In Japan, policies related to implementing a CE are centred around the concept of a "Sound Material-Cycle Society", first enacted by the Basic Act for Establishing a Sound-Material Cycle Society in 2000. In 2003 the Japanese government adopted its Fundamental Plan for Establishing a Sound Material-Cycle Society, which is reviewed and revised every five years by the Ministry of Environment Japan (MOEJ). The Fundamental Plan and its targets were last revised in 2018 (MOEJ, 2018[38]; Bangert, 2020[39]).

The development of the Plan was motivated by Japan’s high rate of waste generation, limited availability of land space for waste disposal, increasing public demand for recycling, supply security concerns of raw materials and Japan’s heavy import reliance. The plan is aligned with Japan’s waste and recycling policies, and aims to provide comprehensive measures for materials management, including upstream consumption and downstream waste management and recycling measures (Geng et al., 2012[40]).

The Plan for Establishing a Sound Material-Cycle Society is supported with quantitative time-bound targets and performance indicators. Stakeholders are asked to contribute to their achievement. The targets and the associated indicators are used to monitor progress, assess each stakeholder’s efforts and encourage further action. The Plan includes targets on resource productivity, cyclical use rate (defined at the level of resources and of waste), and on landfilled waste (MOEJ, 2018[41]). The targets are monitored by a framework consisting of a set of 151 indicators, with four headline indicators. The FY2025 targets set in the 4^th Plan for the four headline indicators are:

• Resource Productivity [GDP/Input of natural resources]: 490,000 JPY / ton (approximately double from FY2000)

• Cyclical use rate [amount of cyclical use/(amount of cyclical use + input of natural resources)]: 18% (approximately 80% increase from FY2000)

• Cyclical use rate (waste base) [amount of cyclical use / generation of waste]: 47% (approximately 30% increase from FY2000)

• Final disposal [amount of waste destined for landfills]: 13 million tonnes: 77% decrease from FY2000)

Supplementary indicators refer to different elements of the transition process and societal efforts towards realising a CE and track various elements of material input (material consumption), circularity (recycling rates), material output (waste generation), efforts on regional level, household behaviour, consumer awareness (e.g. through survey results), business operations (e.g. market size of circular business models) and actions in the public sector (e.g. public procurement) (MOEJ, 2018[41]; EASAC, 2016[42]) (Table ‎B.1). Indicator scores are updated yearly and available starting from 2000. The indicators are published in the Annual report on the Environment, the Sound Material-Cycle Society and Biodiversity in Japan, and progress reports are being emitted regularly (MOEJ, 2010[43]; MOEJ, 2013[44]; MOEJ, 2018[38]).

The focus of the Fundamental Plan appears to be predominantly on domestic environmental and economic issues related to materials. With the circular use rate as one of the headline targets, the “circular economy” is also partially framed as a goal in itself, as opposed to a means to obtaining other goals. The transition process and the broader effects on the environment, economy and society are less visible within the framework and only covered to some extent in the supplementary indicators. For instance, emissions are only covered to the extent that these occur from waste management. Currently, transboundary issues related to material consumption and impacts are not considered in the framework, but the development of such indicators has been announced (MOEJ, 2018[41]). The lead indicator on resource productivity is based on Direct Material Inputs, not subtracting exports. However, data on Domestic Material Consumption and absolute material flows are available in other parts of the monitoring framework and there are discussions to compute the material footprint indicator, once a methodology has been established (MOEJ, 2018[41]).

Since 2008 the Circular Economy Promotion Law drives the transition towards a CE in China. The associated monitoring comprises two separate indicator sets: one that helps to monitor progress on national and regional levels, and one that applies to industrial parks. The indicator sets provide guidance to CE development planning (Geng et al., 2012[40]).

The indicator set for national and regional analysis contains 22 indicators, categorised into four main themes. The theme “resource output rate” tracks outputs of main mineral resources and of energy. The theme “resource consumption rate” focuses on energy and water consumption divided by three denominators: Gross Domestic Product, added value and the amount of produced materials. The theme “resource utilisation” focuses on recycling of different material streams including metals, paper, plastics and wastewater and the theme “waste disposal and pollutant emissions", includes indicators on waste sent to landfill, wastewater discharges and emissions air (Geng et al., 2012[40]).

The indicator set for industrial parks contains 12 indicators, categorised into the same four main themes. The indicator set is similar, but provides additional information on water and energy consumption per unit of key product.

While the two indicator sets cover a variety of aspects of a CE, the monitoring framework has some limitations, notably (Geng et al., 2012[40]):

• Consumption indicators are only included as efficiency indicators (divided by GDP or per unit of output produced). This reflects progress to a more resource efficient economy, but it hides overall material consumption.

• Waste indicators only indicate the amount of waste destined for disposal, but not the overall amount of waste generated. Similarly, recycling rates are only available for specific waste streams, but no overall recycling rate.

• The indicator set focuses largely on environmental impacts but is lacking indicators on social implications. It also lacks indicators on business activities, circular business models and the higher Rs more generally.

• There is no consideration of value chains outside the country territory and impacts embedded in imports or exports.

• Indicators on environmental implications refer to wastewater discharges emissions of SO2 and chemical oxygen demand. Greenhouse gas emissions are not included but appear to be retrievable beyond this indicator set at the Department for Climate Change Response. Several other ecological indicators appear to be available at the Ministry of Environmental Protection with a city focus, which could also complement this framework.

• No information is available on targets associated with the indicators, nor on follow-up progress assessments or revisions of the indicator set.

The French framework for monitoring the circular economy was first published in 2017, comprising 11 indicators (Magnier, 2017[45]). It was updated and revised in 2021 (Scribe et al., 2021[46]). It was inspired by the emerging publications on the CE of the European Commission and is designed to benchmark France’s performance against other European countries. Many indicators are available on EU28 level.

France uses a measurement framework and indicators that cover the following dimensions of a CE transition: the supply side (sustainable extraction and manufacturing, eco-design, industrial ecology, employment), the demand side (consumer behaviour, sharing economy initiatives), product management aspects (second-hand, repair, reuse) and waste management aspects (waste prevention, recycling). Eleven indicators within seven pillars are used to report on the circularity of the French economy (Table ‎B.4).

The indicator scoreboard marks individual indicators in colours, depending on the extent to which the indicator score evolves in the desirable direction. Two of the indicators are connected to national CE targets (i.e. resource productivity and waste sent to landfill) (Scribe et al., 2021[46]).

Overall, the indicator set has a strong focus on the material consumption aspect. Indicators on environmental implications are not considered. With regards to recycling, the use of secondary raw materials is monitored, but not the recycling rate in itself. The indicator list includes several indicators on the higher Rs, such as jobs in repair and household spending on repair and maintenance services. Also eco-design aspects are considered. Whilst the monitoring framework covers a diverse set of indicators, the diversity of individual indicators makes it challenging to compare progress and trends of individual indicators. Also, several data limitations are acknowledged for some of the chosen indicators, which have been partially improved in the 2021 revision (Scribe et al., 2021[46]).

The Dutch Environmental Assessment Agency and Statistics Netherlands (CBS), together with a consortium of Dutch governmental and knowledge institutions developed a monitoring framework for the Netherlands in 2018 (Potting et al., 2017[5]). The framework was developed to track progress towards Dutch circular economy targets to reduce abiotic resource use by 50% by 2030 and to be completely circular by 2050.

The monitor considers the CE transition in a broad sense by clearly separating the different phases of the transition into input, throughput, output and outcome phases. It also focuses on five priority sectors, which were selected based on economic importance and high environmental burden: 1) biomass and food, 2) plastics, 3) manufacturing industry, 4) construction and 5) consumer goods.

Lead indicators in the Dutch monitoring framework comprise direct and indirect material use and consumption, environmental effects (land use, water extraction, residence-based and footprint emissions), socio-economic effects (economic growth, employment aspects of the CE transition, added value and self-sufficiency), waste and recycling. Renewable energy is also included. The monitor contains the size of the economy and employment as so-called autonomous factors as a way to avoid misinterpretations of changes in indicator values that may be due to broader tendencies rather than progress within the CE transition. Next, the monitor displays data on the transition process by listing and counting an elaborated amount of policy and stakeholder actions and realizations supporting the transition. The monitor additionally contains a Sankey diagram for the Netherlands and furthermore displays indicators disaggregated for five key sectors for which a dedicated transition agreement had been obtained from the government before the development of the monitor. Progress reporting is foreseen biennially, with the first progress report published in 2021 (Hanemaaijer et al., 2021[47]). Shorter focused updates are also published more frequently (Prins and Hanemaaijer, 2022[48]).

The monitor framework is quite comprehensive in terms of scope and selection of indicators. It covers direct and indirect material use, presents absolute indicators besides efficiency indicators and provides GDP and population as context indicators. The framework contains indicators on the broader environmental and socio-economic effects of the transition. It also presents information on the transition process, with the aim to provide a more direct feedback to policy, but given the premature state of development of indicators on this matter the information is qualitative. Interestingly, the Direct Material Consumption indicator is only indirectly displayed in the material productivity indicator. Whilst the framework seems to cover most aspects of the CE transition, gaps remain in terms of data availability for some of the indicators.

Under Colombia’s Sustainability Pact of the National Development Plan 2018-2022, the National Administrative Department of Statistics (DANE) developed a Circular Economy Information System as a strategic pillar of the National Circular Economy Strategy. The system built on environmental statistics that have been created from 2017 (UNECE, 2021[49]).

The monitoring framework comprises 44 indicators, classified into themes along the material cycle: extraction, production, consumption and use, and closing cycles. Particular focus among the indicators is on mineral reserves and extraction, forestry products, water, energy, waste, greenhouse gas emissions, employment, government spending, added value and waste. A number of indicators are available both as absolute numbers and as intensity values, e.g. indicators on forestry products, water, energy and emissions. Follow-up on the indicator scores has taken place with the publication of, so far, five Circular Economy Reports, focusing on the state and opportunities for Colombia to transition towards more circular production and consumption (DANE, 2022[50]).

In the Colombian indicator set, water and energy are considered as an implicit part of a CE. The dedicated inclusion of forestry products as an individual indictor relates to the importance of this raw material in the Colombian country. A comprehensive material flow analysis is currently not included in the work; but sectoral Sankey diagram were included for energy carriers and their use, carbon emissions, water abstraction and waste generation and fate (DANE, 2022[50]). The key materials that the monitoring framework focuses on are energy carriers, water and forestry products. Data on other materials are largely absent in the reports. As such, the transition process is only limited covered.

The Flanders Region in Belgium has developed a monitoring tool that focuses on the outputs and outcomes of a CE, with indicators on environmental outcomes (e.g. climate impacts), economic outcomes (e.g. access to materials), societal outcomes (e.g. jobs). The tool includes indicators on product chains, footprint indicators (material and carbon), and indicators that link the CE transition to planetary boundaries, as well as indicators on societal and economic drivers (e.g. mobility, housing, food habits, consumption goods).

Flanders’ monitor was published in 2021 as a result of a five-year academic research project dedicated to provide the Flemish government of Belgium with a tool to monitor its transition towards a more circular economy (Circular Flanders, 2022[51]). Since 2017 the Flemish government maintains a long-term policy agenda called Vision 2050 in which the CE transition is considered one of the seven societal transition themes and in which a dedicated public-private cooperation has been installed named Circular Flanders. The process of building the monitor included academic research combined with elaborate stakeholder discussions (Alaerts et al., 2019[52]).

The framework displays a total of about 140 indicators.

• About 25 indicators constitute a top layer of macro indicators that represent the CE transition as a means to reach broader sustainability goals. It includes a separate section for ‘circularity’ comprising inflows, R-strategies and outflows, and broader environmental and socio-economic effects. The indicators cover among others Direct and Raw Material Input, Domestic and Raw Material Consumption, water consumption, waste generation, recycling, cyclical material use, an in-house developed reuse indicator, residence-based and indirect emissions, spatial occupation, employment in CE and employment in reuse shops. Indicators about the transition process are almost absent.

• More specific indicators on four systems that fulfil societal needs, including (i) mobility, (ii) buildings and housing, (iii) nutrition, and (iv) consumer goods are available down to the product group level with the aim to provide a more direct feedback to policy. A few of these indicators refer to the transition process, e.g. the amount of car sharing memberships or the number of renovations.

The overall indicator set is available online and will be further maintained and developed in the coming years by the research consortium. In 2019, the Flemish government announced several headline targets for the CE transition, notably on household waste reduction, recycling and a 30% reduction of the material footprint. These targets link to the respective indicators in the monitoring framework.

In January 2018, the European Commission adopted the first EU monitoring framework for the circular economy developed as part of its 2015 EU Circular Economy Action Plan. It included a set of key indicators to track progress in the EU and in Member States (Mayer et al., 2018[53]). Most indicators were retrieved from existing EU monitoring frameworks, including the Resource Efficiency Scoreboard, the Raw Materials Scoreboard and the Waste Framework Directive (Moraga et al., 2019[54]). In May 2023, the European Commission published a revised monitoring framework for the circular economy (European Commission, 2023[16]). The monitoring framework is maintained by Eurostat and available online.

The 2018 framework included ten indicator themes and 24 indicators grouped into 4 thematic sections: (1) production and consumption, including self-sufficiency for raw materials, Green Public Procurement, Waste generation, Food waste; (2) waste management featuring a range of recycling indicators; (3) secondary raw materials, including End-of-life recycling input rates, Cyclical material use rate, imports, exports and trade of recyclable raw materials: and (4) competitiveness and innovation, including investments, employment, value added and patents.

The 2023 monitoring framework includes 11 indicators, some of which have sub-indicators, grouped into five thematic sections: (1) production and consumption; (2) waste management; (3) secondary raw materials; (4) competitiveness and innovation; and (5) global sustainability and resilience (Table ‎B.9).

The framework provides a holistic view as it measures direct and indirect benefits of “becoming circular”; values the contribution of a CE in living well within the limits of the planet; and addresses energy and material supply risks. It has a strong focus on material circularity and on waste and recycling aspects. Other aspects of the CE transition, such as the link with climate and other environmental impacts are largely covered by other monitoring frameworks1. The intent was to keep the framework concise and to minimise additional burden on national administrations.

The following indicators have been added in the 2023 revision:

• Material footprint, measuring the overall use of materials and reflecting the amount of materials embedded in overall consumption, including imported goods;

• Resource productivity, measuring the amount of GDP from materials use and demonstrating the efficiency in using materials in the production of goods and services;

• Consumption footprint, comparing consumption to the planetary boundaries for 16 impact categories based on a life-cycle assessment and 5 main areas of consumption (food, mobility, housing, households goods and appliances);

• GHG emissions from production activities, measuring the GHG emissions produced by production sectors (i.e. excluding emissions from households) and reflecting the contribution of the CE to climate neutrality;

• Material dependency, measuring the share of imported materials in overall material use, describing how much the EU depends on imports of materials and reflects the contribution of the CE to security of supply of materials and energy and to the EU’s open strategic autonomy.

All indicators meet the criteria of relevance, acceptance, credibility, ease of use and robustness. They were selected to capture the main elements of a CE. Communication around the monitoring framework also features an interactive material flow diagram for the European Union as a whole (Sankey diagram) and other visualisation tools with up-to-date data. In areas where policy targets exist, the indicators are used monitor progress towards achieving these targets.

Most indicators are based on official statistics sourced by Eurostat; a few use data from the research community. They are available at the level of the European Union, as well as for individual member states and updated annually. For some indicators, data are only available for the EU as a whole. The framework includes indicators for which data gathering is still in progress (e.g. Food Waste), where robust data and methodologies still need to be developed (e.g. Green Public Procurement or indicators in the competitiveness and innovation category). With respect to the latter, the documentation mentions the issue that economic statistics are based on industrial sectors, impairing a proper definition of the CE in terms of employment (NACE codes) or innovation (patent statistics). Patent statistics also have the limitation that they do not cover all innovation taking place, but only certain types. When appropriate, the Commission works with the relevant stakeholders to investigate the use of new data sources to improve measurement.