Trends in France for achieving the Agenda 2030 sustainable development goals (SDG)

SDG12 – Ensure sustainable consumption and production patterns

Hazardous waste treated
Change*Latest value**Trend for achieving the SDG by 2030

+8 points from 2014 to 2018

YearValue
201470,50
201665,10
201878,50
78.5%
Favourable

The generation of hazardous waste decreased from 12.1 million tonnes (Mt) in 2018 to 11.2 Mt in 2020, representing 3.6% of the total waste generated in France. This is due in part to the slowdown in economic activity in 2020. Four sectors account for nearly 80% of the hazardous waste produced: water production and distribution, sanitation, the waste management and remediation sector; construction; the chemical industry; and the tertiary sector. A total of 310 Mt of waste was generated in France in 2020, a decrease of 9.7% compared to 2018. Of this total, mineral waste accounted for 66%, other non-hazardous waste made up 30% and hazardous waste 4%. Households produce little hazardous waste, mainly consisting of end-of-life vehicles and waste from electrical and electronic equipment.


Jobs in the circular economy
Change*Latest value**Trend for achieving the SDG by 2030

+6.7% from 2013 to 2018

YearValue
20131 141 000,00
20141 141 000,00
20151 148 000,00
20161 156 000,00
20171 190 000,00
20181 217 000,00
1,217,000 FTE
Favourable

In 2017, recycling and repair provided 455,600 jobs (number of persons employed regardless of working time), representing 1.6% of total jobs in France. With 370,000 jobs, “product life extension” accounted for four fifths of the total, while “recycling” provided for 85,000 jobs. Among the sectors contributing to product life extension, automotive maintenance and repair is by far that with the most jobs, employing 168,000 people, or 45% of the total. There were 40,500 jobs in the machine repair sector, and 30,500 in computer repair. Further downstream, the sale of second-hand goods in stores accounted for 14,600 jobs, representing 1.6% of jobs in retail sale in non-specialized stores excluding food retail (also excluding fuel and pharmaceutical products). In the “recycling” category, recovering materials from waste streams provided a little over 53,000 jobs, while the rest were generated by waste collection (nearly 30,000 jobs) and shipbreaking and dismantling services (2,000 jobs).


Regional industrial ecology projects
Change*Latest value**Trend for achieving the SDG by 2030

+37% from 2015 to 2019

YearValue
201570,00
201996,00
96
Favourable

According to SYNAPSE, the national network of players in regional industrial ecology (ITE), there were 152 active industrial and territorial ecology initiatives in August 2020, of which two thirds had been launched during the preceding three years. All regions are now implementing at least one initiative of this kind. This approach can involve two types of synergies: • pooling synergies, in order to rationalize the use of resources, such as equipment (sharing between multiple companies to encourage use rather than ownership), services and transport (waste management, ridesharing, security, etc.), joint procurement and training. • substitution synergies, allowing the by-products of one company to be used as inputs for another through the exchange of flows, including water and heat (reuse of wastewater, heat recovery, etc.), energy (biogas reinjection, local electricity self-consumption) and waste (recovery of by-products and effluents).


Domestic material consumption per capita
Change*Latest value**Trend for achieving the SDG by 2030

-3.3% from 2013 to 2018

YearValue
201312,00
201411,70
201511,10
201610,90
201711,70
201811,60
11.6 tonnes
Moderately favourable

Between 2007 and 2018, domestic consumption of materials per capita decreased by 19%, from 14.3 to 11.6 tonnes per capita. Construction materials, in particular those used in public infrastructure works, contributed in large part to this drop; they represent nearly half of the total materials consumed in France and their consumption declined in the wake of the 2008 economic crisis. Domestic materials consumption quantitatively illustrates one of the pressures exerted on the environment, and is a reflection on the level of resource-efficient behaviour. Among the materials in the categories used, some are renewable (biomass). Others are not, namely minerals (metal ores and non-metallic minerals) and fossil energy materials (water is not included in this indicator). At 398 million tonnes (Mt), minerals, primarily used in construction, made up half of the materials consumed in France in 2018 (774 Mt in total). Biomass (253 Mt in 2018) accounted for nearly a third. Fossil energy materials, of which two thirds were petroleum products, came close to 16% of the total. In addition to changes in activity in the construction industry, fluctuations in agricultural production have also made a significant impact on the trend in materials consumption since 2013.


Material footprint per capita
Change*Latest value**Trend for achieving the SDG by 2030

-0.7% from 2013 to 2018

YearValue
201314,00
201413,80
201513,00
201613,00
201714,00
201813,90
13.9 tonnes
Moderately favourable

Estimated at 16 tonnes per capita in 2008, France’s material footprint stood at around 14 tonnes per capita from 2009 to 2014. It then fell before rising again to its previous level (14 t per capita in 2017 and 13.9 t per capita in 2018). Fossil energy materials and metal ores, of which very low quantities are extracted in France (0.2% of domestic extraction), are essentially imported, unlike biomass and non-metallic minerals. When the quantities of these materials are expressed in raw material equivalent, which accounts for indirect flows (for example, fuel used to produce imported steel), total imports appear 2.6 times higher. This makes for a greater material footprint, which is higher than apparent domestic material consumption by approximately 20%. The 2008 financial crisis particularly impacted the construction sector, leading to a fall in the use of non-metallic minerals (such as gravel, sand and aggregates). The breakdown of the material footprint by main material categories remained relatively stable over the period, however construction materials continued to account for a great portion, representing nearly half of the materials consumed, while biomass accounted for around a quarter, fossil energy materials for a fifth and metal ores for 10%.


Hazardous and non-hazardous waste treated
Change*Latest value**Trend for achieving the SDG by 2030

+2.4 points from 2014 to 2018

YearValue
201492,40
201694,10
201894,80
94.8%
Moderately favourable

In 2018, 343 million tonnes of waste were generated, or 5.1 tonnes per capita, which corresponds to the average in the European Union. Mineral waste accounted for nearly 69% of this total, other non-hazardous waste made up 28% and hazardous waste 3%. The French Energy Transition for Green Growth Act set the targets of recycling 65% of non-hazardous waste and reducing the amount sent to landfills by 50% by 2025, and the materials recovery of this waste is at 53%. The 2021-2027 National Waste Prevention Plan updates planning measures for waste prevention with regard to the reforms undertaken since 2017 to promote the circular economy (in particular the Circular Economy Roadmap of April 2018 and the Anti-Waste and Circular Economy Act of 10 February 2020). Due to the COVID-19 pandemic and the economic shutdown, all economic sectors saw a reduction in their waste generation, primarily in industry (-24%), construction (-11%), which is responsible for 69% of waste, and the water and waste treatment sector (-8%). Households were the only source of increased waste generation (+13%), due to the lockdowns and widespread teleworking.


Food loss and waste per capita
Change*Latest value**Trend for achieving the SDG by 2030

Single value in 2015

YearValue
2015150,00
150 kg
Not assessable

According to 2020 food waste data, reported to Eurostat for the first time in 2022 (based on the definition of food waste set out in the SDGs), food waste in France is estimated to have decreased by 10% between 2016 and 2020, down from 10 Mt in 2016 to slightly under 9 Mt in 2020 (133 kg per capita, all sectors combined). Substantial decreases were observed in the food services and retail sectors, while a significant rise was seen in the manufacturing sector (agri-food industries). These data should be interpreted with caution, both due to the imperfect nature of the data collection method, and to the year concerned by this reporting, 2020, a period in which the public health crisis severely disrupted the functioning of the food supply chain, from production to the consumer level. The Anti-Waste and Circular Economy Act of 10 February 2020 set the goal of reducing food waste by 50% in the retail and food services sectors by 2025, compared to 2015 levels, as well as reducing food waste by 50% at the consumer level and in production, processing and commercial catering by 2030, compared to 2015.


Source: INSEE, Dashboard of national indicators for monitoring the Sustainable Development Goals – published January 2022. Statistics processed by SDES (ministerial Statistical Data and Studies Department) - Only available in French. (Insee, Tableau de bord des indicateurs pour le suivi national des objectifs de développement durable - paru en janvier 2022. Traitements SDES)

*Change: since the latest available value, change over a period of 5 years (longer or shorter depending on data availability).

**Latest value: value corresponding to the last year of the trend graph.

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