.

[4]	Bettinger P., Kellogg L.D.. Residual stand damage from cut-to-length thinning of second growth timber in the Cascade Range of western Oregon. Forest Product Journal, 1993, 43(11/12): 59-64.

[5]	Fairweather S.E.. Damage to residual trees after cable logging in northern hardwoods. Northern Journal of Applied Forestry, 1991, 8(1): 15-17.

[6]	Froese K., Han H.S.. Residual stand damage from cut-to-length thinning of a mixed conifer stand in northern Idaho. Western Journal of Applied Forestry, 2006, 21(3): 142-148.

[7]	Han H.S., Kellogg L.D.. Damage characteristics in young Douglas-fir stands from commercial thinning with four timber harvesting systems. Western Journal of Applied Forestry, 2000, 15(1): 27-33.

[8]	Han H.S.. Damage to young Doglas-fir stand from commercial thinning with various timber harvesting systems and silvicultural prescriptions: characteristics, sampling strategy for assessment and future volume loss. 1998, Oregon: Oregon State University, 141.

[9]	Heinemann H.R.. Burley J., Evans J., Youngquist J.. Forest operation under mountainous conditions. Encyclopedia of Forest Sciences. 2004, Amsterdam: Elsevier Academic Press, 279 285

[10]	Hosseini S.M.. Study of forest utilization impacts on residual stand in Darabkola Forest management Plan. 1994, Tehran, Iran: University of Tarbiat Modarres, 129.

[11]	Kosir B.. Damage to young forest due to harvesting in shelterwood systems. Croatian Journal of Forest Engineering, 2008, 29(2): 141-153.

[12]	Kovbasa N.P.. Distribution and spreading of wound rot in Belarus spruce stands and measures to limit the losses. 1996, Priluki-Minsk: Byelorussian Plant Protection Research Institute, 148.

[13]	Mousavi R.. Comparison of productivity, cost and environmental impacts of two harvesting methods in Northern Iran: short-log vs. 2009, Finland: University of Helsinki, 93.

[14]	Naghdi R.. Study of optimum road density in tree length and cut to length system. 2004, Tehran, Iran: University of Tarbiat Modarres

[15]	Nikooy M.. Optimizing production cost and damage reduction to wood, trees and forest by harvest planning (case study: Asalem forest district area). 2007, Tehran, Iran: Tehran University, 215.

[16]	Ostrofsky W.D., Seymour R.S., Lemin R.C.. Damage to northern hardwoods from thinning using whole-tree harvesting technology. Canadian Journal of Forest Research, 1986, 16: 1238-1244.

[17]	Rashidi R.. Effect of mechanical damages on Beech tree growth. Iranian Journal of Natural Resources, 1995, 47: 58-70.

[18]	Shigo A.L.. Decay and discoloration following logging wounds on northern hardwoods. Res. Pap. NE-47. 1966, Upper Darby, PA: U. S. Department of Agriculture, Forest Service, Northeastern Forest Experiment Station, 43.

[19]	Sidle R.C., Laurent T.H.. Site damage from mechanized thinning in southeast Alaska. Northern Journal of Applied Forestry, 1986, 3: 94-97.

[20]	Siren M.. Stand damage in thinning operation with a grapple loader processor. Folia Forest, 1982, 528: 1-16.

[21]	Sobhany H., Staurt W.B.. Harvesting systems evaluation in Caspian Forest. International Journal of Forest Engineering, 1991, 2(2): 21-24.

[22]	Vasiliauskas R. 1993. Wound decay of Norway spruce associated with logging injury and bark stripping. In: Proceedings of the Lithuanian Forest Research Institute, pp. 144–156.

[23]	Vasiliauskas R.. Damage to trees due to forestry operations and its pathological significance in temperate forests: a literature review. Forestry, 2001, 74(4): 319-336.

[24]	Youngblood A.. Damaged to residual trees and advanced regeneration from skyline and forwarding yarding in mixed-conifer stands of northeastern Oregon. Western Journal of Applied Forestry, 2000, 15(2): 101-107.