How to cite this paper
Mabrouk, N & Ibrahim, S. (2021). Drivers, barriers and incentives to implementing environmental management systems in the manufacturing industry.Management Science Letters , 11(8), 2255-2266.
Refrences
Anne, O., Burskyte, V., Stasiskiene, Z., & Balciunas, A. (2014). The influence of the environmental management system on the environmental impact of seaport companies during an economic crisis: Lithuanian case study. Environmental Science and Pollution Research, 22(2), 1072–1084.
Asif, Z., & Chen, Z. (2015). Environmental management in North American mining sector. Environmental Science and Pollution Research, 23(1), 167–179. doi:10.1007/s11356-015-5651-8
Babakri, K. A., Bennett, R. A., & Franchetti, M. (2003). Critical factors for implementing ISO 14001 standard in United States industrial companies. Journal of Cleaner Production, 11(7), 749–752.
Beltrán, J., Muñuzuri, J., Rivas, M., & González, C. (2010). Metrological management evaluation based on ISO10012: an empirical study in ISO-14001-certified Spanish companies. Energy, 35(1), 140–147.
Ben Mabrouk N. (2020a). Analysis of Critical Factors Influencing the Supply Chain Performance of Small and Medium Enterprises. Journal of Advanced Manufacturing Systems, 19(4), 781–797.
Ben Mabrouk N. (2020b). Interpretive structural modeling of critical factors for buyer-supplier partnerships in supply chain management. Uncertain Supply Chain Management, 8(3), 613-626.
Ben Mabrouk N., Ibrahim S., Eddaly M. (2021). Success factors of lean six sigma implementation in manufacturing. Un-certain Supply Chain Management, 9(1), 205-216.
Bernardo, M., Simon, A., Tarí, J. J., & Molina-Azorín, J. F. (2015). Benefits of management systems integration: a litera-ture review. Journal of Cleaner Production, 94, 260–267.
Boiral, O., Guillaumie, L., Heras-Saizarbitoria, I., & Tayo Tene, C. V. (2017). Adoption and Outcomes of ISO 14001: A Systematic Review. International Journal of Management Reviews, 20(2), 411–432.
Chavan, M. (2005). An appraisal of environment management systems. Management of Environmental Quality: An Inter-national Journal, 16(5), 444–463.
Chin, K., Chiu, S., & Rao Tummala, V. M. (1999). An evaluation of success factors using the AHP to implement ISO 14001‐based EMS. International Journal of Quality & Reliability Management, 16(4), 341–362.
Christini, G., Fetsko, M., & Hendrickson, C. (2004). Environmental Management Systems and ISO 14001 Certification for Construction Firms. Journal of Construction Engineering and Management, 130(3), 330–336.
Daily, B. F., Bishop, J. W., & Massoud, J. A. (2012). The role of training and empowerment in environmental perfor-mance. International Journal of Operations & Production Management, 32(5), 631–647.
Darnall, N., Jolley, G. J., & Handfield, R. (2007). Environmental management systems and green supply chain manage-ment: complements for sustainability? Business Strategy and the Environment, 17(1), 30–45.
Deyassa, K. G. (2019). The effectiveness of ISO 14001 and environmental management system - the case of Norwegian firms. Structure and Environment, 11(1), 77-89.
Fryxell, G. E., Wing-Hung Lo, C., & Chung, S. S. (2004). Influence of Motivations for Seeking ISO 14001 Certification on Perceptions of EMS Effectiveness in China. Environmental Management, 33(2), 239–251.
Gavronski, I., Ferrer, G., & Paiva, E. L. (2008). ISO 14001 certification in Brazil: motivations and benefits. Journal of Cleaner Production, 16(1), 87–94.
Halila, F. (2007). Networks as a means of supporting the adoption of organizational innovations in SMEs: the case of En-vironmental Management Systems (EMSs) based on ISO 14001. Corporate Social Responsibility and Environmental Management, 14(3), 167–181.
Ibrahim S., Ben Mabrouk N. (2021). Integrated ISM-Fuzzy MICMAC approach based factor analysis on the implementa-tion of safety program in construction industry. Decision Science Lettres, 10(2), 139-150.
Jabbour, C. J. C. (2015). Environmental training and environmental management maturity of Brazilian companies with ISO14001: empirical evidence. Journal of Cleaner Production, 96, 331–338.
Kaswan, M. S., & Rathi, R. (2019). Analysis and modeling the enablers of Green Lean Six Sigma implementation using Interpretive Structural Modeling. Journal of Cleaner Production, 231(10), 1182-1191.
Khan, Z. (2006). Cleaner production: an economical option for ISO certification in developing countries. Journal of Cleaner Production, 16(1), 22-27.
Koe Hwee Nga, J. (2009). The influence of ISO 14000 on firm performance. Social Responsibility Journal, 5(3), 408–422.
Liu, J., Yuan, C., Hafeez, M., & Li, X. (2020). ISO 14001 certification in developing countries: motivations from trade and environment. Journal of Environmental Planning and Management, 63(7), 1241-1265.
Majumdar, A., & Sinha, S. K. (2018). Analyzing the barriers of green textile supply chain management in South-east Asia using interpretive structural modelling. Sustainable Production and Consumption, 17, 176-187.
Malek, J., & Desai, T. N. (2019). Interpretive structural modelling based analysis of sustainable manufacturing enablers. Journal of Cleaner Production, 238, 117996.
Massoud, M. A., Fayad, R., El-Fadel, M., & Kamleh, R. (2010). Drivers, barriers and incentives to implementing envi-ronmental management systems in the food industry: A case of Lebanon. Journal of Cleaner Production, 18(3), 200–209.
Mazzi, A., Toniolo, S., Mason, M., Aguiari, F., & Scipioni, A. (2016). What are the benefits and difficulties in adopting an environmental management system? The opinion of Italian organizations. Journal of Cleaner Production, 139, 873–885.
Murmura, F., Liberatore, L., Bravi, L., & Casolani, N. (2018). Evaluation of Italian Companies’ Perception About ISO 14001 and Eco Management and Audit Scheme III: Motivations, Benefits and Barriers. Journal of Cleaner Production, 174, 691–700.
Neves, F. de O., Salgado, E. G., & Beijo, L. A. (2017). Analysis of the Environmental Management System based on ISO 14001 on the American continent. Journal of Environmental Management, 199, 251–262.
Nguyen, Q. A., & Hens, L. (2015). Environmental performance of the cement industry in Vietnam: the influence of ISO 14001 certification. Journal of Cleaner Production, 96, 362–378.
Oliveira, J. A., Oliveira, O. J., Ometto, A. R., Ferraudo, A. S., & Salgado, M. H. (2016). Environmental Management Sys-tem ISO 14001 factors for promoting the adoption of Cleaner Production practices. Journal of Cleaner Production, 133, 1384–1394.
Omri A., & Ben Mabrouk, N. (2020). Good governance for sustainable development goals: Getting ahead of the pack or falling behind? Environmental Impact Assessment Review, 83, 106388.
Padma, P., Ganesh, L. S., & Rajendran, C. (2008). A study on the ISO 14000 certification and organizational performance of Indian manufacturing firms. Benchmarking: An International Journal, 15(1), 73–100.
Pheng, L. S., & Tan, J. H. (2005). Integrating ISO 9001 Quality Management System and ISO 14001 Environmental Man-agement System for Contractors. Journal of Construction Engineering and Management, 131(11), 1241–1244.
Rino, C. A. F., & Salvador, N. N. B. (2017). ISO 14001 certification process and reduction of environmental penalties in organizations in Sao Paulo State, Brazil. Journal of Cleaner Production, 142, 3627–3633.
Salim, H. K., Padfield, R., Hansen, S. B., Mohamad, S. E., Yuzir, A., Syayuti, K., Papargyropoulou, E. (2018). Global trends in environmental management system and ISO14001 research. Journal of Cleaner Production, 170, 645–653.
Sambasivan, M., & Fei, N. Y. (2008). Evaluation of critical success factors of implementation of ISO 14001 using analytic hierarchy process (AHP): a case study from Malaysia. Journal of Cleaner Production, 16(13), 1424–1433.
Shakerian, M., Jahangiri, M., Alimohammadlou, M., Nami, M., & Choobineh, A. (2019). Individual cognitive factors af-fecting unsafe acts among Iranian industrial workers: An integrative meta-synthesis interpretive structural modeling (ISM) approach. Safety Science, 120, 89–98.
Tammepuu, A., Kaart, T., & Sepp, K. (2016). Emergency preparedness and response in ISO 14001 enterprises: an Estonian case study. International Journal of Emergency Management, 12(1), 55.
Tan, L. P. (2005). Implementing ISO 14001: is it beneficial for firms in newly industrialized Malaysia? Journal of Clean-er Production, 13(4), 397–404.
Thakkar, J., Kanda, A., & Deshmukh, S. G. (2007). Evaluation of buyer‐supplier relationships using an integrated mathe-matical approach of interpretive structural modeling (ISM) and graph theoretic matrix. Journal of Manufacturing Technology Management, 19(1), 92–124.
Thirupathi, R. M., & Vinodh, S. (2016). Application of interpretive structural modelling and structural equation modelling for analysis of sustainable manufacturing factors in Indian automotive component sector. International Journal of Production Research, 54(22), 6661–6682.
Thornton, R. V. (2000). ISO 14001 certification mandate reaches the automobile industry. Environmental Quality Man-agement, 10(1), 89–93.
Turk, A. M. (2009). The benefits associated with ISO 14001 certification for construction firms: Turkish case. Journal of Cleaner Production, 17(5), 559–569.
Vasanthakumar, C., Vinodh, S., & Ramesh, K. (2016). Application of interpretive structural modelling for analysis of fac-tors influencing lean remanufacturing practices. International Journal of Production Research, 54(24), 7439–7452.
Warfield, J. N. (1974). Developing Subsystem Matrices in Structural Modeling. IEEE Transactions on Systems, Man, and Cybernetics, SMC-4(1), 74–80.
Waxin, M.-F., Knuteson, S. L., & Bartholomew, A. (2019). Outcomes and Key Factors of Success for ISO 14001 Certifica-tion: Evidence from an Emerging Arab Gulf Country. Sustainability, 12(1), 258.
Widaningrum, S., Lubis, M., Iqbal, M., & Fatharani, H. (2016). Designing Emergency Preparedness Procedure According to Clause 4.4.7 of ISO 14001:2004 Using Business Process Improvement Method. Advanced Science Letters, 22, 1820-1823.
Zobel, T. (2013). ISO 14001 certification in manufacturing firms: a tool for those in need or an indication of greenness? Journal of Cleaner Production, 43, 37–44.
Zobel, T. (2018). ISO 14001 adoption and environmental performance: The case of manufacturing in Sweden. In ISO 9001, ISO 14001, and New Management Standards (pp. 39-57). Springer, Cham.
Asif, Z., & Chen, Z. (2015). Environmental management in North American mining sector. Environmental Science and Pollution Research, 23(1), 167–179. doi:10.1007/s11356-015-5651-8
Babakri, K. A., Bennett, R. A., & Franchetti, M. (2003). Critical factors for implementing ISO 14001 standard in United States industrial companies. Journal of Cleaner Production, 11(7), 749–752.
Beltrán, J., Muñuzuri, J., Rivas, M., & González, C. (2010). Metrological management evaluation based on ISO10012: an empirical study in ISO-14001-certified Spanish companies. Energy, 35(1), 140–147.
Ben Mabrouk N. (2020a). Analysis of Critical Factors Influencing the Supply Chain Performance of Small and Medium Enterprises. Journal of Advanced Manufacturing Systems, 19(4), 781–797.
Ben Mabrouk N. (2020b). Interpretive structural modeling of critical factors for buyer-supplier partnerships in supply chain management. Uncertain Supply Chain Management, 8(3), 613-626.
Ben Mabrouk N., Ibrahim S., Eddaly M. (2021). Success factors of lean six sigma implementation in manufacturing. Un-certain Supply Chain Management, 9(1), 205-216.
Bernardo, M., Simon, A., Tarí, J. J., & Molina-Azorín, J. F. (2015). Benefits of management systems integration: a litera-ture review. Journal of Cleaner Production, 94, 260–267.
Boiral, O., Guillaumie, L., Heras-Saizarbitoria, I., & Tayo Tene, C. V. (2017). Adoption and Outcomes of ISO 14001: A Systematic Review. International Journal of Management Reviews, 20(2), 411–432.
Chavan, M. (2005). An appraisal of environment management systems. Management of Environmental Quality: An Inter-national Journal, 16(5), 444–463.
Chin, K., Chiu, S., & Rao Tummala, V. M. (1999). An evaluation of success factors using the AHP to implement ISO 14001‐based EMS. International Journal of Quality & Reliability Management, 16(4), 341–362.
Christini, G., Fetsko, M., & Hendrickson, C. (2004). Environmental Management Systems and ISO 14001 Certification for Construction Firms. Journal of Construction Engineering and Management, 130(3), 330–336.
Daily, B. F., Bishop, J. W., & Massoud, J. A. (2012). The role of training and empowerment in environmental perfor-mance. International Journal of Operations & Production Management, 32(5), 631–647.
Darnall, N., Jolley, G. J., & Handfield, R. (2007). Environmental management systems and green supply chain manage-ment: complements for sustainability? Business Strategy and the Environment, 17(1), 30–45.
Deyassa, K. G. (2019). The effectiveness of ISO 14001 and environmental management system - the case of Norwegian firms. Structure and Environment, 11(1), 77-89.
Fryxell, G. E., Wing-Hung Lo, C., & Chung, S. S. (2004). Influence of Motivations for Seeking ISO 14001 Certification on Perceptions of EMS Effectiveness in China. Environmental Management, 33(2), 239–251.
Gavronski, I., Ferrer, G., & Paiva, E. L. (2008). ISO 14001 certification in Brazil: motivations and benefits. Journal of Cleaner Production, 16(1), 87–94.
Halila, F. (2007). Networks as a means of supporting the adoption of organizational innovations in SMEs: the case of En-vironmental Management Systems (EMSs) based on ISO 14001. Corporate Social Responsibility and Environmental Management, 14(3), 167–181.
Ibrahim S., Ben Mabrouk N. (2021). Integrated ISM-Fuzzy MICMAC approach based factor analysis on the implementa-tion of safety program in construction industry. Decision Science Lettres, 10(2), 139-150.
Jabbour, C. J. C. (2015). Environmental training and environmental management maturity of Brazilian companies with ISO14001: empirical evidence. Journal of Cleaner Production, 96, 331–338.
Kaswan, M. S., & Rathi, R. (2019). Analysis and modeling the enablers of Green Lean Six Sigma implementation using Interpretive Structural Modeling. Journal of Cleaner Production, 231(10), 1182-1191.
Khan, Z. (2006). Cleaner production: an economical option for ISO certification in developing countries. Journal of Cleaner Production, 16(1), 22-27.
Koe Hwee Nga, J. (2009). The influence of ISO 14000 on firm performance. Social Responsibility Journal, 5(3), 408–422.
Liu, J., Yuan, C., Hafeez, M., & Li, X. (2020). ISO 14001 certification in developing countries: motivations from trade and environment. Journal of Environmental Planning and Management, 63(7), 1241-1265.
Majumdar, A., & Sinha, S. K. (2018). Analyzing the barriers of green textile supply chain management in South-east Asia using interpretive structural modelling. Sustainable Production and Consumption, 17, 176-187.
Malek, J., & Desai, T. N. (2019). Interpretive structural modelling based analysis of sustainable manufacturing enablers. Journal of Cleaner Production, 238, 117996.
Massoud, M. A., Fayad, R., El-Fadel, M., & Kamleh, R. (2010). Drivers, barriers and incentives to implementing envi-ronmental management systems in the food industry: A case of Lebanon. Journal of Cleaner Production, 18(3), 200–209.
Mazzi, A., Toniolo, S., Mason, M., Aguiari, F., & Scipioni, A. (2016). What are the benefits and difficulties in adopting an environmental management system? The opinion of Italian organizations. Journal of Cleaner Production, 139, 873–885.
Murmura, F., Liberatore, L., Bravi, L., & Casolani, N. (2018). Evaluation of Italian Companies’ Perception About ISO 14001 and Eco Management and Audit Scheme III: Motivations, Benefits and Barriers. Journal of Cleaner Production, 174, 691–700.
Neves, F. de O., Salgado, E. G., & Beijo, L. A. (2017). Analysis of the Environmental Management System based on ISO 14001 on the American continent. Journal of Environmental Management, 199, 251–262.
Nguyen, Q. A., & Hens, L. (2015). Environmental performance of the cement industry in Vietnam: the influence of ISO 14001 certification. Journal of Cleaner Production, 96, 362–378.
Oliveira, J. A., Oliveira, O. J., Ometto, A. R., Ferraudo, A. S., & Salgado, M. H. (2016). Environmental Management Sys-tem ISO 14001 factors for promoting the adoption of Cleaner Production practices. Journal of Cleaner Production, 133, 1384–1394.
Omri A., & Ben Mabrouk, N. (2020). Good governance for sustainable development goals: Getting ahead of the pack or falling behind? Environmental Impact Assessment Review, 83, 106388.
Padma, P., Ganesh, L. S., & Rajendran, C. (2008). A study on the ISO 14000 certification and organizational performance of Indian manufacturing firms. Benchmarking: An International Journal, 15(1), 73–100.
Pheng, L. S., & Tan, J. H. (2005). Integrating ISO 9001 Quality Management System and ISO 14001 Environmental Man-agement System for Contractors. Journal of Construction Engineering and Management, 131(11), 1241–1244.
Rino, C. A. F., & Salvador, N. N. B. (2017). ISO 14001 certification process and reduction of environmental penalties in organizations in Sao Paulo State, Brazil. Journal of Cleaner Production, 142, 3627–3633.
Salim, H. K., Padfield, R., Hansen, S. B., Mohamad, S. E., Yuzir, A., Syayuti, K., Papargyropoulou, E. (2018). Global trends in environmental management system and ISO14001 research. Journal of Cleaner Production, 170, 645–653.
Sambasivan, M., & Fei, N. Y. (2008). Evaluation of critical success factors of implementation of ISO 14001 using analytic hierarchy process (AHP): a case study from Malaysia. Journal of Cleaner Production, 16(13), 1424–1433.
Shakerian, M., Jahangiri, M., Alimohammadlou, M., Nami, M., & Choobineh, A. (2019). Individual cognitive factors af-fecting unsafe acts among Iranian industrial workers: An integrative meta-synthesis interpretive structural modeling (ISM) approach. Safety Science, 120, 89–98.
Tammepuu, A., Kaart, T., & Sepp, K. (2016). Emergency preparedness and response in ISO 14001 enterprises: an Estonian case study. International Journal of Emergency Management, 12(1), 55.
Tan, L. P. (2005). Implementing ISO 14001: is it beneficial for firms in newly industrialized Malaysia? Journal of Clean-er Production, 13(4), 397–404.
Thakkar, J., Kanda, A., & Deshmukh, S. G. (2007). Evaluation of buyer‐supplier relationships using an integrated mathe-matical approach of interpretive structural modeling (ISM) and graph theoretic matrix. Journal of Manufacturing Technology Management, 19(1), 92–124.
Thirupathi, R. M., & Vinodh, S. (2016). Application of interpretive structural modelling and structural equation modelling for analysis of sustainable manufacturing factors in Indian automotive component sector. International Journal of Production Research, 54(22), 6661–6682.
Thornton, R. V. (2000). ISO 14001 certification mandate reaches the automobile industry. Environmental Quality Man-agement, 10(1), 89–93.
Turk, A. M. (2009). The benefits associated with ISO 14001 certification for construction firms: Turkish case. Journal of Cleaner Production, 17(5), 559–569.
Vasanthakumar, C., Vinodh, S., & Ramesh, K. (2016). Application of interpretive structural modelling for analysis of fac-tors influencing lean remanufacturing practices. International Journal of Production Research, 54(24), 7439–7452.
Warfield, J. N. (1974). Developing Subsystem Matrices in Structural Modeling. IEEE Transactions on Systems, Man, and Cybernetics, SMC-4(1), 74–80.
Waxin, M.-F., Knuteson, S. L., & Bartholomew, A. (2019). Outcomes and Key Factors of Success for ISO 14001 Certifica-tion: Evidence from an Emerging Arab Gulf Country. Sustainability, 12(1), 258.
Widaningrum, S., Lubis, M., Iqbal, M., & Fatharani, H. (2016). Designing Emergency Preparedness Procedure According to Clause 4.4.7 of ISO 14001:2004 Using Business Process Improvement Method. Advanced Science Letters, 22, 1820-1823.
Zobel, T. (2013). ISO 14001 certification in manufacturing firms: a tool for those in need or an indication of greenness? Journal of Cleaner Production, 43, 37–44.
Zobel, T. (2018). ISO 14001 adoption and environmental performance: The case of manufacturing in Sweden. In ISO 9001, ISO 14001, and New Management Standards (pp. 39-57). Springer, Cham.