An alternative skidding technology to the current use of crawler tractors in Alpine logging operations

Abstract The study investigated the possibility of replacing aggressive crawler tractors used in Alpine logging operations with a new rubber-tired mini-skidder, in the same size and cost class. Replacement proved desirable in terms of environmental protection and labor safety, and offered substantial economic benefits. While it required a moderate additional initial investment, extraction cost was reduced between 30 and 50%. On the average skidding distance of 130 m, productivity was 3.2 and 4.1 m3 per scheduled machine hour, respectively for the crawler and the skidder. Depending on extraction distance, skidding cost ranged from 19 to 47 € m3 for the crawler, and from 13 to 23 € m3 for the skidder. A model was developed to estimate machine productivity, extraction cost, and energy use for both machines (conventional and innovative) under a variety of work conditions typical of non-industrial private forestry. This information can be used for operational costing, planning and optimization. It can also serve to measure energy savings obtained through machine replacement.

[1]  N. Magagnotti,et al.  The effects of introducing modern technology on the financial, labour and energy performance of forest operations in the Italian Alps , 2011 .

[2]  G. Kostadinov,et al.  Effect of weight distribution on the slip efficiency of a four-wheel-drive skidder , 2009 .

[3]  Dubravko Horvat,et al.  Morphological characteristics and productivity of skidder ECOTRAC 120 V , 2007 .

[4]  Natascia Magagnotti,et al.  Financial and energy cost of low-impact wood extraction in environmentally sensitive areas , 2011 .

[5]  Eldon D. Olsen,et al.  STATISTICAL COMPARISON OF METHODS USED IN HARVESTING WORK STUDIES , 1998 .

[6]  G. Pellizzi Use of energy and labour in Italian agriculture , 1992 .

[7]  Jukka Ahokas,et al.  Indirect energy input of agricultural machinery in bioenergy production. , 2010 .

[8]  Rodolfo Picchio,et al.  Productivity and Energy Balance in Conversion of a Quercus Cerris L. Coppice Stand into High Forest in Central Italy , 2009 .

[9]  Bruce R. Hartsough,et al.  Small Parcel Fuel Reduction with a Low-Investment, High-Mobility Operation , 2009 .

[10]  Natascia Magagnotti,et al.  Wood Extraction with Farm Tractor and Sulky: Estimating Productivity, Cost and Energy Consumption , 2011, Small-scale Forestry.

[11]  Mark Rickenbach,et al.  Logging firms, nonindustrial private forests, and forest parcelization: evidence of firm specialization and its impact on sustainable timber supply , 2006 .

[12]  T. Gullberg,et al.  Evaluating Operator-Machine Interactions in Comparative Time Studies , 1995 .

[13]  Heikki Ovaskainen,et al.  Visuospatial cognitive abilities in cut-to-length single-grip timber harvester work , 2007 .

[14]  Kalle Kärhä,et al.  Mechanized Energy Wood Harvesting from Early Thinnings , 2005 .

[15]  Bruce R. Hartsough,et al.  Economics of Harvesting to Maintain High Structural Diversity and Resulting Damage to Residual Trees , 2003 .

[16]  Dubravko Horvat,et al.  Forces Affecting Timber Skidding , 2009 .

[17]  Jurij Marenče,et al.  Mathematical models for optimization of group work in harvesting operation , 2005 .

[18]  Eeva Primmer,et al.  Analysis of institutional adaptation: integration of biodiversity conservation into forestry , 2011 .

[19]  Dubravko Horvat,et al.  Morphological Analysis of Forest Tractor Assemblies , 2008 .

[20]  David B. Kittredge,et al.  Decreasing Woodlot Size and the Future of Timber Sales in Massachusetts: When Is an Operation Too Small? , 1996 .

[21]  M. C. Bolding,et al.  Parcelization of South Carolina's private forestland: loggers' reactions to a growing threat. , 2009 .

[22]  Staffan Berg,et al.  Some aspects of LCA in the analysis of forestry operations , 1997 .

[23]  J. Larsen,et al.  Ecological stability of forests and sustainable silviculture , 1995 .

[24]  Edwin S. Miyata,et al.  Determining fixed and operating costs of logging equipment. , 1980 .

[25]  Staffan Berg,et al.  Energy use and environmental impacts of forest operations in Sweden , 2005 .

[26]  Parag Dubey,et al.  Investment in Small-Scale Forestry Enterprises: A Strategic Perspective for India , 2008, Small-scale Forestry.

[27]  Natascia Magagnotti,et al.  Integrating Animal and Mechanical Operations in Protected Areas , 2011 .

[28]  Clara Valente,et al.  LCA of environmental and socio-economic impacts related to wood energy production in alpine conditions: Valle di Fiemme (Italy) , 2011 .

[29]  W. D. Basford,et al.  A comparison of energy use in conventional and integrated arable farming systems in the UK , 2003 .

[30]  Dubravko Horvat,et al.  Morphological characteristics and productivity of skidder ECOTRAC 120V , 2007 .

[31]  Natascia Magagnotti,et al.  Benchmarking the impact of traditional small-scale logging systems used in Mediterranean forestry , 2010 .

[32]  Natascia Magagnotti,et al.  Deploying Mechanized Cut-to-Length Technology in Italy: Fleet Size, Annual Usage, and Costs , 2010 .