Extended producer responsibility
Extended producer responsibility (EPR) is a strategy to add all of the estimated environmental costs associated with a product throughout the product life cycle to the market price of that product, contemporarily mainly applied in the field of waste management.[1] Such societal costs are typically externalities to market mechanisms, with a common example being the impact of cars.
Extended producer responsibility legislation is a driving force behind the adoption of remanufacturing initiatives because it "focuses on the end-of-use treatment of consumer products and has the primary aim to increase the amount and degree of product recovery and to minimize the environmental impact of waste materials".[2]
Passing responsibility to producers as polluters is not only a matter of environmental policy but also the most effective means of achieving higher environmental standards in product design.[3]
Origin
The concept was first formally introduced in Sweden by Thomas Lindhqvist in a 1990 report to the Swedish Ministry of the Environment.[4] In subsequent reports prepared for the Ministry, the following definition emerged: "[EPR] is an environmental protection strategy to reach an environmental objective of a decreased total environmental impact of a product, by making the manufacturer of the product responsible for the entire life-cycle of the product and especially for the take-back, recycling and final disposal."[5]
Definition
Extended producer responsibility uses financial incentives to encourage manufacturers to design environmentally friendly products by holding producers responsible for the costs of managing their products at end of life. This policy approach differs from product stewardship, which shares responsibility across the chain of custody of a product,[6] in that it attempts to relieve local governments of the costs of managing certain priority products by requiring manufacturers to internalize the cost of recycling within the product price. EPR is based on the principle that manufacturers (usually brand owners) have the greatest control over product design and marketing and have the greatest ability and responsibility to reduce toxicity and waste.[7]
EPR may take the form of a reuse, buyback, or recycling program. The producer may also choose to delegate this responsibility to a third party, a so-called producer responsibility organization (PRO), which is paid by the producer for used-product management. In this way, EPR shifts the responsibility for waste management from government to private industry, obliging producers, importers and/or sellers to internalise waste management costs in their product prices and ensure the safe handling of their products.[8] However, different stakeholders perceive the concept and the role of producers in various ways.[9][10]
A good example of a producer responsibility organization is PRO Europe S.P.R.L. (Packaging Recovery Organisation Europe),[11] founded in 1995, the umbrella organization for European packaging and packaging waste recovery and recycling schemes. Product stewardship organizations like PRO Europe are intended to relieve industrial companies and commercial enterprises of their individual obligation to take back used products through the operation of an organization which fulfills these obligations on a nationwide basis on behalf of their member companies. The aim is to ensure the recovery and recycling of packaging waste in the most economically efficient and ecologically sound manner. In many countries, this is done through the Green Dot trademark of which PRO Europe is the general licensor. In twenty-five nations, companies are now using the Green Dot as the financing symbol for the organization of recovery, sorting and recycling of sales packaging.
OECD guidance manuals
OECD published a guidance manual about EPR in 2001[1] after several years of discussion by experts in this field, and updated in 2016[12] to include developing countries' perspectives, based on experiences and policy changes.
Take-back
In response to the growing problem of excessive waste, several countries adopted waste management policies in which manufacturers are responsible for taking back their products from end users at the end of the products' useful life, or partially financing a collection and recycling infrastructure. These policies were adopted due to the lack of collection infrastructure for certain products that contain hazardous materials, or due to the high costs to local governments of providing such collection services. The primary goals of these take-back laws therefore are to partner with the private sector to ensure that all waste is managed in a way that protects public health and the environment. The goals of take-back laws are to
- encourage companies to design products for reuse, recyclability, and materials reduction;
- correct market signals to the consumer by incorporating waste management costs into product price;
- promote innovation in recycling technology.[13]
Take-back programs help promote these goals by creating incentives for companies to design products that minimize waste management costs, to design products that contain safer materials (so they do not need to be managed separately), or to design products that are easier to recycle and reuse (so recycling becomes more profitable).[14] The earliest take-back activity began in Europe, where government-sponsored take-back initiatives arose from concerns about scarce landfill space and potentially hazardous substances in component parts. The European Union adopted a directive on Waste Electrical and Electronic Equipment (WEEE). The purpose of this directive is to prevent the production of waste electronics and also to encourage reuse and recycling of such waste. The directive requires the Member States to encourage design and production methods that take into account the future dismantling and recovery of their products.[15] These take-back programs have been adopted in nearly every OECD country. In the United States, most of these policies have been implemented at the state level.
Plastic bags
Recycling, banning, and taxation fails to adequately reduce the pollution caused by plastic bags. An alternative to these policies would be to increase extended producer responsibility.[16] In the US, under the Clinton presidency, the President's Council on Sustainable Development suggested EPR in order to target different participants in the cycle of a product's life.[17] This can, however, make the product more expensive since the cost must be taken into consideration before being put on the market, which is why it is not widely used in the United States currently.[18] Instead, there is banning or taxation of plastic bags, which puts the responsibility on the consumers. In the United States, EPR is voluntary. What has been recommended is a comprehensive program which combines taxation, producer responsibility, and recycling to combat pollution.[19]
Electronics
Many governments and companies have adopted extended producer responsibility to help address the growing problem of e-waste — used electrical and electronic equipment that contains materials that cannot be safely thrown away with regular household trash. In 2007, according to the Environmental Protection Agency, people threw away 2.5 million tons of cell phones, TVs, computers, and printers.[20] Many governments have partnered with corporations in creating the necessary collection and recycling infrastructure.[21]
The kinds of chemicals found in e-waste that are particularly dangerous to human health and the environment are lead, mercury, brominated flame-retardants, and cadmium. Lead is found in the screens of phones, TVs and computer monitors and can damage kidneys, nerves, blood, bones, reproductive organs, and muscles. Mercury is found in flat screen TVs, laptop screens, and fluorescent bulbs, and can cause damage to the kidneys and the nervous system. Brominated flame-retardants found in cables and plastic cases can cause cancer, disruption of liver function, and nerve damage. Cadmium is found in rechargeable batteries and can cause kidney damage and cancer. Poorer countries are dumping grounds for e-waste as many governments accept money for disposing this waste on their lands. This causes increased health risks for people in these countries, especially ones who work or live close to these dumps.[20]
In the United States, 25 states have implemented laws that require the recycling of electronic waste. Of those, 23 have incorporated some form of extended producer responsibility into their laws.[22] According to analysis done by the Product Stewardship Institute, some states have not enacted EPR laws because of a lack of recycling infrastructure and funds for proper e-waste disposal.[23] In contrast, according to a study of EPR legislation done by the Electronics TakeBack Coalition (ETBC), states that have seen success in their e-waste recycling programs have done so because they have developed a convenient e-waste infrastructure or the state governments have instituted goals for manufacturers to meet.
Advocates for EPR also argue that including "high expectations for performance" into the laws, and ensuring that those are only minimum requirements, contribute to making the laws successful. The larger the scope of products that can be collected, the more e-waste will be disposed of properly.[22]
Similar laws have been passed in other parts of the world as well. The European Union has taken steps to address some electronic waste management issues. They have restricted the use of harmful substances in member countries and have made it illegal to export waste.[24]
China banned the import of e-waste in 2000, and adopted EPR in 2012. This has proven to be difficult, however, because illegal smuggling of waste still occurs in the country.[25] In order to dispose of e-waste in China today, a license is required and plants are held responsible for treating pollution. EPR laws in the U.S. still allows e-waste to be exported to China. The Institute of Electronics and Electrical Engineers (IEEE) has also proposed a deposit-refund system dealt with by producers.[26]
Advantages
When producers face either the financial or physical burden of recycling their electronics after use, they may be incentivized to design more sustainable, less toxic, and more easily recyclable electronics.[7][27][28] Using fewer materials and designing products to last longer can directly reduce producers' end-of-life costs.[27][29] Thus, extended producer responsibility is often cited[30][31] as one way to fight planned obsolescence, because it financially encourages manufacturers to design for recycling and make products last longer. In addition to fighting planned obsolescence, by allocating part of the financial responsibility for paying and managing waste on the producer, the pressures placed on governments may be alleviated. Currently, many governments bear the weight of disposal and spend millions of dollars on collecting and removing electronic waste.[32] However, these plans usually fail due to the fact that governments do not have enough money to create and enforce these plans properly.[32] Placing responsibility on producers to dispose of their products can give governments more freedom to create legislation which benefits sustainability with little cost to both parties, while also raising awareness about the issues EPR seeks to solve.[32]
One of the advantages for EPR is that it becomes more and more effective as the EPR policy puts pressure on countries that export their E-waste. The regulation of this E-waste forces infrastructure to deal with the waste or implement new ways of creating products from the producers.[33] As more countries adopt these policies it restricts others countries from ignoring the issues. For example, when China stopped importing E-waste from the U.S., a build up of waste was formed at ports.[34] The lack of infrastructure around recycling E-waste in the US has been possible because of the ability to export and the negligence of producers. The pressure of this growing dump of E-waste forces countries to have their own infrastructure and will force more regulations from the government, state and federal, to be placed on producers.[34]
Disadvantages
Some people have concerns about extended producer responsibility programs for complex electronics that can be difficult to safely recycle, such as lithium-ion polymer batteries.[28] Others worry that such laws could increase the cost of electronics because producers would add recycling costs into the initial price tag.[28] When companies are required to transport their products to a recycling facility, it can be expensive if the product contains hazardous materials and does not have a scrap value, such as with CRT televisions, which can contain up to five pounds of lead.[35] Organizations and researchers against EPR claim that the mandate would slow innovation and impede technological progress.[28]
Other critics[36] are concerned that manufacturers may use takeback programs to take secondhand electronics off the reuse market, by shredding rather than reusing or repairing goods that come in for recycling. Another argument against EPR is that EPR policies are not accelerating environmentally-friendly designs because "manufacturers are already starting to moving toward reduced material-use per unit of output, reduced energy use in making and delivering each product, and improved environmental performance."[37]
The Reason Foundation argues that EPR is not clear in the way fees are established for the particular recycling processes. Fees are set in place to help incentivize recycling, but this may deter the use of manufacturing with better materials for the different electronic products. There are not set fees for certain materials, so confusion occurs when companies do not know what design features to include in their devices.[38]
Fossil fuels
A study suggests that applying the principle of extended producer responsibility to fossil fuels could deconflict energy security and climate policy at an affordable cost, in particular authors suggested the responsibility could be used to establish the financing of CO2 storage and nature-based solutions.[39][40]
Implementation
EPR has been implemented in many forms, which may be classified into three major approaches:
- Mandatory
- Negotiated
- Voluntary
It is perhaps because of the tendency of economic policy in market-driven economies not to interfere with consumers' preferences that the producer-centric representation is the dominant form of viewing the environmental impacts of industrial production: in statistics on energy, emissions, water, etc., impacts are almost always presented as attributes of industries ("on-site" or "direct" allocation) rather than as attributes of the supply chains of products for consumers. On a smaller scale, most existing schemes for corporate sustainability reporting include only impacts that arise out of operations controlled by the reporting company, and not supply-chain impacts[41] According to this world view, "upstream and downstream [environmental] impacts are ... allocated to their immediate producers. The institutional setting and the different actors' spheres of influence are not reflected".[42]
On the other hand, a number of studies have highlighted that final consumption and affluence, especially in the industrialised world, are the main drivers for the level and growth of environmental pressure. Even though these studies provide a clear incentive for complementing producer-focused environmental policy with some consideration for consumption-related aspects, demand-side measures to environmental problems are rarely exploited.[43]
The nexus created by the different views on impacts caused by industrial production is exemplified by several contributions to the discussion about producer or consumer responsibility for greenhouse gas emissions. Emissions data are reported to the IPCC as contributions of producing industries located in a particular country rather than as embodiments in products consumed by a particular population, irrespective of productive origin. However, especially for open economies, taking into account the greenhouse gases embodied in internationally traded commodities can have a considerable influence on national greenhouse gas balance sheets. Assuming consumer responsibility, exports have to be subtracted from, and imports added to national greenhouse gas inventories. In Denmark, for example, Munksgaard and Pedersen (2001) report that a significant amount of power and other energy-intensive commodities are traded across Danish borders, and that between 1966 and 1994 the Danish foreign trade balance in terms of CO2 developed from a 7 Mt deficit to a 7 Mt surplus, compared to total emissions of approximately 60 Mt.[44] In particular, electricity traded between Norway, Sweden and Denmark is subject to large annual fluctuations due to varying rainfall in Norway and Sweden. In wet years Denmark imports hydro-electricity whereas electricity from coal-fired power plants is exported in dry years. The official Danish emissions inventory includes a correction for electricity trade and thus applies the consumer responsibility principle.[45]
Similarly, at the company level, "when adopting the concept of eco-efficiency and the scope of an environmental management system stated in for example ISO 14001, it is insufficient to merely report on the carbon dioxide emissions limited to the judicial borders of the company".[46] 7 "Companies must recognise their wider responsibility and manage the entire life-cycle of their products ... Insisting on high environmental standards from suppliers and ensuring that raw materials are extracted or produced in an environmentally conscious way provides a start."[47] A life-cycle perspective is also taken in EPR frameworks: "Producers of products should bear a significant degree of responsibility (physical and/or financial) not only for the environmental impacts of their products downstream from the treatment and disposal of their product, but also for their upstream activities inherent in the selection of materials and in the design of products."[48] "The major impetus for EPR came from northern European countries in the late 1980s and early 1990s, as they were facing severe landfill shortages. [... As a result,] EPR is generally applied to post-consumer wastes which place increasing physical and financial demands on municipal waste management."[49]
EPR has rarely been consistently quantified. Moreover, applying conventional life cycle assessment, and assigning environmental impacts to producers and consumers can lead to double-counting. Using input-output analysis, researchers have attempted for decades to account for both producers and consumers in an economy in a consistent way. Gallego and Lenzen demonstrate and discuss a method of consistently delineating producers' supply chains, into mutually exclusive and collectively exhaustive responsibilities to be shared by all agents in an economy.[50] Their method is an approach to allocating responsibility across agents in a fully inter-connected circular system. Upstream and downstream environmental impacts are shared between all agents of a supply chain – producers and consumers.
Examples
Auto Recycling Nederland (ARN) is a producer responsibility organisation (PRO) that organises vehicle recycling in the Netherlands. An advanced recycling fee is charged to those who purchase a new vehicle and is used to fund the recycling of it at the end of its useful life. The PRO was set up to satisfy the European Union's End of Life Vehicles Directive.
The Swiss Association for Information, Communication and Organisational Technology (SWICO), an ICT industry organisation, became a PRO to address the problem of electronic waste.
The Canada-Wide Action Plan for Extended Producer Responsibility (CAP-EPR) was adopted in Canada in 2009 under the guidance of the Canadian Council of Ministers of the Environment.[51] The CAP-EPR followed years of waste and recycling efforts in Canada that remained largely ineffective as the diversion rates from landfills and incineration persisted. Despite three decades worth of recycling efforts, Canada fell short of many other G8 and OECD countries.[51] Since the CAP-EPR's 2009 inception, most provinces have enforced legislation or restrictions on a wider range of products and materials under EPR programs. "Nine out of ten provinces have [since implemented] EPR programs or [put] requirements in place… As a result of these new programs or requirements and expansion of existing ones, almost half of the product categories for Phase 1 are now covered by legislated EPR programs or requirements across Canada."[52]
In Russia, EPR was launched in 2015 but financing of waste management facilities still largely relies on taxes paid by the Russian population. In 2022, all packaging was supposed to be recycled or else products from companies not respecting the regulation would have been withdrawn from shelves. But the country postponed the reform as several ministers found it unfeasible.[53]
In the United Kingdom an extended producer responsibility system is going to be implemented over the coming years. The government has already shared guidance with those most affected. The core issue is with identifying a way to encourage polluters to take on the responsibility rather than pass on the cost to suppliers or end consumers[54]
In India, the E-Waste (Management and Handling) Rules, 2011 introduced the concept of EPR for the first time, while the E-Waste (Management) Rules, 2016 brought more stringent targets for collection of end-of-life products and simplified the process of applying for EPR authorization. In 2016, government expanded the EPR approach to tackle plastic waste through the Plastic Waste Management Rules, 2016 [55] In Indian system the trading mechanism is similar to the carbon trading mechanism, where EPR certificates, are generated and traded further between the producers and brand owners.[16]
In Austria, since January 1, 2023, a polluter-pays principle has been introduced. Thus, the costs of recycling are paid by the companies that produce it.
In Indian system the trading mechanism is similar to the carbon trading mechanism, where EPR certificates, are generated and traded further between the producers and brand owners.
Results
In Germany, since the adoption of EPR, "between 1991 and 1998, the per capita consumption of packaging was reduced from 94.7 kg to 82 kg, resulting in a reduction of 13.4%".[56] Furthermore, due to Germany's influence in EPR, the "European Commission developed one waste directive" for all of member states (Hanisch 2000). One major goal was to have all member states recycle "25% of all packaging material"[56] and have accomplished the goal.
In the United States, EPR is gaining popularity "with 40 such laws enacted since 2008. In 2010 alone, 38 such EPR bills were introduced in state legislatures across the United States, and 12 were signed into law."[57] However, these laws are only at the state level as there are no federal laws for EPR. So far, "only a handful of states have imposed five to six EPR laws as well as 32 states having at least one EPR law".[57]
From 2022, if the product is sold in France or Germany, Marketplaces must confirm that the manufacturer complies with the Extended Producer Responsibility (EPR) rules in the country where it sells the product.
See also
- Takeback, when sellers or manufacturers accept returns of products at the end of their lives
- Life-cycle assessment
- Environmental justice
- Personal carbon allowance
References
- OECD (2001). Extended Producer Responsibility: A Guidance Manual for Governments. Paris: OECD Publications Service. doi:10.1787/9789264189867-en. ISBN 9789264189867.
- Johnson, Michael R.; McCarthy, Ian P. (2014-10-01). "Product recovery decisions within the context of Extended Producer Responsibility". Journal of Engineering and Technology Management. Engineering and Technology Management for Sustainable Business Development. 34: 9–28. doi:10.1016/j.jengtecman.2013.11.002.
- Nakajima, N., & Vanderburg, W. H. (2006). A description and analysis of the German packaging take-back system. Bulletin of Science, Technology, & Society, 6:6.
- Thomas Lindhqvist and Karl Lidgren, "Models for Extended Producer Responsibility" in Sweden, October 1990.
- Thomas Lindhqvist, "Towards an [EPR]- analysis of experiences and proposals," April 1992.
- "Extended Producer Responsibility". Waste to Wealth. Archived from the original on 2012-03-10.
- "Producer Responsibility Recycling". Sierra Club. Archived from the original on 2008-12-01. Retrieved May 1, 2009.
- Hanisch, C. (2000). Is Extended Producer Responsibility Effective?. Environ Sci Technol, 34 (7), pp.170 A-175 A.
- Tasaki, Tomohiro; Tojo, Naoko; Lindhqvist, Thomas (2015). International Survey on Stakeholders' Perception of the Concept of Extended Producer Responsibility and Product Stewardship.
- Tasaki, Tomohiro; Tojo, Naoko; Lindhqvist, Thomas (2019). "Differences in Perception of Extended Producer Responsibility and Product Stewardship among Stakeholders: An International Questionnaire Survey and Statistical Analysis". Journal of Industrial Ecology. 23 (2): 438–451. doi:10.1111/jiec.12815. S2CID 158692316.
- "PRO EUROPE is the umbrella organisation for European packaging and packaging waste recovery and recycling schemes". www.pro-e.org. Archived from the original on 2021-01-28. Retrieved 2021-01-21.
- OECD (2016). Extended Producer Responsibility: Updated Guidance for Efficient Waste Management. Paris: OECD Publishing. doi:10.1787/9789264256385-en. ISBN 9789264256293.
- James Sallzman, Sustainable Consumption and the Law, 27ENVTL. L. 1274 (1997)
- Linda Roeder, Hazardous Waste: Advocacy Group Recommendations Promote Manufacturer Responsibility, DAILY ENV”T REP., March 16, 2004
- Directive 2002/96/EC of 27 January 2003 on Waste Electrical and Electronic Equipment (WEEE), 203 O.J. (l 37) 46
- "Extended Producer Responsibility An examination of its impact on innovation and greening products" (PDF). Archived (PDF) from the original on 2017-08-29. Retrieved 2016-11-17.
- "Proceedings - Extended Product Responsibility". clinton2.nara.gov. Archived from the original on 2017-02-04. Retrieved 2016-11-17.
- Toffel, Michael W.; Stein, Antoinette; Lee, Katharine L. (2008-01-01). "Extending Producer Responsibility: An Evaluation Framework for Product Take-Back Policies". Harvard Business School Working Papers. Harvard Business School. Archived from the original on 2019-02-21. Retrieved 2016-11-17.
- "Public Policy Approaches for the Reduction of Plastic Bag Marine Debris" (PDF). Archived from the original (PDF) on June 24, 2016. Retrieved November 16, 2016.
- Reagan, Robert (March 15, 2015). "A Comparison of E-Waste Extended Producer Responsibility Laws in the European Union and China". Vermont Journal of Environmental Law. 16 (4): 662–687. doi:10.2307/vermjenvilaw.16.4.662. JSTOR vermjenvilaw.16.4.662.
- "Manufacturer Takeback Programs". Electronics Takeback Coalition. Archived from the original on 5 June 2012. Retrieved 6 June 2012.
- "Ten Lessons Learned from State E-Waste Laws" (PDF). Electronics TakeBack Coalition. Archived (PDF) from the original on 2021-03-23. Retrieved 2016-05-23.
- "Map of State EPR Laws". Product Stewardship Institute. May 2016. Archived from the original on 2016-06-23. Retrieved 2016-05-23.
- Toothman, Jessika (4 June 2008). "How E-waste Works". How Stuff Works. Archived from the original on 2016-06-01. Retrieved 2016-05-23.
- Nuwer, Rachel (February 28, 2014). "Eight Million Tons of Illegal E-Waste is Smuggled into China Each Year". Smithsonian. Archived from the original on May 21, 2016. Retrieved May 23, 2016.
- Zhong, Hua; Zhao, Chen (2012-07-30). "E-waste Deposit system under EPR in China: A view from closed-loop supply chain". Icsssm12. pp. 239–243. doi:10.1109/ICSSSM.2012.6252228. ISBN 978-1-4577-2025-3. S2CID 31799448.
- "Basic Information | Product Stewardship | US EPA". Archived from the original on 2010-08-06. Retrieved 2010-05-27.
- "Reason Foundation Commentary: E-Waste Politics". Archived from the original on 2007-08-12. Retrieved 2010-05-27.
- "EPR Working Group". Archived from the original on 2009-11-25. Retrieved 2010-05-27.
- Prakash, Bhavani. "The Light Bulb Conspiracy: The Story of Planned Obsolescence". Eco Walk the Talk. Archived from the original on 30 January 2012. Retrieved 6 June 2012.
- "Annie Leonard interview & "Story of Electronics" release". Nourish the Spirit. Archived from the original on 9 May 2013. Retrieved 6 June 2012.
- "Building capacity for EPR in the US". Waste Today. Archived from the original on 2019-12-08. Retrieved 2020-03-02.
- "Could the Chinese National Sword inspire global recycling innovation?". recycling.tomra.com. 6 July 2018. Archived from the original on 2020-03-02. Retrieved 2020-03-02.
- Lindhqvist, Thomas (2000). Extended Producer Responsibility in Cleaner Production: Policy Principle to Promote Environmental Improvements of Product Systems (Thesis). Lund University. Archived from the original on 2020-03-02. Retrieved 2020-03-02.
- "Why do CRT monitors contain lead?". How Stuff Works. 12 July 2001. Archived from the original on 3 May 2012. Retrieved 6 June 2012.
- Rivera, Ray (15 February 2008). "Mayor Calls Electronics Recycling Bill 'Illegal'". City Room. The New York Times. Archived from the original on 19 April 2012. Retrieved 6 June 2012.
- Gattuso, Dana, and Joel Schwartz. "Extended Producer Responsibility." Reason Foundation. Reason Foundation, 1 June 2002. Web. 5 May 2015.
- Schwartz, Joel (June 1, 2002). "Extended Producer Responsibility". Reason Foundation. The Reason Foundation. Archived from the original on August 4, 2016. Retrieved May 23, 2016.
- Harvey, Fiona (12 January 2023). "Fossil fuel producers must be forced to 'take back' carbon, say scientists". The Guardian. Archived from the original on 17 February 2023. Retrieved 17 February 2023.
- Jenkins, Stuart; Kuijper, Margriet; Helferty, Hugh; Girardin, Cécile; Allen, Myles (1 January 2023). "Extended producer responsibility for fossil fuels". Environmental Research Letters. 18 (1): 011005. Bibcode:2023ERL....18a1005J. doi:10.1088/1748-9326/aca4e8. ISSN 1748-9326.
- World Business Council on Sustainable Development a World Resources Institute (2001). The Greenhouse Gas Protocol. Conches-Geneva, Switzerland.
- Spangenberg, J. H. and S. Lorek (2002). Environmentally sustainable household consumption: from aggregate environmental pressures to priority fields of action. Ecological Economics, 43, pp. 127-140.
- Princen, T. (1999). Consumption and environment: some conceptual issues. Ecological Economics, 31, pp. 347-363.
- Munksgaard, J. and K. A. Pedersen (2001). CO2 accounts for open economies: producer or consumer responsibility. Energy Policy, 29, pp. 327-334.
- Danish Environmental Protection Agency (1998). Denmark's Second National Communication on Climate Change submitted under the UN FCCC. Danish Ministry of Environment and Energy Archived 2009-09-08 at the Wayback Machine
- Cerin, P. and L. Karlson (2002). Business incentives for sustainability: a property rights approach. Ecological Economics, 40, pp. 13-22.
- Cerin, P. (2005) Environmental Strategies in Industry: Turning Business Incentives into Sustainability. Report 5455. Swedish Environmental Protection Agency.
- Organization for Economic Co-operation and Development 2001, p. 21-22
- Environment Protection Authority New South Wales 2003, p. 2-4
- Gallego, B. and M. Lenzen (2005). A consistent input-output formulation of shared producer and consumer responsibility. Economic Systems Research, 17(4), pp. 365-391.
- "Canada-Wide Action Plan for Extended Producer Responsibility" (PDF). Canadian Council of Ministers of the Environment. October 2009. Archived (PDF) from the original on March 6, 2018. Retrieved February 20, 2018.
- "Progress Report on the Canada-Wide Action Plan for Extender Producer Responsibility" (PDF). Canadian Council of Ministers of the Environment. 2014. Retrieved February 21, 2018.
- "Russia postpones recycling and waste management reform". 10 December 2021.
- "Packaging waste: prepare for extended producer responsibility". GOV.UK. Retrieved 2022-07-11.
- "Extended Producer Responsibility Rule in India". ascgroup.in. Retrieved 2023-08-01.
- Hanisch, Carola. "Is Extended Producer Responsibility Effective?" Environmental Science & Technology 34.7 (2000): 170A-75A. Web.
- Nash, Jennifer, and Christopher Bosso. "Extended Producer Responsibility in the United States." Journal of Industrial Ecology 17.2 (2013): 175-85. Web.
Further reading
- Ogushi, Yasuhiko; Milind Kandlikar (2007). "Assessing Extended Producer Responsibility Laws in Japan". Environmental Science & Technology. 41 (13): 4502–4508. Bibcode:2007EnST...41.4502O. doi:10.1021/es072561x. ISSN 0013-936X. PMID 17695888.
- Fishbein, Bette; Ehrenfeld, John; Young, John (June 2000). Extended Producer Responsibility: A Materials Policy for the 21st Century. ISBN 978-0-918780-73-7. Archived from the original on 2013-05-03. Retrieved 2007-05-08.
- Lenzen, M; J Murray; F Sack; T Wiedmann (2007). "Shared producer and consumer responsibility — Theory and practice" (PDF). Ecological Economics. 61 (1): 27–42. doi:10.1016/j.ecolecon.2006.05.018. ISSN 0921-8009.
- SAIC, Evaluation of Extended Producer Responsibility for Consumer Packaging, published by the Grocery Manufacturers Association (US), September 2012.
- Sheehan, Bill; Spiegelman, Helen, Extended producer responsibility policies in the United States and Canada: history and status in Scheer, Dirk; Frieder Rubik (2006). Governance of integrated product policy: in search of sustainable production and consumption. Greenleaf Publishing. ISBN 9781874719328.