A framework to design and evaluate green contract mechanisms for forestry supply chains

Aydin Teymourifar; Maria A. M. Trindade

doi:10.3390/su15097668

A framework to design and evaluate green contract mechanisms for forestry supply chains

Aydin Teymourifar^*, Maria A. M. Trindade

^*Autor correspondente para este trabalho

Resultado de pesquisa › revisão de pares

3 Citações (Scopus)

29 Transferências (Pure)

Resumo

Green contracting mechanisms are utilized to integrate sustainable and environmentally protective goals into business objectives. This study proposes a framework for the design of green contract mechanisms in forestry supply chain management. We assumed that there was an applicant for harvesting timber in a forest, and that the owner tried to evaluate different scenarios to design a green contracting mechanism. We also assumed that the owner of a forest cared about green goals, such as carbon dioxide absorption, in the forest. We regarded the interests of the parties, such as the profit of the applicant as well as the green goals of the forest owner. We used multi-attribute decision-making techniques such as the weighted sum, normalized weighted sum, TOPSIS, and VIKOR to evaluate the various scenarios. In the literature, another approach was taken to solve a similar problem based on multi-objective techniques and the Pareto optimality concept. We compared the outcomes of the determined framework with the outputs of the previously employed methods. The recommended framework can provide more interpretable results since it considers the interests of different sides. The framework can assist businesses in designing contracts that promote sustainable operations and support compliance with the United Nations’ Sustainable Development Goals.

Idioma original	English
Número do artigo	7668
Número de páginas	13
Revista	Sustainability (Switzerland)
Volume	15
Número de emissão	9
DOIs	https://doi.org/10.3390/su15097668
Estado da publicação	Publicado - 7 mai. 2023

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Este resultado contribui para o(s) seguinte(s) Objetivo(s) de Desenvolvimento Sustentável

Acesso ao documento

10.3390/su15097668Licença:

70269212Final published version, 636 KBLicença:

http://hdl.handle.net/10400.14/41283Licença:

Outros arquivos e links

Link to publication in Scopus

CEECINST2018 - A. Teymourifar: Simulation and Analytical Techniques Applied to Management and Economics
Teymourifar, A. (PI)
5/01/21 → 30/04/25
Projeto
CEGE: Research Center in Management and Economics
Silva, M. (Professor Catedrático), Sousa, R. (Professor Catedrático), Alves, P. (Professor Auxiliar), Madsen, A. (Professor Auxiliar Convidado), Lourenço, A. (Professor Associado), Carvalho, A. S. (Professor Associado), Andrade, A. (Professor Auxiliar), Silva, P. D. (Professor Associado), Vlačić, B. (Professor Auxiliar Convidado), Martins, C. (Professor Auxiliar Convidado), Gomes, C. (Investigador Auxiliar), Gevrek, Z. E. (Professor Auxiliar Convidado), Oliveira, F. G. D. (Professor Associado), Faria, G. (Professor Associado Convidado), Marreiros, H. (Bolseiro), Pinho, J. (Professor Auxiliar Convidado), Machado, J. (Professor Associado), Araújo, J. (Investigador Auxiliar), Pinto, J. (Professor Auxiliar), Rego, A. (Professor Catedrático), Gaspar, J. M. (Investigador Auxiliar), Corbo, L. (Professor Auxiliar Convidado), Costa, L. (Professor Associado), Fernandes, L. (Professor Auxiliar), Sottomayor, M. (Professor Auxiliar), Martins, N. (Professor Catedrático), Hernández-Marrero, P. (Investigador Auxiliar), Gonçalves, R. (Professor Associado), Ribeiro, R. (PI), Coelho, S. L. (Docente Assistente), Pereira, S. M. (Investigador Auxiliar), Silva, S. (Professor Associado), Rodrigues, V. (Professor Associado), Sotiros, D. G. (Investigador Auxiliar), Valverde, C. (Professor Auxiliar), Leitão, A. (Professor Auxiliar), Julião, J. (Professor Auxiliar), Tavares, M. (Professor Auxiliar), Lages, C. R. (Investigador Auxiliar), Elmashhara, M. G. (Investigador Auxiliar) & Teymourifar, A. (Investigador Auxiliar)
1/01/20 → 31/12/25
Projeto

Citação

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title = "A framework to design and evaluate green contract mechanisms for forestry supply chains",

abstract = "Green contracting mechanisms are utilized to integrate sustainable and environmentally protective goals into business objectives. This study proposes a framework for the design of green contract mechanisms in forestry supply chain management. We assumed that there was an applicant for harvesting timber in a forest, and that the owner tried to evaluate different scenarios to design a green contracting mechanism. We also assumed that the owner of a forest cared about green goals, such as carbon dioxide absorption, in the forest. We regarded the interests of the parties, such as the profit of the applicant as well as the green goals of the forest owner. We used multi-attribute decision-making techniques such as the weighted sum, normalized weighted sum, TOPSIS, and VIKOR to evaluate the various scenarios. In the literature, another approach was taken to solve a similar problem based on multi-objective techniques and the Pareto optimality concept. We compared the outcomes of the determined framework with the outputs of the previously employed methods. The recommended framework can provide more interpretable results since it considers the interests of different sides. The framework can assist businesses in designing contracts that promote sustainable operations and support compliance with the United Nations{\textquoteright} Sustainable Development Goals.",

keywords = "Green contract mechanism, Multi-attribute decision-making, Supply chain management, Timber harvesting, TOPSIS, VIKOR",

author = "Aydin Teymourifar and Trindade, {Maria A. M.}",

note = "Funding Information: This work was supported by the Portuguese Foundation for Science and Technology (FCT) in the framework of the project CEECINST/00137/2018. We also acknowledge scientific collaboration by Universidade Cat{\'o}lica Portuguesa—Porto through Projeto interdisciplinar DGCM—Designing Green Contract Mechanisms between Government and Private Sector to Combat Environmental Challenges Based on the System-of-Systems Approach. The financial support from FCT (through the project UIDB/00731/2020) is also gratefully acknowledged. Publisher Copyright: {\textcopyright} 2023 by the authors.",

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AU - Teymourifar, Aydin

AU - Trindade, Maria A. M.

N1 - Funding Information: This work was supported by the Portuguese Foundation for Science and Technology (FCT) in the framework of the project CEECINST/00137/2018. We also acknowledge scientific collaboration by Universidade Católica Portuguesa—Porto through Projeto interdisciplinar DGCM—Designing Green Contract Mechanisms between Government and Private Sector to Combat Environmental Challenges Based on the System-of-Systems Approach. The financial support from FCT (through the project UIDB/00731/2020) is also gratefully acknowledged. Publisher Copyright: © 2023 by the authors.

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Y1 - 2023/5/7

N2 - Green contracting mechanisms are utilized to integrate sustainable and environmentally protective goals into business objectives. This study proposes a framework for the design of green contract mechanisms in forestry supply chain management. We assumed that there was an applicant for harvesting timber in a forest, and that the owner tried to evaluate different scenarios to design a green contracting mechanism. We also assumed that the owner of a forest cared about green goals, such as carbon dioxide absorption, in the forest. We regarded the interests of the parties, such as the profit of the applicant as well as the green goals of the forest owner. We used multi-attribute decision-making techniques such as the weighted sum, normalized weighted sum, TOPSIS, and VIKOR to evaluate the various scenarios. In the literature, another approach was taken to solve a similar problem based on multi-objective techniques and the Pareto optimality concept. We compared the outcomes of the determined framework with the outputs of the previously employed methods. The recommended framework can provide more interpretable results since it considers the interests of different sides. The framework can assist businesses in designing contracts that promote sustainable operations and support compliance with the United Nations’ Sustainable Development Goals.

AB - Green contracting mechanisms are utilized to integrate sustainable and environmentally protective goals into business objectives. This study proposes a framework for the design of green contract mechanisms in forestry supply chain management. We assumed that there was an applicant for harvesting timber in a forest, and that the owner tried to evaluate different scenarios to design a green contracting mechanism. We also assumed that the owner of a forest cared about green goals, such as carbon dioxide absorption, in the forest. We regarded the interests of the parties, such as the profit of the applicant as well as the green goals of the forest owner. We used multi-attribute decision-making techniques such as the weighted sum, normalized weighted sum, TOPSIS, and VIKOR to evaluate the various scenarios. In the literature, another approach was taken to solve a similar problem based on multi-objective techniques and the Pareto optimality concept. We compared the outcomes of the determined framework with the outputs of the previously employed methods. The recommended framework can provide more interpretable results since it considers the interests of different sides. The framework can assist businesses in designing contracts that promote sustainable operations and support compliance with the United Nations’ Sustainable Development Goals.

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KW - Multi-attribute decision-making

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KW - Timber harvesting

KW - TOPSIS

KW - VIKOR

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ER -

A framework to design and evaluate green contract mechanisms for forestry supply chains

Resumo

ODS da ONU

Acesso ao documento

Outros arquivos e links

Impressão digital

Projetos

CEECINST2018 - A. Teymourifar: Simulation and Analytical Techniques Applied to Management and Economics

CEGE: Research Center in Management and Economics

Citação