Ergonomic study of manual loading of log in private poplar plantation in the east of Guilan province

Document Type : Research Paper

Authors

1 MSc Studen, Forestry Department, Faculty of Natural Resources, University of Guilan, Sowmeh Sara, I.R. Iran

2 Assoc., Prof., Faculty of Natural Resources, University of Guilan, Sowmeh Sara, I.R. Iran

3 Assist., Prof., Lab of Forest Utilization, Faculty of Forestry and Natural Environment, Aristotle University of Thessaloniki, POB 227, Thessaloniki, Greece

4 Ph.D. in forestry, Caspian Forest Seed Center, National Organization of natural resources and watershed management , Mazandaran, I.R. Iran

Abstract

Manual loading of logs consists of dangerous, heavy and tedious work tasks. The involved workers have to lift and carry heavy loads during the day, which has been associated with physical fatigue, muscle pain, as well as a high risk of work accidents. The objectives of this research were a) to analyze log loading worker and b) calculate the Postural Risk Index (PRI) during manual loading activities in a poplar plantation by means of the ErgoFellow 3.0 software and the Ovako Working Posture Analyzing System (OWAS) ergonomic method. Field measurements and data collection were carried out in the summer of 2020 and consisted of video recordings during the effective work time. The snapshot method was used in the recorded material and a total of 34 mixed body postures were identified based on the effect of body posture on the musculoskeletal system. Study of the frequency and percentage of mixed body posture revealed that 7 code values are in action level 1and do not need to be corrected while in 6 code values, corrective action required in the near future, 11 code values require faster correction, and 10 code values require immediate correction. The PRI of the loading operations was 276, suggesting a strong need for ergonomic improvements. Health hazards as a result of manual loading of logs are, largely, unknown to the workforce in rural areas despite their connection to physical and mental exhaustion, and can expose workers to musculoskeletal disorders resulting in reduction of their work capacity..

Keywords


[1]. Gregersen, H., El Lakany, H., and Blaser, J. (2017). Forests for sustainable development, a process approach to forest sector contributions to the UN 2030 Agenda for Sustainable Development. International Forestry Review, 19(1), 10–23.
[2]. Schettino, S., Minette, L.J., Bermudes, W.L., Caçador, S.S., and Souza, A.P. (2017). Ergonomic study of timber manual loading in forestry fomentation areas. Nativa, 5(2), 145-150.
[3]. Callaghan, D.W., Khanal, P.N., and Straka, T.J. (2018). An analysis of costs and cost trends for southern forestry practices, Journal of Forestry, 117(1), 21-29.
[4]. Minette, L.J., Schettino, S., Souza, A.P., Soranso, D.R., and Barbosa, V.A. (2018). Winddamaged wood harvesting, physical work load and RSI/WRMD risk to the workers, Nativa 6(1), 56–65.
[5]. Enez, K., and Nalbantoğlu, S.S. (2019). Comparison of ergonomic risk assessment outputs from OWAS and REBA in forestry timber harvesting. International Journal of Industrial Ergonomics,70(1), 51-57.
[6]. Grzywiński, W., Wandycz, A., Tomczak, A., and Jelonek, T. (2016). The prevalence of self-reported musculoskeletal symptoms among loggers in Poland. International Journal of Industrial Ergonomics, 52, 12-17.
[7]. Schettino, S., Minette, L.J., Lima, R.C.A., Nascimento, G.S.P., Caçador, S.S., and Vieira, M.P.L. (2021). Forest harvesting in rural properties: Risks and worsening to the worker’s health under the ergonomics approach. International Journal of Industrial Ergonomics, 82, 103087.
[8]. Yovi, E.Y., and Yamada, Y. (2019). Addressing occupational ergonomics issues in indonesian forestry: Laborers, operators, or equivalent workers. Croatian Journal of Forest Engineering: Journal for Theory and Application of Forestry Engineering, 40(2), 351-363.
[9]. Aminpour, T. (2017). National plan for wood farming in sixth development plan (1396 -1400). Ministry of Agriculture - Jahad, Forests, Range and Watersheds Management Organization Press, Tehran, 83 pp (In Persian).
[10]. Ahmadloo F, Rezaei A, Farahpour M, Calagari M., and Mehrabi A. (2021) Investigating the area and production of poplar plantations in Sowme`eh Sara city using field data and GIS.Ecology of Iranian Forest. 9 (18) :159-168.
[11]. Kalagari, M. (2020). Investigation of poplar plantations in different regions of the country (first phase). Final report of the research project No. 57557. Institute of Forests and Rangelands Research. 251p.
[12]. Toupin, D., LeBel, L., Dubeau, D., Imbeau, D., and Bouthillier, L. (2007). Measuring the productivity and physical workload of brushcutters within the context of a production-based pay system, Forest Policy and Economics, 9(8), 1046-1055.
[13]. Kirk, P.M., and Sullman, M.J. (2001). Heart rate strain in cable hauler choker setters in New Zealand logging operations, Applied Ergonomics, 32(4),389-398.
[14]. Çalışkan E., and Çağlar S. (2010). An assessment of physiological workload of forest workers in felling operations, African Journal of Biotechnology. 9(35),5651–5658.
[15]. Arman, Z., Rahimi, F., Nikooy, M., Heidari, M., and Majnounian, B. (2020). Postural risk assessment of felling operation in a poplar plantation, Iran, Iranian Journal of Forest and Poplar Research, 28(3), 296-307.
[16]. Spinelli, R., Aminti, G., Magagnotti, N., and De Francesco, F. (2018). Postural risk assessment of small-scale de-barkers for wooden post production. Forests, 9(3),1-12.
[17]. Gallis, C. (2006). Work-related prevalence of musculoskeletal symptoms among Greek forest worker, International Journal of Industrial Ergonomics, 36,731-736.
[18]. Choina, P., Solecki, L., Goździewska, M., and Buczaj, A. (2018). Assessment of musculoskeletal system pain complaints reported by forestry workers, Annals of agricultural and environmental medicine, 25(2), 338-344.
[19]. Arman, Z., Nikooy, M., Heidari, M., Majnonian, B. (2019). Ergonomic evaluation of the musculoskeletal disorders risk by QEC method in forest harvesting, Iranian Journal of Forest, 10(4), 517-530.
[20]. Schettino, S., Minette, L.J., Souza, A.P., and Campos, J.C.C. (2015). Biomechanical evaluation of semi-mechanized activities of forest establishment in mountain regions of Brazil, Occupational Safety and Hygiene III, CRC Press/Bakelma, 9-12.
[21]. Fiedler, N.C., Alexandre Filho, P.C.R.T., Gonçalves, S.B., Carmo, F.D.A., and Lachini, E. (2015). Biomechanical analysis of manual charge and discharge of eucalyptus wood, Nativa, 3(3), 179-184.
[22]. Justavino, F.C., Ramirez, R.J., Perez, N.M., and Borz, S.A. (2015). The use of OWAS in forest operations postural assessment: advantages and limitations, Bulletin of the Transilvania University of Brasov. Forestry, Wood Industry, Agricultural Food Engineering, Series II, 8(2),1-7.
[23]. Barbosa, R.P., Fiedler, N.C., Carmo, F.C.D.A.D., Minette, L.J., and Silva, E.N. (2014). Analysis of posture in semi-mechanized forest harvesting in steep areas, Revista Arvore, 38(4), 733-738.
[24]. Arman, Z., Nikooy, M., Tsioras, P.A., Heidari, M., and Majnounian, B. (2021). Physiological workload evaluation by means of heart rate monitoring during motor-manual clearcutting operations, International Journal of Forest Engineering, 32(2), 91-102
[25]. Micheletti Cremasco, M., Giustetto, A., Caffaro, F., Colantoni, A., Cavallo, E., and Grigolato, S. (2019). Risk assessment for musculoskeletal disorders in forestry, a comparison between RULA and REBA in the manual feeding of a wood-chipper, International Journal of Environmental Research and Public Health,16(5),1-13.