Industry has long been one of the most important drivers of Chinese economic growth. In order to improve the environmental footprint of industrial areas, Chinese authorities have established mechanisms of environmental control in the internal management processes of companies. In this regard, the international standard ISO 14001 for environmental management systems is the management tool that has had widest adoption among Chinese companies since its creation in 1996. The main purposes of the paper are to investigate the available international and national statistics on the adoption of ISO 14001 in China, and present opinions on ISO 14001 of the 72 representatives of small and medium enterprises and multinational companies of Guangdong province that participated to the workshop “New tools and standards to advance and measure corporate sustainability”, held in Guangzhou on 26 January 2018. The analysis of strengths, weaknesses, opportunities and threats (SWOT) was adopted as the research method to collect opinions on the ISO 14001 standard. Participants were asked to discuss strengths, weaknesses, threats and opportunities considering four business aspects: sustainability, internal processes, stakeholder engagement, and resource management. Our findings indicate that companies fully embraced ISO 14001 and recognized the necessity of a standardized approach to identify environmental aspects. On the other hand, they also expressed concern about aspects such as the certification cost, the focus on certification itself and not on the improvement of environmental performance, and the lack of integration with sustainability tools such as life cycle assessment (LCA) and other sustainability paradigms such as circular economy and corporate social responsibility (CSR).
The document discusses environmental management and development. It covers:
1. The history of development from post-WWII reconstruction efforts to the current focus on sustainable development.
2. Different types of natural resources and their classification as renewable vs. non-renewable, stock vs. flow, and use value vs. non-use value.
3. The prime movers of development, including government, technology, international cooperation, and private sector involvement.
Approaches of studying environmental managementSushanta Gupta
A view of natural environment as an all encompassing entity that simply exists not as a passive feature there to server human needs, but as a set of active processes that define a behavior and established patterns that interact with and the redirect human trajectories
This document discusses environmental management. It defines environment and environmental management, explaining that environmental management focuses on solving practical problems humans face in relation to nature, resource exploitation, and waste production. It notes the key challenges of pollution, climate change, biodiversity loss, and unsustainable agriculture and aims to understand our impact and find balanced solutions. The document also outlines the scope, approaches, and guiding principles of environmental management, including the polluter pays principle. Its goal is to help humans understand our relationship with the environment to inform efforts to address and prevent problems.
Environmental management aims to develop and implement policies to reduce negative environmental impacts from organizations and industries. It seeks to balance socioeconomic development with maintaining environmental quality by rationally adjusting human activities to not disturb ecosystems. The goals of environmental management include identifying and solving environmental problems, regulating natural resource use, regenerating degraded environments, controlling pollution, assessing project impacts, and revising technologies to be more eco-friendly.
The document provides information on environmental management programs offered at various universities around the world. It lists the institution, country, degree/certificate offered, duration of study, key features of the program, typical coursework, and weblinks for additional information. Some of the common areas of study included in the programs are environmental policy, sustainability, environmental science, auditing and management systems, impact assessment, and resources management. The programs prepare students for careers in environmental consulting, industry, government, and non-profits.
This document provides an overview of an introductory unit on environment management. It discusses key topics that will be covered, including defining environment management, the fundamentals of sustainable development, implications of human population growth, and the relationship between environment and business schools. The unit is estimated to take 10-15 hours to complete through readings, self-assessment tests, assignments, and further research. It provides a content map that outlines the main sections and subsections to be addressed.
The document discusses the role of governments in environmental protection and policy making. It explains that governments can help protect environmental interests through policies that address market failures, full-cost pricing, and the tragedy of the commons. The policy making process involves legislation, funding, rule-writing, and enforcement that is influenced by political processes. Individuals can also work to influence environmental policies through civic engagement, voting, and activism. Environmental laws and regulations are used to control pollution, set safety standards, and protect species. International cooperation and treaties are needed to address global environmental challenges but have been inadequate due to lack of funding and enforcement.
Environmental management aims to control human impact on the environment to preserve natural resources and improve human welfare. It focuses on developing and implementing environmental policy. Sustainable development meets present needs without compromising future generations' ability to meet their own needs. India faces many environmental issues like pollution, degradation of land and forests, and loss of biodiversity due to factors like population growth, urbanization, and industrialization. The national environmental policy aims to mainstream environmental concerns in development and achieve conservation, equity, and sustainability.
The document discusses environmental management and development. It covers:
1. The history of development from post-WWII reconstruction efforts to the current focus on sustainable development.
2. Different types of natural resources and their classification as renewable vs. non-renewable, stock vs. flow, and use value vs. non-use value.
3. The prime movers of development, including government, technology, international cooperation, and private sector involvement.
Approaches of studying environmental managementSushanta Gupta
A view of natural environment as an all encompassing entity that simply exists not as a passive feature there to server human needs, but as a set of active processes that define a behavior and established patterns that interact with and the redirect human trajectories
This document discusses environmental management. It defines environment and environmental management, explaining that environmental management focuses on solving practical problems humans face in relation to nature, resource exploitation, and waste production. It notes the key challenges of pollution, climate change, biodiversity loss, and unsustainable agriculture and aims to understand our impact and find balanced solutions. The document also outlines the scope, approaches, and guiding principles of environmental management, including the polluter pays principle. Its goal is to help humans understand our relationship with the environment to inform efforts to address and prevent problems.
Environmental management aims to develop and implement policies to reduce negative environmental impacts from organizations and industries. It seeks to balance socioeconomic development with maintaining environmental quality by rationally adjusting human activities to not disturb ecosystems. The goals of environmental management include identifying and solving environmental problems, regulating natural resource use, regenerating degraded environments, controlling pollution, assessing project impacts, and revising technologies to be more eco-friendly.
The document provides information on environmental management programs offered at various universities around the world. It lists the institution, country, degree/certificate offered, duration of study, key features of the program, typical coursework, and weblinks for additional information. Some of the common areas of study included in the programs are environmental policy, sustainability, environmental science, auditing and management systems, impact assessment, and resources management. The programs prepare students for careers in environmental consulting, industry, government, and non-profits.
This document provides an overview of an introductory unit on environment management. It discusses key topics that will be covered, including defining environment management, the fundamentals of sustainable development, implications of human population growth, and the relationship between environment and business schools. The unit is estimated to take 10-15 hours to complete through readings, self-assessment tests, assignments, and further research. It provides a content map that outlines the main sections and subsections to be addressed.
The document discusses the role of governments in environmental protection and policy making. It explains that governments can help protect environmental interests through policies that address market failures, full-cost pricing, and the tragedy of the commons. The policy making process involves legislation, funding, rule-writing, and enforcement that is influenced by political processes. Individuals can also work to influence environmental policies through civic engagement, voting, and activism. Environmental laws and regulations are used to control pollution, set safety standards, and protect species. International cooperation and treaties are needed to address global environmental challenges but have been inadequate due to lack of funding and enforcement.
Environmental management aims to control human impact on the environment to preserve natural resources and improve human welfare. It focuses on developing and implementing environmental policy. Sustainable development meets present needs without compromising future generations' ability to meet their own needs. India faces many environmental issues like pollution, degradation of land and forests, and loss of biodiversity due to factors like population growth, urbanization, and industrialization. The national environmental policy aims to mainstream environmental concerns in development and achieve conservation, equity, and sustainability.
The document discusses Integrated Environmental Management (IEM). It provides definitions of IEM, outlines its basic principles such as informed decision making and public participation. The history and reasons for IEM are presented. Key issues IEM aims to address are improving water quality, waste management, and energy efficiency. The document concludes with proposed environmental strategies and programs to implement IEM including legislation, education, conservation and community involvement.
Assessment of the Extent to which Strategic Environmental Assessment (SEA) ca...Shahadat Hossain Shakil
In this study the extent of addressing climate change mitigation and adaptation through SEA will be trying to explore based on available literatures, which is very few due to this domains infancy till date. In doing so present context of climate change will be described concisely. Following that, nexus between climate change and SEA will be highlighted based on SEA principles, guidance and best practice manual and empirical evidences of the integration in several countries. Drawing insights from the prior discussions, deficits and recommendations will be stated for future research agendas.
Environmental management is a wide and evolving field that affects everyone and plays a crucial role in sustainable development. It is motivated by pragmatic concerns about avoiding problems, saving costs, compliance with regulations, shifts in ethics, and macroeconomic benefits. Environmental management approaches can be advisory through education, economic through taxes and subsidies, or regulatory through standards and restrictions. It involves modifying activities and ethics to achieve goals, but managers often have to work within existing development strategies and face challenges like inadequate resources and changing priorities. Environmental management has components like advice, economic instruments, and regulatory controls, and can take preventive, reactive, or compensatory approaches to mitigate impacts.
Environmental management: Introduction and scopeRashmi Yadav
This document discusses environmental management. It defines environmental management as managing an organization's environmental programs in a planned, documented manner. Environmental management is multi-disciplinary and deals with human impacts on the environment. It aims to integrate natural/social sciences and can operate at short/long term and local/global levels. Standards for environmental management systems include ISO 14001 and the Eco-Management and Audit Scheme (EMAS). Environmental management systems can improve compliance, reduce costs and show leadership.
Environmental auditing and sustainable development in nigeriaAlexander Decker
This document summarizes a research study examining the relationship between environmental auditing and sustainable development in Nigeria. The study finds that while companies claim to be environmentally friendly, few actually engage in environmental auditing. The study also finds a negative relationship between environmental auditing and its effects on sustainable development, meaning more auditing is associated with less positive effects on sustainable development. The study aims to contribute to the limited existing literature on environmental auditing and sustainability in Nigeria.
This document provides information about environmental management. It defines environment as the sum of all surrounding conditions affecting an organism. It discusses the evolution of environmental concern from the 1960s onwards, sparked by Rachel Carson's book Silent Spring. Environmental management aims to make decisions about natural resource use, pollution, and ecosystem modification. It involves stakeholders from different backgrounds and scales, from local to global. While environmental management considers human impacts, its main focus is on managing human activities and decisions rather than directly managing the natural environment.
The document discusses environmental management and related concepts. It defines an environmental management system as a comprehensive, systematic approach to managing an organization's environmental programs. An EMS follows a plan-do-check-act cycle and aims for continual improvement. The document also describes environmental impact assessments, which examine potential effects of projects/policies, and environmental audits, which assess compliance and identify improvement opportunities. It outlines several key Indian environmental laws regarding air and water pollution, biodiversity, forests, and more.
Green GDP as an indicator of environmental cost of economic growth in UkraineMykola Shlapak
The article provides the results of the environmental adjustment of the traditional macroeconomic indicators for Ukraine taking into account depletion of natural capital, environmental degradation due to atmospheric pollution and governmental expenditures on environmental protection. For the first time the calculation of “Green GDP” and environmentally adjusted net domestic product (NDP) for Ukraine has been elaborated for the period 2001-2010. Depletion of natural capital has been estimated based on the official data on the net operational income and specific taxes of the extraction industry of Ukraine and applying the Hartwick's rule on the reinvestment of the resource rent. Environmental degradation due to atmospheric pollution has been estimated based on the results of the research on the economic cost of pollution from thermal power stations in Ukraine. The general conclusion is that the economic growth of Ukraine is significantly dependent on natural capital and has substantial environmental drawbacks.
Fundamentals of Environmental Management and sustainable developmentNelson Kuriakose
here are the fundamentals of environmental managment of a business concern and measures for its sustainable development.
I have also briefly explained an example with regards to toyota.
"all the best"
This document proposes a methodology to assess sustainable development in the context of green technology adoption. It analyzes indicators from the Sustainable Development Goals Index for 20 countries, focusing on environmental goals. It calculates an Averaging Sustainable Development Index and Normalized Sustainable Development Index for each country. Russia had the highest ASDI relative to its SDGI, indicating a positive trend in green tech. However, most developing countries showed unfavorable conditions for green tech adoption as their NSDI increasingly differed from their SDGI. The methodology aims to identify gaps between index values to contribute to assessing potential for green technology development.
The document discusses environmental policy, outlining its objectives, principles, purpose and strategies. Environmental policy aims to manage human activities to prevent harm to nature and ensure human-made changes don't damage the environment or humans. The key objectives of India's National Environment Policy include conserving critical resources, ensuring livelihoods and equity between generations. Environmental policy establishes regulatory frameworks and incorporates environmental concerns into development plans to efficiently manage resources and governance.
This document summarizes the Environmental Economics Program in China (EEPC) at Peking University for 2008. It introduces the team members, including two professors, three research fellows, two associates, and five PhD students. It provides details on the expertise and research areas of five team members and outlines their main research accomplishments and plans for 2009. Their research focuses on areas like environmental policy evaluation, payments for ecosystem services, climate change policy, and collective forest tenure reform in China.
Industrial ecology as an integrated framework forAlexander Decker
This document discusses industrial ecology as an integrated framework for business management. It defines industrial ecology as the study of physical, chemical, and biological interactions within industrial systems and between industrial systems and natural ecological systems, with the goal of transforming open linear systems to closed cyclical systems like in nature. The document outlines several key concepts of industrial ecology, including designing for minimal waste and resource use, using less toxic alternatives, preserving utility of materials, and designing for reusability. It also discusses tools used in industrial ecology like materials flow analysis, life cycle assessment, strategic environmental assessment, and environmental risk assessment to analyze resource flows and impacts throughout a product's life cycle.
Strategic Environmental Assessment (SEA) Processes and International System D...Shahadat Hossain Shakil
The document discusses the evolution and current state of Strategic Environmental Assessment (SEA) processes in Australia. Key points include:
- SEA was formally introduced in Australia through the 1999 Environmental Protection and Biodiversity Conservation Act, but its use has remained uneven and often ad hoc across different sectors and levels of government.
- SEA has seen more successful implementation in the fisheries sector due to mandatory requirements and incentives, conducting over 120 assessments. In other sectors its use has been limited due to its voluntary nature.
- While Australian SEA law and policy aim to promote environmental protection, the practice of SEA has focused more on expediting development decisions rather than identifying environmentally sustainable options.
-
A Model For Integrating Environmental Considerations Into The Valuation Of In...IJERA Editor
This document describes a study that developed a model to integrate environmental considerations into the valuation of industries in Enugu, Nigeria. It begins by providing background on environmental conferences and the need to consider environmental impacts in property valuation. It then discusses problems with existing valuation models that do not explicitly account for environmental pollution and health and safety issues. The study aims to address this by developing a new model, called the Environmental Factor Adjusted Cost Approach, to integrate environmental variables into industry valuation. It describes research methods used and existing valuation models before proposing the new model.
The document summarizes the key challenges and opportunities for Ghana related to mitigating forest-related climate change through REDD+ initiatives. It outlines Ghana's ongoing policy approaches, weaknesses in addressing climate change, next operational steps, and a proposed roadmap. Key challenges include deforestation from fuelwood harvesting and agriculture. Weaknesses include issues with land tenure systems. Next steps include developing a REDD+ readiness plan, monitoring systems, and building capacity and institutional arrangements. Opportunities include linking REDD+ with the Ghana-EU partnership agreement and potential carbon market benefits.
NEP is a policy formulated in 2006 by Ministry of Environment and Forest,Govt. of India for providing certain strategies and standards that ensures environmental safety to surrounding areas,working areas, laboratories or facilities, are free from dangers.
Stakeholder Debate in Policy Implementation: An Evaluation of Bangladesh Leat...Shahadat Hossain Shakil
This paper focuses on stakeholder debate and conflict during policy implementation. In doing so it analyzed the reason behind the implementation snag of Bangladesh leather processing industry relocation policy, which is extreme stakeholder negotiation. Relevant stakeholders have been identified and their influence over the policy measure has been formulated. Underlying interactions among the stakeholders has been conceptually depicted to retrieve an image of the extreme stakeholder dispute behind this policy failure. Finally, based on the empirical evidence this policy measure has been evaluated in light of the effective participation of the concerned stakeholders.
An in depth analysis of the evolution of the policy mix for the sustainable e...Araz Taeihagh
This document analyzes the evolution of China's policy mix for sustainable energy transition from 1981 to 2020. It finds that over time, China has formed a complex policy mix by layering and packaging new policy instruments while calibrating existing ones. The policy mix has evolved from a few authority-based instruments in the early period to the current mix with a large density and diversity of instruments. Specifically, China has increased the policy intensity on air pollution abatement and decreased the intensity on renewable energy support. It also experiments with innovative instruments to reduce carbon emissions. The evolution features incremental changes through layering, replacement, and sequencing of policy instruments.
Green gdp-accounting-pratice-in-china-draft-by-unep-tongji-teamvhanamane
This document summarizes a report on green accounting practices in China published by the United Nations Environment Programme and Tongji University. It discusses China's rapid economic growth and associated environmental degradation. It then reviews China's efforts to implement green GDP accounting through two national projects in 2004. The projects estimated economic losses from pollution to be 287.4 billion RMB using treatment costs and 511.8 billion RMB using environmental degradation costs. However, the methods and scope were limited. The report examines debates around green accounting and establishing a full system of integrated environmental-economic accounting in China. It also discusses applications for policymaking regarding resource efficiency, environmental expenditures, and strategic planning.
The document discusses Integrated Environmental Management (IEM). It provides definitions of IEM, outlines its basic principles such as informed decision making and public participation. The history and reasons for IEM are presented. Key issues IEM aims to address are improving water quality, waste management, and energy efficiency. The document concludes with proposed environmental strategies and programs to implement IEM including legislation, education, conservation and community involvement.
Assessment of the Extent to which Strategic Environmental Assessment (SEA) ca...Shahadat Hossain Shakil
In this study the extent of addressing climate change mitigation and adaptation through SEA will be trying to explore based on available literatures, which is very few due to this domains infancy till date. In doing so present context of climate change will be described concisely. Following that, nexus between climate change and SEA will be highlighted based on SEA principles, guidance and best practice manual and empirical evidences of the integration in several countries. Drawing insights from the prior discussions, deficits and recommendations will be stated for future research agendas.
Environmental management is a wide and evolving field that affects everyone and plays a crucial role in sustainable development. It is motivated by pragmatic concerns about avoiding problems, saving costs, compliance with regulations, shifts in ethics, and macroeconomic benefits. Environmental management approaches can be advisory through education, economic through taxes and subsidies, or regulatory through standards and restrictions. It involves modifying activities and ethics to achieve goals, but managers often have to work within existing development strategies and face challenges like inadequate resources and changing priorities. Environmental management has components like advice, economic instruments, and regulatory controls, and can take preventive, reactive, or compensatory approaches to mitigate impacts.
Environmental management: Introduction and scopeRashmi Yadav
This document discusses environmental management. It defines environmental management as managing an organization's environmental programs in a planned, documented manner. Environmental management is multi-disciplinary and deals with human impacts on the environment. It aims to integrate natural/social sciences and can operate at short/long term and local/global levels. Standards for environmental management systems include ISO 14001 and the Eco-Management and Audit Scheme (EMAS). Environmental management systems can improve compliance, reduce costs and show leadership.
Environmental auditing and sustainable development in nigeriaAlexander Decker
This document summarizes a research study examining the relationship between environmental auditing and sustainable development in Nigeria. The study finds that while companies claim to be environmentally friendly, few actually engage in environmental auditing. The study also finds a negative relationship between environmental auditing and its effects on sustainable development, meaning more auditing is associated with less positive effects on sustainable development. The study aims to contribute to the limited existing literature on environmental auditing and sustainability in Nigeria.
This document provides information about environmental management. It defines environment as the sum of all surrounding conditions affecting an organism. It discusses the evolution of environmental concern from the 1960s onwards, sparked by Rachel Carson's book Silent Spring. Environmental management aims to make decisions about natural resource use, pollution, and ecosystem modification. It involves stakeholders from different backgrounds and scales, from local to global. While environmental management considers human impacts, its main focus is on managing human activities and decisions rather than directly managing the natural environment.
The document discusses environmental management and related concepts. It defines an environmental management system as a comprehensive, systematic approach to managing an organization's environmental programs. An EMS follows a plan-do-check-act cycle and aims for continual improvement. The document also describes environmental impact assessments, which examine potential effects of projects/policies, and environmental audits, which assess compliance and identify improvement opportunities. It outlines several key Indian environmental laws regarding air and water pollution, biodiversity, forests, and more.
Green GDP as an indicator of environmental cost of economic growth in UkraineMykola Shlapak
The article provides the results of the environmental adjustment of the traditional macroeconomic indicators for Ukraine taking into account depletion of natural capital, environmental degradation due to atmospheric pollution and governmental expenditures on environmental protection. For the first time the calculation of “Green GDP” and environmentally adjusted net domestic product (NDP) for Ukraine has been elaborated for the period 2001-2010. Depletion of natural capital has been estimated based on the official data on the net operational income and specific taxes of the extraction industry of Ukraine and applying the Hartwick's rule on the reinvestment of the resource rent. Environmental degradation due to atmospheric pollution has been estimated based on the results of the research on the economic cost of pollution from thermal power stations in Ukraine. The general conclusion is that the economic growth of Ukraine is significantly dependent on natural capital and has substantial environmental drawbacks.
Fundamentals of Environmental Management and sustainable developmentNelson Kuriakose
here are the fundamentals of environmental managment of a business concern and measures for its sustainable development.
I have also briefly explained an example with regards to toyota.
"all the best"
This document proposes a methodology to assess sustainable development in the context of green technology adoption. It analyzes indicators from the Sustainable Development Goals Index for 20 countries, focusing on environmental goals. It calculates an Averaging Sustainable Development Index and Normalized Sustainable Development Index for each country. Russia had the highest ASDI relative to its SDGI, indicating a positive trend in green tech. However, most developing countries showed unfavorable conditions for green tech adoption as their NSDI increasingly differed from their SDGI. The methodology aims to identify gaps between index values to contribute to assessing potential for green technology development.
The document discusses environmental policy, outlining its objectives, principles, purpose and strategies. Environmental policy aims to manage human activities to prevent harm to nature and ensure human-made changes don't damage the environment or humans. The key objectives of India's National Environment Policy include conserving critical resources, ensuring livelihoods and equity between generations. Environmental policy establishes regulatory frameworks and incorporates environmental concerns into development plans to efficiently manage resources and governance.
This document summarizes the Environmental Economics Program in China (EEPC) at Peking University for 2008. It introduces the team members, including two professors, three research fellows, two associates, and five PhD students. It provides details on the expertise and research areas of five team members and outlines their main research accomplishments and plans for 2009. Their research focuses on areas like environmental policy evaluation, payments for ecosystem services, climate change policy, and collective forest tenure reform in China.
Industrial ecology as an integrated framework forAlexander Decker
This document discusses industrial ecology as an integrated framework for business management. It defines industrial ecology as the study of physical, chemical, and biological interactions within industrial systems and between industrial systems and natural ecological systems, with the goal of transforming open linear systems to closed cyclical systems like in nature. The document outlines several key concepts of industrial ecology, including designing for minimal waste and resource use, using less toxic alternatives, preserving utility of materials, and designing for reusability. It also discusses tools used in industrial ecology like materials flow analysis, life cycle assessment, strategic environmental assessment, and environmental risk assessment to analyze resource flows and impacts throughout a product's life cycle.
Strategic Environmental Assessment (SEA) Processes and International System D...Shahadat Hossain Shakil
The document discusses the evolution and current state of Strategic Environmental Assessment (SEA) processes in Australia. Key points include:
- SEA was formally introduced in Australia through the 1999 Environmental Protection and Biodiversity Conservation Act, but its use has remained uneven and often ad hoc across different sectors and levels of government.
- SEA has seen more successful implementation in the fisheries sector due to mandatory requirements and incentives, conducting over 120 assessments. In other sectors its use has been limited due to its voluntary nature.
- While Australian SEA law and policy aim to promote environmental protection, the practice of SEA has focused more on expediting development decisions rather than identifying environmentally sustainable options.
-
A Model For Integrating Environmental Considerations Into The Valuation Of In...IJERA Editor
This document describes a study that developed a model to integrate environmental considerations into the valuation of industries in Enugu, Nigeria. It begins by providing background on environmental conferences and the need to consider environmental impacts in property valuation. It then discusses problems with existing valuation models that do not explicitly account for environmental pollution and health and safety issues. The study aims to address this by developing a new model, called the Environmental Factor Adjusted Cost Approach, to integrate environmental variables into industry valuation. It describes research methods used and existing valuation models before proposing the new model.
The document summarizes the key challenges and opportunities for Ghana related to mitigating forest-related climate change through REDD+ initiatives. It outlines Ghana's ongoing policy approaches, weaknesses in addressing climate change, next operational steps, and a proposed roadmap. Key challenges include deforestation from fuelwood harvesting and agriculture. Weaknesses include issues with land tenure systems. Next steps include developing a REDD+ readiness plan, monitoring systems, and building capacity and institutional arrangements. Opportunities include linking REDD+ with the Ghana-EU partnership agreement and potential carbon market benefits.
NEP is a policy formulated in 2006 by Ministry of Environment and Forest,Govt. of India for providing certain strategies and standards that ensures environmental safety to surrounding areas,working areas, laboratories or facilities, are free from dangers.
Stakeholder Debate in Policy Implementation: An Evaluation of Bangladesh Leat...Shahadat Hossain Shakil
This paper focuses on stakeholder debate and conflict during policy implementation. In doing so it analyzed the reason behind the implementation snag of Bangladesh leather processing industry relocation policy, which is extreme stakeholder negotiation. Relevant stakeholders have been identified and their influence over the policy measure has been formulated. Underlying interactions among the stakeholders has been conceptually depicted to retrieve an image of the extreme stakeholder dispute behind this policy failure. Finally, based on the empirical evidence this policy measure has been evaluated in light of the effective participation of the concerned stakeholders.
An in depth analysis of the evolution of the policy mix for the sustainable e...Araz Taeihagh
This document analyzes the evolution of China's policy mix for sustainable energy transition from 1981 to 2020. It finds that over time, China has formed a complex policy mix by layering and packaging new policy instruments while calibrating existing ones. The policy mix has evolved from a few authority-based instruments in the early period to the current mix with a large density and diversity of instruments. Specifically, China has increased the policy intensity on air pollution abatement and decreased the intensity on renewable energy support. It also experiments with innovative instruments to reduce carbon emissions. The evolution features incremental changes through layering, replacement, and sequencing of policy instruments.
Green gdp-accounting-pratice-in-china-draft-by-unep-tongji-teamvhanamane
This document summarizes a report on green accounting practices in China published by the United Nations Environment Programme and Tongji University. It discusses China's rapid economic growth and associated environmental degradation. It then reviews China's efforts to implement green GDP accounting through two national projects in 2004. The projects estimated economic losses from pollution to be 287.4 billion RMB using treatment costs and 511.8 billion RMB using environmental degradation costs. However, the methods and scope were limited. The report examines debates around green accounting and establishing a full system of integrated environmental-economic accounting in China. It also discusses applications for policymaking regarding resource efficiency, environmental expenditures, and strategic planning.
This document summarizes the Environmental Economics Program in China (EEPC) at Peking University for 2008. It introduces the team members, including two professors, three research fellows, two associates, and five PhD students. It provides details on the expertise and research areas of five team members. It also summarizes the main research outputs in 2007-08 and plans for research in 2009 on topics like pollution control strategies, payments for ecosystem services, and environmental policy modeling.
This document summarizes a webinar on environmental auditing conducted by RMS Polytechnic Vadodara. It discusses the importance of environmental audits and sustainable development. It provides an introduction to environmental auditing practices in India, including the objectives and components of environmental audits. The key steps of an environmental audit procedure are outlined. The document also covers 5S methodology, which is a technique used for quality improvement. It describes the five pillars of 5S - sort, set in order, shine, standardize, and sustain. Finally, a case study example is presented on applying a 5S quality management framework to achieve a green campus at a university.
American Journal of Multidisciplinary Research and Development is indexed, refereed and peer-reviewed journal, which is designed to publish research articles.
American Journal of Multidisciplinary Research and Development is indexed, refereed and peer-reviewed journal, which is designed to publish research articles.
Environmental economics is an area of economics that studies the financial impact of environmental policies. Environmental economists perform studies to determine the theoretical or empirical effects of environmental policies on the economy. This helps governments design appropriate environmental policies and analyze the effects and merits of existing or proposed policies. Environmental economics studies the impact of environmental policies and devises solutions to problems resulting from them. Environmental economics can either be prescriptive based or incentive based. A major subject of environmental economics is externalities, the additional costs of doing business that are not paid by the business or its consumers. Another major subject of environmental economics is placing a value on public goods, such as clean air, and calculating the costs of losing those goods. Since some environmental goods are not limited to a single country, environmental economics often requires a transnational approach. Dr. Shahina Parvin "Environmental Economics - A Review" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-5 , August 2022, URL: https://www.ijtsrd.com/papers/ijtsrd51699.pdf Paper URL: https://www.ijtsrd.com/economics/other/51699/environmental-economics--a-review/dr-shahina-parvin
The document discusses concepts related to environmental management and sustainable development. It defines sustainable development as meeting present needs without compromising future generations' ability to meet their needs. Environmental management aims to control human impact on the environment to preserve resources and improve human welfare now and in the future. It involves planning, resource conservation, evaluation, legislation, and administration to support sustainable development.
presentation on a paper of EIA given by Richard K. Morgan. The paper includes the growth of EIA around the world in last 40 years and also includes the effectiveness of EIA.
This document summarizes an article about the diffusion of environmental management in Greece through ISO 14001 certification. It discusses how globalization trends have led to harmonized environmental policy initiatives and regulations across countries. ISO 14001 is presented as an example of these global standards. The summary explores whether Greece adopted ISO 14001 to promote environmental sustainability or as a result of economic globalization pressures. It notes that proper institutions and legal frameworks are needed to facilitate environmental progress.
Air Pollution In Delhi A Review Of Past And Current Policy ApproachesBecky Gilbert
This document provides a review of past and current air pollution policy approaches in Delhi, India. It begins by contextualizing Delhi's air pollution challenges within India's broader evolution of environmental policies and governance. It discusses the tension between environmental protection and development objectives.
The review finds that while early policy focused primarily on development, environmental concerns have risen in importance since the 1980s, resulting in increased legislation. However, enforcement remains a challenge due to the complex division of competencies between different governmental tiers.
The document outlines the CADTIME project, which aims to understand what is required to deliver significant and lasting reductions in Delhi's air pollution levels through affordable, effective interventions. The project will develop a robust understanding of pollution sources and
Chemical recycling processes have potential to enhance plastic recycling rates beyond traditional mechanical recycling. This review analyzes various chemical recycling routes for plastic waste and assesses them through life-cycle analysis. It identifies 150+ companies developing chemical recycling technologies and discusses their role in a circular plastic economy. The review finds each existing process is suitable for specific waste streams, so a combination is needed to fully address the plastic waste problem. It recommends research focus on more realistic, contaminated mixed waste streams, while improving collection and sorting infrastructure through regulation. The review aims to inspire further science and innovation to produce higher value recycled plastic products suitable for reuse in a circular economy model.
Life-Cycle Assessment: A Comparison between Two Optimal Post-Tensioned Concre...► Victor Yepes
The goal of sustainability involves a consensus among economic, environmental and social factors. Due to climate change, environmental concerns have increased in society. The construction sector is among the most active high environmental impact sectors. This paper proposes new features to consider a more detailed life-cycle assessment (LCA) of reinforced or pre-stressed concrete structures. Besides, this study carries out a comparison between two optimal post-tensioned concrete box-girder road bridges with different maintenance scenarios. ReCiPe method is used to carry out the life-cycle assessment. The midpoint approach shows a complete environmental profile with 18 impact categories. In practice, all the impact categories make their highest contribution in the manufacturing and use and maintenance stages. Afterwards, these two stages are analyzed to identify the process which makes the greatest contribution. In addition, the contribution of CO2 fixation is taken into account, reducing the environmental impact in the use and maintenance and end of life stages. The endpoint approach shows more interpretable results, enabling an easier comparison between different stages and solutions. The results show the importance of considering the whole life-cycle, since a better design reduces the global environmental impact despite a higher environmental impact in the manufacturing stage.
The Sustainable Apparel Coalition (SAC) seeks to lead the apparel industry toward more sustainable practices through shared measurement tools and sustainability goals. The key tool is the Higg Index, which allows companies to measure their environmental and social impacts throughout the product lifecycle. The SAC includes many major apparel brands and retailers and represents over a third of global apparel production. Moving forward, the SAC faces opportunities and challenges in balancing growth with maintaining focus on sustainability as it works toward transforming the industry to eliminate unnecessary harm.
Effect of ecodesign practices on the financial performance of manufacturing f...Martin Otundo
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SWOT Analysis of the Application of International Standard ISO 14001 in the Chinese Context. A Case Study of Guangdong Province
1. sustainability
Article
SWOT Analysis of the Application of International
Standard ISO 14001 in the Chinese Context. A Case
Study of Guangdong Province
Marco Pesce 1 , Chenyi Shi 2, Andrea Critto 1,* , Xiaohui Wang 3 and Antonio Marcomini 1
1 Department of Environmental Sciences, Informatics and Statistics, University Ca’ Foscari of Venice,
30123 Venezia VE, Italy; marco.pesce@unive.it (M.P.); marcom@unive.it (A.M.)
2 School of Greography and Planning, Sun Yat-Sen University, Guangzhou 510275, China;
shicheny@mail2.sysu.edu.cn
3 EHS Center, Lingnan College, Sun Yat-Sen University, Guangzhou 510275, China; wangxh@mail.sysu.edu.cn
* Correspondence: critto@unive.it; Tel.: +39-041-234-8975
Received: 6 August 2018; Accepted: 4 September 2018; Published: 6 September 2018
Abstract: Industry has long been one of the most important drivers of Chinese economic growth.
In order to improve the environmental footprint of industrial areas, Chinese authorities have
established mechanisms of environmental control in the internal management processes of companies.
In this regard, the international standard ISO 14001 for environmental management systems is the
management tool that has had widest adoption among Chinese companies since its creation in 1996.
The main purposes of the paper are to investigate the available international and national statistics
on the adoptionof ISO 14001 in China, and present opinions on ISO 14001 of the 72 representatives of
small and medium enterprises and multinational companies of Guangdong province that participated
to the workshop “New tools and standards to advance and measure corporate sustainability”,
held in Guangzhou on 26 January 2018. The analysis of strengths, weaknesses, opportunities and
threats (SWOT) was adopted as the research method to collect opinions on the ISO 14001 standard.
Participants were asked to discuss strengths, weaknesses, threats and opportunities considering
four business aspects: sustainability, internal processes, stakeholder engagement, and resource
management. Our findings indicate that companies fully embraced ISO 14001 and recognized the
necessity of a standardized approach to identify environmental aspects. On the other hand, they also
expressed concern about aspects such as the certification cost, the focus on certification itself and not
on the improvement of environmental performance, and the lack of integration with sustainability
tools such as life cycle assessment (LCA) and other sustainability paradigms such as circular economy
and corporate social responsibility (CSR).
Keywords: ISO 14001; ISO 14001:2015; environmental management systems; environmental
management; corporate sustainability
1. Introduction
The past few decades have witnessed the rapid development of China, which has developed
as the second economy in the world. However, the long-term economy-oriented development
characterized as “high input, high consumption and high emissions” was achieved at the expense
of the environment [1]. With the ongoing global climate change, shortage of national resources
and environmental deterioration, China’s moves on environmental protection have drawn the
world’s attention.
With the situation changed in terms of environmental degradation, the improved diplomatic
relationship between China and foreign countries as well as the United Nation’s conference on
Sustainability 2018, 10, 3196; doi:10.3390/su10093196 www.mdpi.com/journal/sustainability
2. Sustainability 2018, 10, 3196 2 of 19
the Human Environment held in 1972, China started the journey to environmental protection [2],
which can be described through four stages of environmental policies. In the first stage (1970s),
China legally defined the concept of environmental protection, represented by the first National
Conference on Environmental Protection in 1973, during which the first legal document “Regulations
on Protecting and Improving the Environment” was adopted. According to this document, the first
official organization in environmental protection—the Environmental Protection Leading Group of the
State Council of the People’s Republic of China—was established in 1974 and the first Environmental
Protection Law (Trial) was enacted in 1979 [2].
In the second stage (1980s), the Second National Conference on Environmental Protection was
held in 1983, when environmental protection was announced as one of the basic state policies in
China [3] and a systematic principle of environmental protection was proposed. In 1989, the Third
National Conference on Environmental Protection took place and focused on the enhancement
of new environmental management measures. Moreover, the Committee of the State Council on
Environmental Protection was established in 1984, and so was the National Environmental Protection
Agency (NEPA) under the Ministry of Construction, which was upgraded to the State Environmental
Protection Administration (SEPA) in 1998 and replaced by the Ministry of Environmental Protection in
2008 [3].
The third stage (1990s) witnessed a major transition in environmental strategy, when China set
down the sustainable development strategy as one of the two basic national strategies, and issued
China’s 21st Century Agenda, which stressed the necessity of cleaner production in industry [4].
The second National Conference on the Prevention and Control of Industrial Pollution proposed
“three shifts”: the shift from end-of-pipe treatment to the whole-process control, shift from
concentration control to both concentration control and amount control, and the shift from scattered
treatment to a combination of scattered and centralized treatments [3]. From then on, cleaner
production was incorporated into environmental management at different levels as well as into related
laws. Since the Fourth National Conference on Environmental Protection in 1996, “Total Emissions
Control” and the “Green Project” have been implemented as two major measures. Except for the
pollution control, China began to focus on ecological conservation in the late 1990s [5].
The 21st century started the fourth stage of China’s environmental policy. At this stage China
began to implement environmental policy in a more comprehensive way [6]. For one thing, China has
shifted from solely administrative measures to an integrated approach of legal, economic, technological
administrative measures, with more laws and policies adopted. For another, the policies emphasized
the coordination and “win-win” strategies between economic development and environmental
protection instead of any single aspect. Along with the concept of the “circular economy” and
“resource-saving society”, the central government summarized the environmental policy as “one core,
two principles and three routes”. Specifically, the Scientific Outlook on Development was regarded as
the core concept; the two principles referred to “energy efficiency and pollutant discharge reduction”
and “building a resource-saving and environmentally friendly society”; the three routes meant cleaner
production, a circular economy, and the proper adjustment of environmental protection and economic
development [6].
As stated above, China’s environmental policy has undertaken great changes in the past few
decades, presenting four features: the increasing importance of becoming one of the basic state
policies; the change from a single administrative measure to an integrated approach of legal, economic,
technological administrative measure; the emphasis on the coordination of environmental protection
and economic development; and the shift from end-of-pipe treatment to the whole process control
of industry.
This policy evolution process has been operatively translated into the industrial sector.
In particular, in order to mitigate the environmental impacts caused by increasing industrial
development [7], Chinese manufacturers have committed to the adoption of environmental
management approaches that encourage the implementation of more environmentally sustainable
3. Sustainability 2018, 10, 3196 3 of 19
practices, compliance with environmental regulations, and a better use of natural resources [8,9].
To incorporate environmental management principles into internal management practices of businesses,
Chinese manufacturers have implemented a series of approaches based on environmental management
systems (EMSs) [10,11], cleaner production [12,13], a circular economy [14,15], eco-efficiency and
eco-design [16,17], and green supply chain management [18,19]. In particular, the last two decades
have witnessed a strong commitment of Chinese manufacturers to the implementation of EMSs under
the international standard ISO 14001 [20]. The ISO 14001 certification is an internationally recognized
commitment of an organization towards the implementation of a management system to continuously
improve its environmental performance [21]. Previous studies on ISO 14001 in China mainly focused
on the geographical and sectoral extent and distribution of the certification [22,23], reasons behind
adoption [24,25], and effects on firms’ performance [11]. However, studies assessing the perceptions
that firms have of ISO 14001 not only in relation to environmental performance, but also on other
perspectives such as sustainability (intended as economic, environmental, and social sustainability),
operational, and governance, can be strategic and offer great opportunities for further investigation.
Moreover, there is great need to identify and understand the benefits and problems that the application
of ISO 14001 can bring to companies in those countries like China, which are currently experiencing
rapid expansion of certification [23]. Finally, in a time where other important sustainability themes such
as corporate social responsibility (CSR) [26,27] and circular economy [28–30] are becoming increasingly
relevant, it is crucial to begin to understand the position of ISO 14001 in the new, evolving landscape
of corporate sustainability.
Against this background, what follows is a qualitative assessment of the opinions on the standard
ISO 14001 of a cluster of small and medium companies (SMEs) and multinational companies (MNCs)
based in Guangdong province of China through the analysis of strengths, weaknesses, opportunities
and threats (SWOT) method. The analysis identifies strengths, weaknesses, opportunities and threats
of ISO 14001 certification for four different aspects: sustainability, internal processes and operations,
stakeholder engagement, and resource management. The paper proceeds as follows: necessary
background on EMSs and specifically on ISO 14001 is presented in Section 2. Recent literature on ISO
14001 in China is presented in Section 3. The methodology and results are presented and discussed in
Section 4. Conclusions are presented in Section 5.
2. Environmental Management Systems (EMS)
An EMS is a structured framework for managing the environmental aspects and impacts of
an organization. It can be developed internally by a company or follow the guidelines of voluntary
standards. These standards are global regulatory mechanisms that address topics such as environment,
quality, health and safety in organizations and their supply chains [31,32]. Different standards for
EMSs exist, including ISO 14001:2015 [33], EMAS [34], and BS8555 [35].
EMSs first appeared in North America in the 1970s and are now widely used by organizations
all over the world [36]. McGuire [21] states that voluntary standards for EMSs are cost-effective
tools developed to overcome the deficiencies of traditional regulatory instruments, such as
command-and-control regulations. The voluntary aspect of these standards is very important, as they
do not replace environmental regulations but only provide guidelines in addressing environmental and
business issues [37]. Companies decide to voluntarily over-comply with environmental regulations
mainly in order to gain competitive advantage [38], enhance or restore their reputation [39] and to
strategically anticipate the tightening of future environmental regulations [40]. Regardless of the
reason behind certification, these standards provide the guidelines to potentially improve both the
environmental and business performance of companies.
An EMS cannot be considered as an independent management tool, but as a sub-set of the
overall management system (MS) of a company, which is usually completed by a quality management
system (QMS) such as ISO 9001:2015 [41], and an occupational health and safety management system
(OHSMS), such as ISO 45001:2018 [42]. Organizations are not limited to these three aspects and
4. Sustainability 2018, 10, 3196 4 of 19
can decide to implement other standardized MSs specific for their industrial sector. For example,
a food-processing firm may decide to implement a food safety management system (FSMS) such as ISO
22000:2018 [43]. Each of these standards require organizations to meet the requirements and produce
a significant amount of documentation in the form of written procedures, checking, control forms
and other paperwork [44]. As a result, it has been proved that it is difficult to handle separately these
MSs and successfully ensure their alignment with the organization’s strategy [45]. Hence, integrated
management systems (IMS) have become a widely adopted solution for overcoming the problems
resulting from multiple MSs. There is evidence of the adoption of IMSs in organizations operating
in different sectors with a wide range of dimensions and in the majority of countries [46]. A study
conducted by Zeng and colleagues to understand the IMS implementation in enterprises in China
identified a series of major problems in operating parallel MSs, such as the increasing complexity of
internal management, employee hostility and increasing management costs. The study also observed
that Chinese firms follow a specific implementation approach: all the firms involved in the study
established a QMS first and subsequently an EMS. This is related to the way international standards
for MSs were introduced to China. Karapetrovic and Willborn [47] pointed out that this approach is
the easiest way to implement an IMS.
ISO 14001, developed by the International Organization for Standardization (ISO) in 1996,
is currently the most widely recognized and studied EMS standard in circulation [48,49]. The standard
relies on the assumption that an improved environmental performance can be obtained by the
systematic identification of relevant environmental aspects and their management through pollution
prevention, improved environmental performance and compliance with applicable laws [50]. In the
last decade, the number of firms that have obtained ISO 14001 certification has increased threefold,
reaching the number of 346,189 certificates in 175 countries by the end of 2016 [51]. The purpose
of this standard is to provide organizations of any type with a systematic framework which leads
to [33]: prevention and mitigation of adverse environmental impacts; mitigation of potential adverse
effect of environmental conditions on the organization; fulfillment of local legal obligations; enhanced
environmental, financial and operational performance; and sound environmental communication to
relevant stakeholders. It does so by establishing measurable environmental targets, procedures to reach
targets, roles and responsibilities to enforce procedures, records and data to perform a regular review
on the effectiveness of the EMS in order to promote continual environmental improvement [37,52,53].
In September 2015, to guarantee the relevance of the standard for the marketplace, ISO published
the ISO 14001:2015 edition. The new edition addresses the latest trends on environmental management
and improves the compatibility with other management system standards such as ISO 9001:2015 [54]
and an organization’s strategic action planning and thinking. The transition deadline for ISO
14001:2015 was 15 September 2018, and by that time all ISO 14001:2004 certificates will no longer
be valid. ISO 14001:2015 has been revised in some key aspects, as described by ISO [55]: a greater
commitment from leadership; an increased alignment with strategic direction; greater protection
for the environment, with a focus on proactive initiatives; more effective communication, driven
through a communications strategy; life-cycle thinking, considering each stage of a product or service,
from development to end-of-life.
Despite being the main reference in the field of environmental management in organizations,
the effectiveness of ISO 14001 is still widely debated by academics and practitioners [23,56]. Studies
indicate that the adoption of ISO 14001 does not always translate into environmental and financial
benefits, and that a series of drawbacks that hinder potential gains can also be identified [10,57–60].
Studies point out that ISO 14001 brings three types of benefits: environmental performance, efficiency
and profitability [61]. However, Whitelaw [62] indicates that the main benefits are generally identified
by firms as: gain of a “green image” resulting in gains in market shares; ability to attract new
investors; reduction of insurance and prosecution risks; and reduction of costs. This indicates that
firms are seeking financial opportunities rather than reducing their environmental impact. In fact,
mixed opinions are observable in relation to the ability of ISO 14001 to improve the environmental
5. Sustainability 2018, 10, 3196 5 of 19
performance of organizations [63]. In this context, two aspects are particularly relevant. First,
the fact that implementation of ISO 14001 does not establish absolute requirements for environmental
performance means that obtaining certification does not guarantee any improvement that goes beyond
the level set by environmental regulations [64]. Second, implementation modes within companies
vary enormously. While some firms fully incorporate ISO 14001 into their EMS and aim for continual
improvement, others implement the standard without continuously conforming with its requirements
and incorporating the necessary practices in their entirety [39,65]. Firms do so mostly because of the
external pressure of gaining business advantage towards their competitors, and not because they are
driven by an internal commitment to improve the environmental performance [66]. For comprehensive
reviews on diffusion, determinants, benefits and difficulties in implementation see Nishitani [67],
Salim et al. [49], Boiral et al. [23] and Lim and Prakash [68].
3. ISO 14001 Implementation in China
The adoption of ISO 14001 has experienced rapid growth in China, leading the country to
be the largest adopter of the standard with 137,230 certificates issued as of 2016, the 39.6% of
the total number of certifications [51]. The Chinese government has strongly contributed to the
promotion of the standard since its conception, with the concomitant establishment of the Steering
Committee on Environmental Management System Accreditation in 1997 [21]. This growth is
concomitant with the increase in sustainability regulations and conspicuous investments in research
and development (R&D) for green technologies described in the first section of this article. Li [69] also
states that the ability of the Chinese government to establish national and provincial Environmental
Protection Bureaus (EPB) and national certification bodies created a solid structure for the rapid
adoption of the ISO 14001 standard. Finally, the growth trend is in agreement with the bilateral
Europe–China Trade Agreement, where China is required to create the conditions for a widespread
adoption of EMS standard compliant with European environmental trade policies [49]. The rapid
growth of the standard in mainland China has attracted researchers’ interest, which studied its
diffusion [22], mechanisms [24] and motivations for seeking certification [25], impacts on Chinese firm
performance [11], effects on environmental regulatory compliance [21], and effects on technological
innovation [70]. The adoption of ISO 14001 in China seems mainly driven by the possibility to
increase business opportunities rather than an internal desire of improving environmental performance.
Zeng et al. [71] reveal that the major motivation for implementing ISO 14001 in China is to seek access
to international markets, while Fryxell and colleagues [25] identify that the most relevant aspects
are “ensuring regulatory compliance”, “enhancing firm’s reputation”, and “increasing environmental
risk management capabilities”, suggesting that the adoption of ISO 14001 has a positive feedback on
the reputation of Chinese firms. Finally, He et al. [70] recently investigated the effect of ISO 14001
on technological innovation among Chinese listed firm. Findings show that the ISO 14001 standard
facilitate technological innovation among firms.
In order to evaluate the certification level of China, the information provided by the ISO
survey [51] has been used. Two comparisons are presented, first the number of certificates in absolute
terms and then the number of certificates per capita (×1000). Figure 1 shows the number of ISO 14001
certificates in absolute terms in China compared with other representative countries and political
unions. It can be observed that China has recently become the first country in absolute numbers of
certifications, overcoming the European Union (EU) in 2015. This can be explained by the fact that
the growth in Europe and China has been different in recent years. In Europe it has slowed down,
probably due to the financial situation that effected the European Economic Area at the end of 2009,
while in China the number has kept increasing exponentially. Other countries, such as the US and
Germany, show a stable number of certificates, while in Japan the number has suffered a decline from
2009 to today.
6. Sustainability 2018, 10, 3196 6 of 19
Sustainability 2018, 10, x FOR PEER REVIEW 6 of 19
Figure 1. Number of ISO 14001 certificates in the period 1999–2016 for China and other countries and
political unions. Data source: [51].
Figure 2 shows the number of certificates per capita (×1000) for ISO 14001. In this case, China
turns out to be on the opposite side of the ranking, ahead of the United States only. Thus, according
to this comparison, it could be stated that China is not a leading country in terms of ISO 14001
certifications, and that the first place in absolute terms can be explained by the higher number of
companies that are potentially suitable to be certified compared to other countries. This is a further
justification for analyzing the benefits and drawbacks of the ISO 14001 implementation process in
China.
Figure 2. Number of certificates of ISO 14001 per capita (×1000). Data source: [51,72].
However, the distribution of ISO 14001 certifications in China has significant heterogeneity at
the provincial level. As shown in Figure 3, more than 50% of the total number of certifications in
China is concentrated in the eastern provinces of Guangdong (Pearl River Delta Region), the Yangtze
River Delta Region (Jiangsu, Zhejiang and Shanghai), Beijing, Shandong, and Hebei [73]. By contrast,
the western provinces of Xinjiang, Gansu, Ningxia, and Qinghai see the lowest implementation of the
ISO 14001 standard. This reflects the manufacturing distribution of Chinese industries, which is
mainly concentrated in the eastern coastal area of China [74].
0
40,000
80,000
120,000
160,000
1999 2001 2003 2005 2007 2009 2011 2013 2015
N.certificates Number of ISO 14001 certificates
(in absolute terms)
China European Union USA Italy Germany Japan UK
0.00
0.10
0.20
0.30
0.40
0.50
1999 2001 2003 2005 2007 2009 2011 2013 2015
N.certificatespercapita(x1000)
Number of ISO 14001 certificates
(per capita) X1000
China European Union USA Italy Germany Japan UK
Figure 1. Number of ISO 14001 certificates in the period 1999–2016 for China and other countries and
political unions. Data source: [51].
Figure 2 shows the number of certificates per capita (×1000) for ISO 14001. In this case, China turns
out to be on the opposite side of the ranking, ahead of the United States only. Thus, according to this
comparison, it could be stated that China is not a leading country in terms of ISO 14001 certifications,
and that the first place in absolute terms can be explained by the higher number of companies that
are potentially suitable to be certified compared to other countries. This is a further justification for
analyzing the benefits and drawbacks of the ISO 14001 implementation process in China.
Sustainability 2018, 10, x FOR PEER REVIEW 6 of 19
Figure 1. Number of ISO 14001 certificates in the period 1999–2016 for China and other countries and
political unions. Data source: [51].
Figure 2 shows the number of certificates per capita (×1000) for ISO 14001. In this case, China
turns out to be on the opposite side of the ranking, ahead of the United States only. Thus, according
to this comparison, it could be stated that China is not a leading country in terms of ISO 14001
certifications, and that the first place in absolute terms can be explained by the higher number of
companies that are potentially suitable to be certified compared to other countries. This is a further
justification for analyzing the benefits and drawbacks of the ISO 14001 implementation process in
China.
Figure 2. Number of certificates of ISO 14001 per capita (×1000). Data source: [51,72].
However, the distribution of ISO 14001 certifications in China has significant heterogeneity at
the provincial level. As shown in Figure 3, more than 50% of the total number of certifications in
China is concentrated in the eastern provinces of Guangdong (Pearl River Delta Region), the Yangtze
River Delta Region (Jiangsu, Zhejiang and Shanghai), Beijing, Shandong, and Hebei [73]. By contrast,
the western provinces of Xinjiang, Gansu, Ningxia, and Qinghai see the lowest implementation of the
ISO 14001 standard. This reflects the manufacturing distribution of Chinese industries, which is
mainly concentrated in the eastern coastal area of China [74].
0
40,000
80,000
120,000
160,000
1999 2001 2003 2005 2007 2009 2011 2013 2015
N.certificates
Number of ISO 14001 certificates
(in absolute terms)
China European Union USA Italy Germany Japan UK
0.00
0.10
0.20
0.30
0.40
0.50
1999 2001 2003 2005 2007 2009 2011 2013 2015
N.certificatespercapita(x1000)
Number of ISO 14001 certificates
(per capita) X1000
China European Union USA Italy Germany Japan UK
Figure 2. Number of certificates of ISO 14001 per capita (×1000). Data source: [51,72].
However, the distribution of ISO 14001 certifications in China has significant heterogeneity at
the provincial level. As shown in Figure 3, more than 50% of the total number of certifications in
China is concentrated in the eastern provinces of Guangdong (Pearl River Delta Region), the Yangtze
River Delta Region (Jiangsu, Zhejiang and Shanghai), Beijing, Shandong, and Hebei [73]. By contrast,
the western provinces of Xinjiang, Gansu, Ningxia, and Qinghai see the lowest implementation of
the ISO 14001 standard. This reflects the manufacturing distribution of Chinese industries, which is
mainly concentrated in the eastern coastal area of China [74].
7. Sustainability 2018, 10, 3196 7 of 19
Sustainability 2018, 10, x FOR PEER REVIEW 7 of 19
Figure 3. Number of ISO 14001 certificates in mainland China’s provinces in the year 2017. Data
source: [73].
Using a database from 2001, Cushing and colleagues [24] reported that certifications were
mainly concentrated in electronic and electrical equipment (52%), machinery equipment (10%),
chemicals and fibers (10%), and construction (5%). Today the situation has changed, and the adoption
of ISO 14001 has spread to other industrial sectors.
Figure 4 shows the distribution of ISO certificates among the 39 Chinese industrial sectors for
the year 2017 [73]. The first six sectors account for 64% of the total number of certificates. The sectors
with the major number of certification are the construction sector (28) which accounts for 22% of
certificates, followed by the production of electronic, electrical and optoelectronic equipment (19)
with the 10%, wholesale and retail of personal and household goods (29) with the 10%, production
of basic metal and metal products (17) with the 8%, technology services (34) with the 7%, and
machinery equipment (18) with 6.5%.
Figure 4. Number of ISO 14001 certificates for China industrial sectors in the year 2017. Data source:
[73]. (1) Agriculture, fishery; (2) Mining and quarrying; (3) Food, beverages and tobacco; (4) Textiles
and textile products; (5) Leather and leather products; (6) Wood and wood products; (7) Pulp, paper
and paper products; (8) Publishing industry; (9) Printing industry; (10) Coke and refined petroleum
products; (11) Nuclear fuel; (12) Chemicals and fibers; (13) Pharmaceutical products; (14) Rubber and
plastic products; (15) Non-metallic mineral products; (16) Concrete, cement, lime, plaster and others;
(17) Basic metal and metal products; (18) Machinery equipment; (19) Electronic, electrical and
optoelectronic equipment; (20) Shipbuilding; (21) Aerospace; (22) Other transportation equipment;
Figure 3. Number of ISO 14001 certificates in mainland China’s provinces in the year 2017. Data source: [73].
Using a database from 2001, Cushing and colleagues [24] reported that certifications were mainly
concentrated in electronic and electrical equipment (52%), machinery equipment (10%), chemicals and
fibers (10%), and construction (5%). Today the situation has changed, and the adoption of ISO 14001
has spread to other industrial sectors.
Figure 4 shows the distribution of ISO certificates among the 39 Chinese industrial sectors for the
year 2017 [73]. The first six sectors account for 64% of the total number of certificates. The sectors with
the major number of certification are the construction sector (28) which accounts for 22% of certificates,
followed by the production of electronic, electrical and optoelectronic equipment (19) with the 10%,
wholesale and retail of personal and household goods (29) with the 10%, production of basic metal
and metal products (17) with the 8%, technology services (34) with the 7%, and machinery equipment
(18) with 6.5%.
Sustainability 2018, 10, x FOR PEER REVIEW 7 of 19
Figure 3. Number of ISO 14001 certificates in mainland China’s provinces in the year 2017. Data
source: [73].
Using a database from 2001, Cushing and colleagues [24] reported that certifications were
mainly concentrated in electronic and electrical equipment (52%), machinery equipment (10%),
chemicals and fibers (10%), and construction (5%). Today the situation has changed, and the adoption
of ISO 14001 has spread to other industrial sectors.
Figure 4 shows the distribution of ISO certificates among the 39 Chinese industrial sectors for
the year 2017 [73]. The first six sectors account for 64% of the total number of certificates. The sectors
with the major number of certification are the construction sector (28) which accounts for 22% of
certificates, followed by the production of electronic, electrical and optoelectronic equipment (19)
with the 10%, wholesale and retail of personal and household goods (29) with the 10%, production
of basic metal and metal products (17) with the 8%, technology services (34) with the 7%, and
machinery equipment (18) with 6.5%.
Figure 4. Number of ISO 14001 certificates for China industrial sectors in the year 2017. Data source:
[73]. (1) Agriculture, fishery; (2) Mining and quarrying; (3) Food, beverages and tobacco; (4) Textiles
and textile products; (5) Leather and leather products; (6) Wood and wood products; (7) Pulp, paper
and paper products; (8) Publishing industry; (9) Printing industry; (10) Coke and refined petroleum
products; (11) Nuclear fuel; (12) Chemicals and fibers; (13) Pharmaceutical products; (14) Rubber and
plastic products; (15) Non-metallic mineral products; (16) Concrete, cement, lime, plaster and others;
(17) Basic metal and metal products; (18) Machinery equipment; (19) Electronic, electrical and
optoelectronic equipment; (20) Shipbuilding; (21) Aerospace; (22) Other transportation equipment;
Figure 4. Number of ISO 14001 certificates for China industrial sectors in the year 2017. Data source: [73].
(1) Agriculture, fishery; (2) Mining and quarrying; (3) Food, beverages and tobacco; (4) Textiles and
textile products; (5) Leather and leather products; (6) Wood and wood products; (7) Pulp, paper
and paper products; (8) Publishing industry; (9) Printing industry; (10) Coke and refined petroleum
products; (11) Nuclear fuel; (12) Chemicals and fibers; (13) Pharmaceutical products; (14) Rubber
and plastic products; (15) Non-metallic mineral products; (16) Concrete, cement, lime, plaster and
others; (17) Basic metal and metal products; (18) Machinery equipment; (19) Electronic, electrical and
optoelectronic equipment; (20) Shipbuilding; (21) Aerospace; (22) Other transportation equipment;
(23) Other unclassified manufacturing; (24) Recycling of used materials; (25) Power generation and
power supply; (26) Gas production and supply; (27) Water production and supply; (28) Construction;
8. Sustainability 2018, 10, 3196 8 of 19
(29) Wholesale and retail repair of automobiles, motorcycles, personal and household goods; (30) Hotels
and restaurants; (31) Transportation, warehousing and communications; (32) Finance, Real Estate,
Rental Services; (33) Information Technology; (34) Technology services; (35) Other service; (36) Public
administration; (37) Education; (38) Health care and social welfare; (39) Other social services.
4. Strengths, Weaknesses, Opportunities and Threats (SWOT) Analysis and Result Discussion
Based on the Data Collected from Guangdong Province
In this work, we present the results of a SWOT analysis on ISO 14001 performed by SMEs and MNCs
located in the Guangdong province of China, conducted in January 2018, in order to:
• Identify the aspects that describe the degree of utility and the degree of difficulty in the
implementation of the standard ISO 14001;
• Assess both the benefits and costs incurred to achieve and maintain the ISO 14001 standard in
terms of sustainability (environmental, social and economic), internal processes, relationships
with stakeholders, and resource management;
• Understand the prospects of the standard in relation to the rise of new approaches and corporate
sustainability paradigms such as corporate social responsibility and circular economy.
SWOT stands for strengths, weaknesses, opportunities and threats. SWOT analysis, which was
developed in the 1960s, is a strategic assessment tool for gathering and organizing the information
needed to evaluate positive (strengths, opportunities) and negative (weaknesses, threats) elements
of a strategy, project, business model, company, or industry [75]. In this study, strengths (S) are
referred as those positive attributes of ISO 14001 that can strengthen the performance of a business.
Weaknesses (W) describes those negative attributes that can work against the performance of a business.
Opportunities (O) are defined as those external positive or attractive factors that ISO 14001 adoption
can bring. Threats (T) are those external negative factors originating from the adoption of ISO
14001 that could place the business of an organization at risk. The SWOT analysis tool is usually
represented as a table made of four boxes, as presented in Tables 1–4. SWOT analysis was selected
because of its simplicity that allows everybody to participate without the need for substantial technical
support [76]. On the other hand, the SWOT analysis tool presents also some limitations, such as being
an over-simplistic, static and subjective technique [77]. SWOT analysis has been successfully applied in
the corporate sustainability field, such as the evaluation of the impact of environmental factors on the
competitive strategies of Taiwanese firms [78], assessment of different EMSs in the construction [79],
public [80] and educational [81] sectors, and the comparison of different sustainability tools [82].
For this study, 72 participants including top-managers, environmental and CSR managers and
EHS auditors from SMEs and MNCs located in Guangdong province were invited to participate to
the workshop “New tools and standards to advance and measure corporate sustainability”, held in
Guangzhou on 26 January 2018. During the workshop, the standard ISO 14001 and other corporate
sustainability tools were discussed. The SWOT analysis, planned in the first part of the workshop,
was organized as follows: the 72 participants were divided into eight groups of nine people each.
A leader with the task of coordinating the discussion among participants was identified for each group.
Each group had a whiteboard with the SWOT table depicted on it, where members were asked to write
down their considerations. At the end of the SWOT analysis, the leader of each group presented to the
other groups the main points identified during the SWOT analysis to provide the starting point for the
general discussion among all the participants. The following section presents and discusses the results
of the SWOT analysis.
Once the SWOT tables were filled in by the eight groups and merged together, we grouped
the aspects of the standards ISO 14001 into four crucial aspects of firms: sustainability, internal
processes, relationships with stakeholders, and resource management. The analysis of sustainability
aspects was performed to better understand the contribution of ISO 14001 to the sustainability of the
company and the regions impacted by their business. The impacts on internal processes were studies
to understand the changes, both positive and negative, that the requirements of the standard may
9. Sustainability 2018, 10, 3196 9 of 19
bring to the activities of Chinese firms. We also evaluated how ISO 14001 can affect the relationship
with stakeholders and the disclosure of sensitive information, such as those related to environmental
performance. Finally, the impacts on resources and their management has also been assessed to
understand the costs and the economic returns that ISO 14001 can bring to Chinese firms. The findings
of our study strengthen the importance of the standard in the environmental management of Chinese
firms and at the same time highlight limits of the tools and difficulties in its implementation. Results
are schematically represented in Tables 1–4, where strengths, weaknesses, opportunities and threats
identified by the participants are listed. Tables also indicate how many groups have identified each
element (the absence of the number indicates that only one group has identified that element).
4.1. Sustainability
Table 1 refers to those impacts of ISO 14001 that affect sustainability aspects of the company and
the surroundings. Several insights can be drawn from the table. Companies recognize a positive
contribution of the standard in raising environmental awareness, identifying relevant environmental
aspects, and improving compliance with legal requirements. This is confirmed by several studies
that have identified positive impacts of ISO 14001 on environmental management practices [23,46,83].
However, some participants felt the lack of guidelines regarding the selection and implementation of
environmental protection measures as a limit of the tool. Moreover, two groups criticized the voluntary
aspect of the standard, pointing out that a legally binding tool for EMSs would be more effective for
the improvement of environmental performance of firms.
On a positive note, it also comes to light that firms do not look at sustainability as a mere
environmental problem anymore. In fact, one group lamented that ISO 14001 does not improve
the overall sustainability of a firm, but only its environmental pillar. Being sustainably responsible
means also investing in human capital and establishing solid relationships with stakeholders [84].
Also, it was stated that ISO 14001 does not integrate completely with other sustainability paradigms
such as the circular economy and does not require the strict implementation of life cycle assessment
approaches even though it requires firms to adopt a life cycle perspective. This lack of synergies among
sustainability standards and tools is also confirmed in recent literature. For example, Pauliuk [85]
states that the circular economy standard BS 8001:2017 lacks an exhaustive description and support
with regard to synergies with EMSs standards such as ISO 14001. Participants also identified a series
of opportunities for both firms and the society. For firms, ISO 14001 can encourage the implementation
of new sustainable business models and green technologies, improve environmental communication,
reduce emissions, save energy, and design more sustainable products (eco-design principles). At the
same time, ISO 14001 can indirectly increase public attention to environmental issues, improve the
health of citizens and contribute to a cleaner environment. Finally, identified threats are mainly related
to the fact that the main objective of firms has become the certification itself, mainly driven by external
pressure (e.g., clients requiring the certification), and not from an internal commitment of the firms to
improve their environmental performance [21]. This is reflected also in other studies. For example,
Yin and Ma [64] found that ISO 14001 certification in Chinese manufacturing firms was mainly sought
in order to access advanced international markets rather than improving environmental performance.
10. Sustainability 2018, 10, 3196 10 of 19
Table 1. Sustainability related aspects of ISO 14001 that have an effect on firms, society and the
environment. Tables also indicate how many groups have identified each element (the absence of the
number indicates that only one group has identified that element).
Sustainability
Strengths: Weaknesses:
• Promotes the idea of environmental protection and
environmental awareness in a company. (4)
• Provides guidance on how to improve the
environmental sustainability of a company. (3)
• Provides guidance on evaluating and reducing the
environmental and legal risks of a company. (2)
• Provides guidance on the identification of relevant
environmental aspects of a company.
• Lacks exhaustive guidelines on environmental
protection measures. (2)
• Not legally binding. (2)
• Does not provide in-depth guidance on how to
promote and integrate environmental aspects in
a company’s strategy. (2)
• Does not improve the overall sustainability of
a company.
• Does not fully integrate circular
economy principles.
• Mentions life cycle thinking but does not require
life cycle assessment (LCA).
Opportunities: Threats:
• Can improve the environmental communication of
companies. (2)
• Nationwide promotion of green and sustainable
development. (2)
• More public attention to environmental protection. (2)
• Improves the health of residents and of the cities. (2)
• Promotes the implementation of
environmental technologies.
• Development of green economy business models.
• Makes product more environmentally
friendly (eco-design).
• Promotes energy saving and emission reduction.
• The aim of company has become the
certification itself and not the protection of the
environment. (2)
• Certification comes from external pressure,
not self-driven.
4.2. Internal Processes
Table 2 refers to those technical aspects of the standard that influence the internal processes of firms.
All the groups except one pointed out the benefits provided by the standardization of environmental
management processes [86–88]. It is demonstrated that standardization contributes to a better handling
of environmental issues and to better organizational environmental performance [89]. Other strengths
are related to the wide applicability of the standard in all sectors and countries, the necessity to adopt
measurable indicators to measure the improvement of environmental performance, and the presence
of a third-party assessment to obtain certification. Differences of opinion were observed regarding
the support of ISO 14001 in the integration of environmental management processes in the overall
management of a firm. Three groups expressed a positive opinion, while two groups pointed out that
changes required to integrate the standard clash with a solidified management thinking that does not
see environmental aspects as an essential part of a firm’s strategy. The integration of environmental
practices required by ISO 14001 with daily activities is an essential problem identified in different
studies [90,91].
Other weaknesses identified by more than one group are the amount of paperwork and additional
activities at different levels of the company in order to maintain the certification, as identified also in
previous studies [92,93], the difficulty of implementing environmental protection activities at all levels
of the company, and the absence of methods to identify who has a better environmental performance
among certified companies. In fact, ISO 14001 does not recognize organizations for having reached
a certain level of environmental performance, rather recognizing those that have implemented an EMS
for the continual improvement of their environmental performance. Participants also lamented the
absence of aspects that consider the difference among countries and sectors and the level of ability of
11. Sustainability 2018, 10, 3196 11 of 19
a company, which can bring a different understanding and interpretation of the standard in the first
phases of implementation.
Identified opportunities relates to the benefits of ISO 14001 on product and process innovation
and to the improvement of the overall efficiency of a company if all requirements of the standards
are implemented. He and Shen [70], investigate how the ISO 14001 certification shapes corporate
technological innovation in Chinese firms. They conclude that the certification of ISO 14001 facilitates
corporate technological innovation and improves resource management of companies, thus enabling
them to better invest in R&D and innovation activities. However, one group of participants argued
that standardization can limit innovation since companies are forced to follow specific guidelines.
The main threats are related to the devaluation of the standard. Participants stated that the
government focus on legally binding standards (i.e., emission standards), and that ISO 14001 has
become a mere formality that a company implements to access international markets. Moreover,
new sustainability standards continuously emerge, and it is becoming increasingly difficult to integrate
them. Other identified threats are also related to conflicts of interest between auditors and auditees
(i.e., firms) and issues of organizational honesty. The credibility of the ISO 14001 standard has been
under scrutiny since its inception and has been questioned by several actors among scholars [94,95],
government agencies [96], environmental groups [97], and the industry itself [98].
Table 2. Technical aspects of ISO 14001 that have an effect on the internal processes of firms. Tables
also indicate how many groups have identified each element (the absence of the number indicates that
only one group has identified that element).
Internal Processes
Strengths: Weaknesses:
• Standardization of environmental management
processes. (7)
• Allows the integration of environmental
management in the overall management of the
enterprise. (3)
• Widely applicable in all sectors and countries (2)
• Requires measurable indicators in order to
monitor continuous
environmental improvement.
• Requires a third-party assessment
for certification.
• Requires too much paperwork to maintain the
certification. (3)
• Clashes with a solidified management thinking. (2)
• It does not provide a method to differentiate
organization based on their level of environmental
performance. (2)
• Environmental protection measures are difficult to
implement at all levels of a company. (2)
• It does not consider the differences in
implementation that exist among various countries
and sectors.
• It does not consider the level of ability
of companies
• Understanding is not always clear, which leads to a
different interpretation of the standard
Opportunities: Threats:
• Stimulates product and process innovation.
• Improves overall efficiency of the company if all
aspects are implemented.
• The government focuses on legally binding
emission standards; it does not care whether
a company has ISO 14001 or not. (4)
• Obtaining ISO 14001 has become a formality in
China (devaluation of the standard). (4)
• New sustainability standards emerge continuously.
It is becoming increasingly difficulty to integrate
them. (2)
• Standardization does not help to
promote innovation.
• Credibility of auditors: unevenness of ability
and honesty.
• A company might fake everything just to get
the certification.
12. Sustainability 2018, 10, 3196 12 of 19
4.3. Stakeholder Engagement
Table 3 refers to those aspects that influence a firm’s relationships with stakeholders. Identified
strengths of the standard related to the fact that it requires participation at all levels of the company,
and strongly encourages an active commitment of the top management. Findings from previous
studies indicate that the involvement and leading role played by the top management plays a key role
in implementing and maintaining the standard ISO 14001 through the allocation of sufficient time
and resources to operate the environmental management system [65,99,100]. Moreover, studies
point out that participating in the certification process contributes to increase the sustainability
performance of firms and gives advantages over competitors as they address stakeholder concerns
on triple-bottom-line issues [56]. Finally, ISO 14001 is recognized by customers and national and
international institutions. On the other hand, the identified weaknesses highlight the lack of
supervision from a governmental authority and the difficulty of involving the whole supply-chain.
Participants identified a series of opportunities that ISO 14001 brings to relationships with
stakeholders of a firm. First, four groups stated that the standard contributes to strengthening
relationships with customers and suppliers, especially international ones. Second, it increases
collaboration and participation among employees, as identified also in other studies [89,101]. Third,
it improves the reputation of the company and its social license to operate. ISO 14001 also contributes
to considering the interests of a firm’s stakeholders, motivate suppliers in adopting environmental
management measures, and benefits communication along the supply chain.
Threats can relate to the low interest of the top management in being involved. In fact, although
top management commitment is required by the standard, its level of commitment can vary greatly,
with consequent differences in the effective implementation of ISO 14001 [39,65]. Two groups also
indicated that firms feel pressured by clients to get and maintain certification, or that clients already
demand environmental requirements that exceed ISO 14001. Studies indicate that this pressure can
lead to a superficial adoption of the standard [90,102]. Companies that are concerned with the final
consumers of their products also say that the standard has a low recognition among them. Finally, firms’
reputations can be damaged if ISO 14001 is lost or suspended because of violation of the standard.
Studies indicate that improved image and reputation are one of the most common benefits of the
firms [103,104]. Consequently, a loss of the certification can severely harm the image of a company in
the eyes of its stakeholders.
Table 3. Aspects of ISO 14001 that have an effect on firms’ relationship with stakeholders. Tables also
indicate how many groups have identified each element (the absence of the number indicates that only
one group has identified that element).
Stakeholder Engagement
Strengths: Weaknesses:
• Participation at all levels of the company. (2)
• Requires the commitment of top-management.
• Recognized by customers.
• Recognized by national and international institutions.
• Does not provide require the supervision of
a governmental authority.
• Difficult to apply at the supply-chain level.
Opportunities: Threats:
• Strengthen relationships with customers and suppliers,
especially international ones. (4)
• Increases collaboration and participation among
employees. (3)
• Publicly demonstrates the commitment to environmental
protection: improved reputation of the company and social
license to operate. (2)
• Pushes a company to consider the interests of
its stakeholders.
• Can motivate suppliers in adopting environmental
management measures.
• Benefits supply chain communication.
• Top-management may not care. (2)
• Strong pressure to get certification from
stakeholders (e.g., international clients). (2)
• Clients environmental requirements may exceed
ISO 14001.
• Low recognition from the Chinese consumer.
• Reputation is damaged if certification is lost or
suspended for some violation of the standard.
13. Sustainability 2018, 10, 3196 13 of 19
4.4. Resource Management
Table 4 refers to those aspects that have an influence on a firm’s internal resources. The standard
ISO 14001 has been described has a useful tool for a better management of internal resources of
a company. It can also bring opportunities in terms of new customers, especially from western
countries, reduce legal risks and related expenses, overall costs of execution, and environmental
taxation. Finally, it gives access to external financial support and subsidies from governmental bodies.
On the other hand, resources, in terms of money, people and time, that are required to be compliant
with the standard can be high, especially for SMEs. This can lead to a series of threats to companies:
increased management and production costs such as the need to install environmental protection and
monitoring equipment (e.g., air emission abatement systems, water pollution control, waste treatment
and disposal technologies) and the need to reinvent production activities or redesign products. This can
become too economically risky for those small companies where the financial return might be too
low compared to costs and risks of implementation of the standard. Also, companies tend to focus
on short-term profit maximization, which is at odds with the principles of sustainability. As a result,
costs related to environmental protection measure are the first to be cut in the event of cost-saving
interventions. Finally, if the certification is lost or suspended, the financial resources of the company
might be affected due to a loss of reputation, as mentioned in the previous section.
Table 4. Aspects of ISO 14001 that have an effect on the resources of firms. Tables also indicate how
many groups have identified each element (the absence of the number indicates that only one group
has identified that element).
Resource Management
Strengths: Weaknesses:
• It provides guidance on the management
of resources.
• The costs related to implementation and
certification fee are too high for small and
medium companies.
Opportunities: Threats:
• Brings more customers, especially from foreign
customers. (3)
• Reduces legal risk and related expenses. (3)
• Reduces overall costs in the long-term. (2)
• Reduces environmental taxation.
• Helps to gain financial support and subsidies
from government.
• Increases management and production costs
(environmental protection technology, design of
new products). (4)
• Too economically risky for small companies
(costs in terms of change and maintenance).
• Financial return can be too low compared to the
initial financial investment.
• The company focuses on financial benefits and
environmental protection is easy to marginalize.
• Damage if certification is lost or suspended for
some violation of the standard.
5. Conclusions
The purpose of this study was to analyze the opinion of a group of SMEs and MNCs of
Guangdong province in China about the voluntary standard ISO 14001, whose aim is to set out
the criteria for an effective EMS. China is the largest and fastest growing adopter of ISO 14001,
with Guangdong province being the main contributor in the country. By performing a SWOT analysis,
we analyzed four aspects relevant to Chinese firms: sustainability, internal processes, stakeholder
engagement, and resource management. Our results indicate that Chinese companies fully embrace
ISO 14001 and recognize the necessity of a standardized approach to identify environmental aspects.
ISO 14001 contributes to the promotion and adoption of environmental management principles
at the company level, contributing to improving the environmental footprint of industrial areas,
and reducing the negative effects on nearby communities. They also highlighted the importance of
14. Sustainability 2018, 10, 3196 14 of 19
ISO 14001 in supporting companies in the adoption of a system thinking approach and in improving
the communication with stakeholders and the disclosure of sensitive environmental information.
On the other hand, they expressed a number of concerns that should be further investigated in future
studies. Concerns were raised about the cost of implementation and certification, which can be
considered too risky for SMEs. Moreover, participants pointed out a devaluation of the standard,
that is now used mainly as necessary way to access international markets. The internal drive of
a company to reduce its negative impacts on the environment seem to be a secondary reason for
implementation of the standard. Another relevant aspect is that the interviewed Chinese companies
are going beyond the sole implementation of EMSs for the management of environmental aspects,
and this is mainly at the request of external stakeholders. They are starting to recognize the importance
of sustainability tools such as LCA and other sustainability paradigms such as circular economy and
CSR, and demanding changes that can accommodate the integration of all the tools and standards
that regulate the different aspects of sustainability in a company. This lack of integration with other
sustainability tools should be taken into account in newer versions of the standard, as well as the
absence of performance requirements and the lack of a mandatory set of indicators that would allow
for differentiation between good and bad implementation of the standard, as indicated also in other
studies [105].
Our results are consistent with previous SWOT analysis on ISO 14001 in Europe [106,107],
India [79] and North America [108]. Specifically, common points in the strengths of the standard
are the systemic approach to the management of environmental aspects, its flexibility of adoption,
the third-party evaluation and the required involvement of the entire organization. Identified
common weaknesses relate to the difficulty of assessing environmental impacts at the supply-chain
level, the absence of performance standards, the amount of paperwork and the cost of certification.
Some identified opportunities are also shared, such as the improvement of reputation and trust,
the reduction of environmental risks and costs (e.g., interruption of activities, penalties and sanctions,
etc.), and improved communication on environmental performance between customer and supplier.
Finally, shared threats relate to the low recognition of certification from relevant stakeholders (i.e.,
governments, control bodies, financing bodies, etc.), the end of public funding for the certification,
corruption among auditors, and the focus on certification and not on the improvement of environmental
performance. The most marked divergences are related to a different perception in the threat
generated by the risk of public disclosure of incriminating environmental information, as pointed out
in Yiridoe et al. [108]. In our study, no participants highlighted this threat. Also, despite confirming
our findings on the difficulty of implementation of ISO 14001 at the supply-chain level, Gnoni and
Lanzilotto [106] also identified benefits and opportunities. Specifically, they acknowledge that the
standardized framework of ISO 14001 allows control of the environmental impact of each actor of the
supply-chain and promotes the implementation of environmental programs at the supply-chain level.
In this work, the number of participants (72) is relatively small compared to the number of
companies in Guangdong province, which results in some limitations to the work. First, we have
not controlled for specific sizes or industry type (e.g., construction, textile, electronics), which would
have been useful. Second, the SWOT analysis was performed in groups and not independently.
If, on the one hand, it has stimulated the discussion, it may have also hidden the opinions of some
participants. Finally, the level of awareness on EMSs among the workshop participants was uneven and
not possible to quantitatively address. This might have biased the results by highlighting the factors of
the participants with more expertise. The above points are interesting directions for future study when
more data is available. However, apart from its theoretical contribution, the results of the study can
have positive implications for practitioners, researchers and policy-makers. Accordingly, future studies
could deepen the analysis by adding further categories of classification factors to the SWOT analysis
(strengths, weaknesses, internal opportunities, internal threats, stimulants, counter stimuli, external
opportunities, external threats), as proposed by Nazarko and colleagues [109]. Moreover, the use of the
qualitative results obtained in this and related studies could provide valuable inputs to direct relevant
15. Sustainability 2018, 10, 3196 15 of 19
quantitative analysis aiming at providing useful data for computing performance indicators (e.g.,
return on investment (ROI)) and comparing different alternatives for environmental and sustainable
management. The paper’s findings can help sustainability and environmental managers to anticipate
potential difficulties in the implementation of the standard and maximize benefits that ISO 14001 can
bring to a company in the form of improved efficiency of internal processes, increased international
reputation and trust, and reduced legal and environmental risks. The paper also provides a description
of topics companies need to pay attention to in order to maintain and improve their sustainability
performance. Future studies could analyze the different perceptions of ISO 14001 in China based
on the industrial sector and provinces, and test whether the findings are in line with the results of
this paper.
Author Contributions: M.P. conceived of the research, undertook data collection and analysis, and drafted the
article. C.S. contributed to the manuscript development. A.C. conceived of the research, contributed to the
research positioning and revised the article. X.W. contributed to the interpretation of results. A.M. played an
important role in proof-reading. All authors read and approved the final manuscript.
Funding: This research was funded by the MEDIUM project (New pathways for sustainable development in
Chinese MEDIUM size-cities) grant number ICI+/2014/348-005 and the APC was funded by the project Study
on Urban Spatial Growth From The Viewpoint of Resource Efficiency, grant number 40971097, National Natural
Science Foundation of China.
Acknowledgments: This research work was conducted in the context of the MEDIUM project (New pathways for
sustainable development in Chinese MEDIUM size-cities). The author would like to acknowledge the support
of the French National Center for Scientific Research (CNRS) and the European Centre for Living Technology
(ECLT) of Ca’ Foscari University of Venice, and to thank MEDIUM partners, in particular Sun Yat-Sen University.
The MEDIUM project has received funding from the European Union under the External actions of the EU—Grant
Contract ICI+/2014/348-005.
Conflicts of Interest: The authors declare no conflict of interest.
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