A multiple criteria decision analysis approach for assessing the quality of hardwood species used by Greek timber industries

Authors

  • Stefanos Tsiaras Hellenic Agricultural Organization - DIMITRA (ELGO - DIMITRA), Institute of Mediterranean Forest Ecosystems Author
  • Marina Chavenetidou School of Forestry and Natural Environment, Aristotle University of Thessaloniki Author
  • Panagiotis P. Koulelis Hellenic Agricultural Organization - DIMITRA (ELGO - DIMITRA), Institute of Mediterranean Forest Ecosystems Author

DOI:

https://doi.org/10.2478/foecol-2024-0011

Keywords:

economic benefits, forest products, PROMETHEE, roundwood, sawn timber, sustainability

Abstract

Timber industries make an essential contribution to economies worldwide, while the sustainable supply of timber generates revenue, supports employment, and contributes to economic activity. The strategic choice of wood species using specific criteria can have substantial economic outcomes for the timber industry in Greece. This study assessed the suitability of hardwood species most commonly used by Greek timber industries. The assessment was conducted with the use of a Multiple-Criteria Decision Analysis approach, taking into consideration specific criteria that affect the quality of timber. According to the findings, walnut was the optimal alternative that outranked the other examined species. Chestnut, oak, beech, ash, and hornbeam also achieved positive scores, and therefore, they are also acceptable alternatives as broadleaved species suitable for furniture manufacturing and sawn timber production. Greek timber industries can enhance their products’ value and market appeal by focusing on species that meet high-quality standards and consumer preferences.

References

Aicher, S., Christian, Z., Dill-langer, G., 2014. Hard-wood Glulams—emerging timber products of superior mechanical properties. In Proceedings of the World Conference on Timber Engineering (WCTE 2014). Quebec, Canada, 10-14 August 2014. Quebec City, Canada: FPInnovations. 10 p. https://doi.org/10.13140/2.1.5170.1120

Aicher, S., Ohnesorge, D., 2011. Shear strength of glued laminated timber made from European beech timber. European Journal of Wood and Wood Products, 69: 143–154. https://doi.org/10.1007/s00107-009-0399-9

Behzadian, M., Kazemzadeh, R.B., Albadvi, A., Aghdasi, M., 2010. PROMETHEE: a comprehensive literature review on methodologies and applications. European Journal of Operational Research, 200 (1): 198–215. https://doi.org/10.1016/j.ejor.2009.01.021

Brans, J.P., 1982. L’ingénierie de la décision; elaboration d’instruments d’aide à la décision. La méthode PROMETHEE [Decision engineering; development of decision support tools. The PROMETHEE method]. In Nadeau, R., Landry, M. (eds). L’aide à la décision: nature, instruments et perspectives d’avenir. Québec: Presses de l’Université Laval, p. 183–213.

Brans, J.P., De Smet, Y., 2016. PROMETHEE methods. In Greco, S., Ehrgott, M., Figueira, J. (eds). Multiple criteria decision analysis. International Series in Operations Research & Management Science, vol. 233. New York, NY: Springer, p. 187–220.

Brunetti, M., Macchioni, N., Grifoni, F., Lazzeri, S., Sozzi, L., Cutini, A., 2021. Anatomical, physical and mechanical characterization of sessile oak (Quercus petraea Liebl.) wood from central Italy aged coppices. Annals of Silvicultural Research, 46 (1): 1–7. http://dx.doi.org/10.12899/asr-1672

Brunetti, M., Nocetti, M., Pizzo, B., Aminti, G., Cremonini, C., Negro, F., Zanuttini, R., Romagnoli, M., Scarascia Mugnozza, G., 2020. Structural products made of beech wood: quality assessment of the raw material. European Journal of Wood and Wood Products, 78: 961–970. https://doi.org/10.1007/s00107-020-01542-9

Conedera, M., Manetti, M. C., Giudici, F., Amorini, E., 2004. Distribution and economic potential of the Sweet chestnut (Castanea sativa Mill.) in Europe. Ecologia Mediterranea, 30 (2): 179–193.

Desch, H.E., Dinwoodie, J.M., 1996. Timber: structure, properties, conversion and use. 7th edition. London, UK: Red Globe Press. 320 p.

Ernur, A.M., Akiner, İ., Akiner, N., Zileska, P.V., 2022. Using wood as a new generation building material in the context of sustainable development. Zaštita Materi- jala, 63 (1): 68–78. https://doi.org/10.5937/zasmat2201068A

European Parliament, 2015. A new EU forest strategy: for forests and the forest-based sector. Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions. Publications Office of the European Union, Luxembourg. Brussels: European Commission, p. 1–17. [cit. 2023-12-15]. https://eur-lex.europa.eu/legal-content/EN/ALL/?uri=celex:52013DC0659

Filippou, I., 2014. Chemistry and chemical technology of wood. Thessaloniki, Greece: Giachoudi Press. 357 p. (In Greek).

Forest Europe, 2018. Enhancing the long-term competitiveness of the forest sector in a green economy: policies for forest-based bioeconomy in Europe. Workshop report. Brussels, 29 May 2018. Zvolen: Liaison Unit Bratislava. 12 p. [cit. 2023-12-15]. https://foresteurope.org/wp-content/uploads/2017/08/Workshop-report_final-1.pdf

Forest Products Laboratory (USDA), 2010. Wood handbook: wood as an engineering material. Madison, Wisconsin: US Department of Agriculture, Forest Service, Forest Products Laboratory. 508 p.

Forest Products Pricing Table, 2023. Forest products pricing table, management year 2023. Greek Government Gazzette, 17 October 2023, 6013 (2): 67419–67426. [cit. 2023-11-30]. https://www.geotee.gr/Main-NewsDetail.aspx?CatID=1&RefID=27004&TabID=4. (In Greek).

Gao, J., Jebrane, M., Terziev, N., Daniel, G., 2021. Evaluation of wood quality traits in Salix viminalis useful for biofuels: characterization and method development. Forests, 12 (8): 1048. https://doi.org/10.3390/f12081048

Gartner, B.L., 2005. Assessing wood characteristics and wood quality in intensively managed plantations. Journal of Forestry, 103 (2): 75.

Gejdoš, M., Lieskovský, M., Giertliová, B., Němec, M., Danihelová, Z., 2019. Prices of raw-wood assortments in selected markets of central Europe and their development in the future. BioResources, 14 (2): 2995–3011. https://doi.org/10.15376/biores.14.2.2995-3011

Georgiadis, N.M., Cooper, R.J., 2007. Development of a forest certification standard compatible with PEFC and FSC’s management requirements. A case study from Greece. Forestry: An International Journal of Forest Research, 80 (2): 113–135. https://doi.org/10.1093/forestry/cpm004

Grigoriou, Α., 1992. Chemistry and chemical technology of wood. Teaching material. Thessaloniki, Greece: Publications Office of Aristotle University of Thessaloniki. 32 p. (In Greek).

Jozsa, L.A., Middleton, G.R., 1994. A discussion of wood quality attributes and their practical implications. Vancouver, Canada: Forintek Canada Corp. 51 p.

Kakaras, I., 2008. Wood as raw material. Types of wood-properties-applications. Karditsa, Greece: University of Thessaly. 186 p. (In Greek).

Kakavas, K., Chavenetidou, M., Birbilis, D., 2018a. Effect of ring shakes on mechanical properties of chestnut wood from a Greek coppice forest. The Forestry Chronicle, 94 (1): 61–67. https://doi.org/10.5558/tfc2018-008

Kakavas, K., Chavenetidou, M., Birbilis, D., 2018b. Chemical properties of Greek stump chestnut (Castanea sativa Mill.). Natural Products Chemistry & Research, 6 (4): 1–4. https://doi.org/10.4172/2329-6836.1000331

Kakavas, K., Chavenetidou, M., Birbilis, D., 2022. Dimensional changes of sweet chestnut wood (Castanea sativa Mill.) of Greek origin. Euro-Mediterranean Journal for Environmental Integration, 7 (3): 377–379. https://doi.org/10.1007/s41207-022-00320-8

Kantay, R., AS, N., Ünsal, Ö., 2000. The mechanical properties of walnut (Juglans regia L.) wood. Turkish Journal of Agriculture and Forestry, 24 (6): 751–756.

Kauter, D., Lewandowski, I., Claupein, W., 2003. Quantity and quality of harvestable biomass from Populus short rotation coppice for solid fuel use—a review of the physiological basis and management influences. Bio-mass and Bioenergy, 24 (6): 411–427. https://doi.org/10.1016/S0961-9534(02)00177-0

Koulelis, P.P., Solomou, A.D., Fassouli, V.P., Tsiaras, S., Petrakis, P.V., 2022. Greece on a sustainable future: reviewing constraints and practices regarding forest and water resources management, flora and fauna bio-diversity. International Journal of Agricultural Resources, Governance and Ecology, 18 (1-2): 38–54. https://doi.org/10.1504/IJARGE.2022.124637

Koulelis, P.P., 2009. Cluster analysis in primary roundwood production of 25 countries of European Union. Annals of Forest Research, 52: 163–168. https://doi.org/10.15287/afr.2009.133

Koulelis, P.P., 2011. Greek timber industries and wood product markets over the last century: development constraints and future directions. Annals of Forest Research, 54 (2): 229–240. https://doi.org/10.15287/afr.2011.92

Koulelis, P.P., 2012. A study of the Greek trade deficit in forest products. Current conditions and prospects. Forest Systems, 21: 549–554. http://dx.doi.org/10.5424/fs/2012213-02776

Koulelis, P.P., 2016. Forest products consumption and trade deficit in Greece during the financial crisis: A quantitative statistical analysis. Open Journal of Business and Management, 4: 258–265. DOI: 10.4236/ojbm.2016. 42027 https://doi.org/10.4236/ojbm.2016.

Koulelis, P.P., Tsiaras, S., Andreopoulou, Z.S., 2023. Greece’s forest sector from the perspective of timber production: evolution or decline? Forests, 14: 2331. https://doi.org/10.3390/f14122331

Kretschmann, D.E., 2010. Mechanical properties of wood. Chapter 5. In Ross, R.J. (ed.). Wood handbook. Wood as an engineering material. General Technical Report FPL-GTR-190. Madison, WI: U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, p. 100–145 (5-1–5-46).

Larjavaara, M., Muller-Landau, H.C., 2010. Rethinking the value of high wood density. Functional Ecology, 24: 701–705. https://doi.org/10.1111/j.1365-2435.2010.01698.x

Li, Y., Mei, B., Linhares-Juvenal, T., 2019. The economic contribution of the world’s forest sector. Forest Policy and Economics, 100: 236–253. https://doi.org/10.1016/j.forpol.2019.01.004

Manetti, M.C., Amorini, E., Becagli, C., Conedera, M., Giudici, F., 2001. Productive potential of chestnut (Castanea sativa Mill.) stands in Europe. Forest Snow and Landscape Research, 76 (3): 471–476.

Mantanis, G., 2008. Applications of wood species in Greek market. Teaching material. Thessaly, Greece: University of Thessaly. 4 p. [cit. 2023-11-14]. http://mantanis.users.uth.gr/2008-19.pdf (In Greek).

Mareschal, B., 2013. Visual PROMETHEE 1.4 manual. VP Solutions. 192 p.

Meier, E.W., 2015. Wood! Identifying and using hundreds of woods worldwide. Wisconsin, USA: The Wood Database. 272 p.

Niemz, P., Teischinger, A., Sandberg, D., 2023. Springer handbook of wood science and technology. Heidelberg, Germany: Springer. 2069 p.

Perlin, J., 2005. A forest journey: the story of wood and civilization. Vermont, USA: The Countryman Press. 464 p.

Rohanová, A., Nunez, E., 2014. Prediction models of Slovakian structural timber. Wood Research, 5: 757–767.

Savidge, R.A., 2003. Tree growth and wood quality. In Bar nett, J.R., Jeronimidis, G. (eds). Wood quality and its biological basis. New Jersey, USA: Blackwell, p. 1–29.

Scheffer, T.C., Morrell, J.J., 1998. Natural durability of wood: a worldwide checklist of species. Oregon State University, USA: Forest Research Laboratory. 58 p.

Sennerby-Forsse, L., 1989. Wood structure and quality in natural stands of Salix caprea L. and Salix pentandra L. Studia Forestalia Suecica, 182: 1–17.

Skarvelis, M., Mantanis, G.I., 2013. Physical and mechanical properties of beech wood harvested in the Greek public forests. Wood Research, 58 (1): 123–130.

Šuhajdová, E., Novotný, M., Pěnčík, J., Šuhajda, K., Schmid, P., Straka, B., 2018. Evaluation of suitability of selected hardwood in civil engineering. Building Materials and Structure, 61 (2): 73–82. https://doi.org/10.5937/GRMK1802073S

Taherdoost, H., Madanchian, M., 2023. Using PROMETHEE method for multi- criteria decision making: applications and procedures. Iris Journal of Economics & Business Management, 1 (1): 1–7. https://doi.org/10.33552/IJEBM.2023.01.000502

Toivonen, R.M., 2012. Product quality and value from consumer perspective—An application to wooden products. Journal of Forest Economics, 18 (2): 157–173. https://doi.org/10.1016/j.jfe.2011.12.004

Trulli, N., Valdés, M., De Nicolo, B., Fragiacomo, M., 2017. Grading of low-quality wood for use in structural elements. In Concu, G. (ed.) Wood in civil engineering. IntechOpen, p. 3–24). https://doi.org/10.5772/67129

Tsiaras, S., Andreopoulou, Z., 2020. Forest policy evaluation in European countries using the PROMETHEE method. In Advances in operational research in the Balkans: XIII Balkan Conference on Operational Research. Cham: Springer International Publishing, p. 95–109.

Tsiaras, S., Koulelis, P., Tsiroukis, A., Spanos, I., 2021. The contribution of forests in regional development: the role of National Forest Strategy in Greece. MIBES Transactions, 14: 110–122.

Tsiaras, S., Papathanasiou, J., 2018. Decision making under the scope of forest policy: sustainable agroforestry systems in less favoured areas. International Journal of Sustainable Agricultural Management and Informatics, 4 (3-4): 205–218. https://doi.org/10.1504/IJSAMI.2018.099232

Tsiaras, S., Samara, T., 2019. Selection of the most suitable tree species in urban areas based on their capability of capturing heavy metals: A forest policy approach. International Journal of Sustainable Agricultural Management and Informatics, 5 (1): 15–24. https://doi.org/10.1504/IJSAMI.2019.101374

Tsoumis, G., 1991. Science and technology of wood: structure, properties, utilization. New York, USA: Van Nostrand Reinhold. 351 p.

Vassiliou, V., Aidinidis, E., 2004. Walnut’s wood and the technology of its utilization. Thessaloniki, Greece: Xristodoulidis. 185 p. (In Greek).

Vlachokostas, C., Michailidou, A. V., Matziris, E., Achillas, C., Moussiopoulos, N., 2014. A multiple criteria decision-making approach to put forward tree species in urban environment. Urban Climate, 10: 105–118. https://doi.org/10.1016/j.uclim.2014.10.003

Voulgaridis, E.V., 1995. Research on forest biomass utilization in Greece. Forêt Méditerranéenne, 16 (1): 99–101.

Voulgaridis, E.V.,Vassiliou, V.G., 2005. Wood properties and utilization potentials of walnut wood (Juglans regia L.) grown in Greece. ISHS Acta Horticulturae 705: V International Walnut Symposium, article number 705_78: 535–542. https://doi.org/10.17660/ActaHortic.2005.705.78

Voulgaridis, H., 2015. Quality and uses of wood. Kallipos repository. 280 p. [cit. 2024-08-03]. https://repository.kallipos.gr/handle/11419/5260. (In Greek).

Zhu, H., Luo, W., Ciesielski, P.N., Fang, Z., Zhu, J.Y., Henriksson, G., Himmel, M., Hu, L., 2016. Wood-derived materials for green electronics, biological devices, and energy applications. Chemical Reviews, 116 (16): 9305–9374. https://doi.org/10.1021/acs.chemrev.6b00225

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Published

2024-07-29

Issue

Vol. 51 No. 2 (2024)

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Articles

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