Insight into the Productivity, Cost and Soil Impacts of Cable-assisted Harvester-forwarder Thinning in Western Oregon

Abstract Cable-assisted (or tethered) mechanized harvesting has recently been introduced to the Pacific Northwest of the United States, and is rapidly being adopted by the forest industry. However, potential environmental impacts, productivity and cost of the new harvesting systems have not been wel...

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Bibliographic Details
Published inForest science Vol. 66; no. 1; pp. 82 - 96
Main Authors Green, Preston Q, Chung, Woodam, Leshchinsky, Ben, Belart, Francisca, Sessions, John, Fitzgerald, Stephen A, Wimer, Jeffrey A, Cushing, Tamara, Garland, John J
Format Journal Article
LanguageEnglish
Published US Oxford University Press 04.02.2020
Subjects
Environmental impact
Forest soils
Harvest
Harvesters
Harvesting
Inventory
Landowners
Loam soils
Machinery
Permeability
Productivity
Soil compaction
Soil conditions
Soil density
Soils
Timber
Oregon
United States > US
Pacific Northwest
steep terrain
tethered assist system
machine rates
harvesting
soil impacts
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Summary:Abstract Cable-assisted (or tethered) mechanized harvesting has recently been introduced to the Pacific Northwest of the United States, and is rapidly being adopted by the forest industry. However, potential environmental impacts, productivity and cost of the new harvesting systems have not been well-assessed. This study aims to examine the effects of cable assistance on soil compaction, system productivity and cost through a field-based experiment. A harvester-forwarder system was used to thin a harvest unit on dry soils in western Oregon, with and without cable-assistance. We conducted a detailed time study during operations and collected soil measurements before and after machine passes. Machine productivity ranged from 28.75 to 92.36 m3 per scheduled machine hour, with resulting unit costs for untethered and tethered systems ranging from $13.19 to $18.13/m3. Our results showed reduced soil impacts in both extent and degree of soil compaction when cable assistance was employed. The reduced extent of soil impacts is attributed to a reduction in track wander owing to the operative tensions of the tether cable, and the smaller increase in soil density appears to be attributed to combined effects of initially denser soil conditions and reduced shear displacement as a result of cable-assistance.
ISSN:0015-749X
1938-3738
DOI:10.1093/forsci/fxz049