The extraction of biomass and nutrients out of the forest is implicit to every harvest operation. In cable yarding, whole-tree harvesting (WTH) has become more prevalent in the last few decades and processing takes place at the roadside. There is a concern that WTH impairs site productivity due to nutrient removal. One option to increase the amount of biomass remaining in the stand is to top the trees before extraction. In order to estimate the influence of topping on system productivity, time studies on a medium-sized tower yarder were carried out in three spruce dominated stands. Heart rate monitoring of the chainsaw operator was performed to examine the physiological workload. The analysis showed that topping only impacts system productivity if it takes place during the inhaul of the load as it leads to interruptions of the extraction progress. These interruptions took on average 13 seconds per turn. In addition, if topping was performed on already lifted trees, a reduction of line-speed during the lateral yarding of the loads was observed. This led to a reduction in productivity between 5 and 11%, assuming that all trees would have been topped during the lateral yarding process. Analyses of the physical workload of the chainsaw operator showed that the workload of topping trees is significantly lower than that of the felling process. Relative heart rate of the subject was lower at the cable corridors where topping was ordered. This confounding result may be a consequence of many additional factors like slope gradient or cycle time. Under both scenari- os, the worker never surpassed the limit of a sustainable cardio-vascular workload for an 8 hour working day. Hence, recovery time for the chainsaw operator can be considered as ade- quate when topping is performed in a three-man crew.
[1]
N. Clarke,et al.
Effects Of Very Intensive Forest Biomass Harvesting On Short And Long Term Site Productivity
,
2008
.
[2]
Natascia Magagnotti,et al.
Replacing Steel Cable with Synthetic Rope to Reduce Operator Workload During Log Winching Operations
,
2011,
Small-scale Forestry.
[3]
Karl Stampfer,et al.
Productivity Analysis of an Un-Guyed Integrated Yarder-Processor with Running Skyline
,
2014
.
[4]
K. Hanssen,et al.
Whole-tree thinnings in stands of Scots pine (Pinus sylvestris) and Norway spruce (Picea abies): Short- and long-term growth results
,
2013
.
[5]
P. Tamminen,et al.
Effects of repeated whole-tree harvesting on soil properties and tree growth in a Norway spruce (Picea abies (L.) Karst.) stand
,
2014
.
[6]
Jori Uusitalo,et al.
Time consumption analysis of the mechanized cut-to-length harvesting system
,
2006
.
[7]
P. Vogelaere,et al.
Validation du Sport Tester PE 3000 en fonction de l'enregistrement Holter
,
1987
.
[8]
Karl Stampfer,et al.
Efficiency and ergonomic benefits of using radio controlled chokers in cable yarding.
,
2010
.
[9]
Kåre Rodahl,et al.
Physiology Of Work
,
1989
.
[10]
M J Sullman,et al.
Heart rate strain in cable hauler choker setters in New Zealand logging operations.
,
2001,
Applied ergonomics.
[11]
Hans Rudolf Heinimann,et al.
Perspectives on Central European Cable Yarding Systems
,
2001
.