copy the linklink copied!Chapter 5. Chemicals management

5.2.1. Chemical production and use

In 2016, the Danish chemical industry accounted for about 1% of the EU market. It consisted of 245 chemical companies with 11 400 employees and total turnover of EUR 5.5 billion. Danish companies’ share of research and development within the EU chemical industry is higher at EUR 670 million or 3% (CEFIC, 2018[1]). Investment in the broad chemical sector (including pharmaceuticals, oil refining, rubber and plastic products and non-metallic mineral products) almost doubled in 2010 prices between 2007 and 2015. The chemical industry is largely export oriented: some 65% of production is exported and the broad chemical sector is the country’s second largest export sector, after machinery and transport equipment. The Danish share in beyond-EU exports placed it at ninth place in 2017. The value of sales of chemicals and pharmaceuticals increased between 2007 and 2018 by over 90%, with the pharmaceutical sector as the main driver (Figure 5.1). The import and export of chemicals have shown fairly stable growth (except in 2009). Denmark is a net exporter of some chemicals (e.g. organic chemicals, chemical materials and products) and a net importer of others (e.g. inorganic chemicals, primary plastics) (Denmark, 2018[2]; Eurostat, 2018[3]).

Data from the national product registry, which covers not only manufacturers but also users of chemicals, show that the number of companies issuing chemical product notifications, the number of substances and products and total tonnage in 2015 did not differ substantially from 2005 (Denmark, 2018[2]).

Sales of pesticides and biocides (in tonnes/year) generally decreased by about 12% between 2007 and 2016 due to actions by the authorities to limit their use. A tax on pesticides introduced in 2013 resulted in stockpiling of certain pesticides and lower-than-usual sales in the following years. The lower sales may not be indicative of lower use over the short term (Ørum and Holtze, 2017[4]; Denmark, 2018[2]).

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Figure 5.1. A pharmaceuticals boom stimulated growth in the chemical sector

 StatLink https://doi.org/10.1787/888934002433

Chemical facilities are spread relatively evenly around the country, but concentrated near the biggest cities: Aalborg, Aarhus, Copenhagen, Esbjerg and Odense. However, relatively bigger facilities are overwhelmingly located in the greater Copenhagen area (EEA, 2018[5]; Denmark, 2018[2]).

5.2.2. A stable number of hazardous facilities and visible efforts in reducing emissions of chemicals

The number of Danish installations classified as hazardous under the applicable EU legislation has been relatively stable. There are about 120, of which some 45% are upper tier installations (more hazardous) and some 35% fuel storage facilities (above the EU average of 11%, but in line with national policy to secure fuel supplies). Denmark expands the scope of application of the EU rules to also cover smaller installations (i.e. chlorine and ammonia installations), so the total number of hazardous installations is almost 140. Information on hazardous establishments is publicly available via a dedicated website (Denmark, 2018[2]; EMA, 2017[6]).

Since 2005, Denmark has reported only two industrial accidents to the e-MARS chemical accident reporting database; they resulted in one casualty and damage to a marine habitat (Denmark, 2018[2]). The biggest accident in recent times, an explosion in a fireworks storage facility, took place in 2004. Post-accident action led to enhanced enforcement and amendment of national legislation. Moreover, Denmark proposed enhanced standardisation at the European level (French Ministry for Sustainable Development, 2009[7]; EMA, 2017[6]).

The relatively stable number of major hazardous installations and low number of accidents suggest that measures to prevent major chemical accidents work relatively well in Denmark. Moreover, the country has a co-ordination forum for authorities to build on the experience of accidents, which is working on dedicated web pages to support experience sharing (Denmark, 2018[2]).

Reducing emissions of chemicals is a strategic goal included in relevant legal and policy frameworks in Denmark. The Environmental Protection Act and Act on Chemicals set the overall goal of reducing pollution caused by chemical production and use, while national action plans include implementation measures (MEF, 2017[8]; Government of Denmark et al., 2017[9]). Denmark reduced emissions of GHGs1 from industrial processes and product use by over 20% between 2005 and 2016. Significant reductions also occurred for acidifying gases, air pollutants and heavy metals2 in industrial processes and product use and in manufacturing industries and construction (Figure 5.2).

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Figure 5.2. Emissions from industrial processes and product use are generally on the decline

 StatLink https://doi.org/10.1787/888934002452

5.2.3. Despite monitoring of chemicals, pressures on health and the environment are significant

Denmark has a system of monitoring chemicals in the environment that supports identification of the country’s priorities in relation to chemicals management. It includes a pollutant release and transfer register. Denmark has undertaken biomonitoring activities and co-operates with other countries in this field. Monitoring and biomonitoring results (Box 5.1) are publicly available.

A key tool to monitor chemicals in the Danish environment is the National Monitoring and Assessment Programme for the Aquatic and Terrestrial Environment (NOVANA), established in 2004. It analyses pollution sources, trends, policy actions and environmental pressures in various categories (surface water, sediment, biota, groundwater, air and point sources, wastewater and rainwater installations), in particular to support compliance with Danish and EU legislation and international conventions. Since its inception, the programme has been adapted to evolving EU policies (e.g. Natura 2000, river basin management plans, emission ceilings). In the current monitoring period, 2017-21, it covers more than 250 substances in one or more categories and with varying monitoring frequency, e.g. 25 polycyclic aromatic hydrocarbons (PAHs), 13 per- and polyfluoroalkyl substances (PFAS), 20 metals, 17 polychlorinated biphenyls (PCBs), 8 plasticisers, 20 pharmaceuticals, and 66 pesticides and their metabolites. Denmark also monitors persistent organic pollutants (POPs) and heavy metal levels in the Arctic (EPA, AU and GEUS, 2017[19]; Denmark, 2018[2]).

As pesticide exposure remains a cause of concern, there are dedicated monitoring subprogrammes, including the National Groundwater Monitoring Programme and the Pesticide Leaching Assessment Programme. Denmark has also undertaken and supported efforts to address emerging issues of concern, such as the presence in the environment of antibiotics (antibiotic resistance was identified in 2017 as one of the country’s four key risk challenges) and micro plastic (EUSBSR, 2017[20]; Løkkegaard et al., 2017[21]; Denmark, 2018[2]; EMA, 2017[6]).

As the country relies for its drinking water on groundwater that is not chemically treated (it is subject only to aeration and sand filtration), particular focus on enhanced monitoring is needed in this area. A key concern is so-called legacy pesticides (and their metabolites), no longer authorised for use in Denmark but found in groundwater sources.

Denmark would benefit from further enhancement of pesticide and legacy pesticide monitoring in groundwater and under the Pesticide Leaching Assessment Programme. It should also consider supplementing its actions with surface water monitoring (relevant for biocides), in line with the recommendations of its national expert-based water panel. In January 2019, Denmark announced that pesticide monitoring in groundwater would be expanded (MEF, 2019[22]), which should be applauded. Denmark should also consider enhanced monitoring of emerging pollutants (e.g. pharmaceuticals in surface and groundwater) and heavy metals (e.g. zinc in soil and water).

Pollutant release and transfer register

Danish companies have reported environmental information via so-called green accounts since 1995. In 2008, Denmark ratified the Kiev Protocol on Pollutant Release and Transfer Registers to the Convention on Access to Information, Public Participation in Decision-Making and Access to Justice in Environmental Matters. It was implemented through the 2006 EU Pollutant Release and Transfer Register (E-PRTR) Regulation and national legislation. The EU/Danish PRTR covers 91 substances and some 65 economic activities. It includes 90 out of 126 chemicals from the OECD harmonised list of pollutants (OECD, 2014[26]). Danish reporting to the E-PRTR started in 2007 and to the Kiev Protocol in 2010. PRTR data are complemented by estimating emissions for substances with diffuse sources. Since 2012, geographical mapping of emissions from Danish diffuse sources in the PRTR has been publicly available (AU, 2018[27]).

Companies report measured, calculated or estimated data annually to the PRTR, usually via a one-stop portal.4 The EPA provides technical support. Companies, local authorities and the EPA contribute to data quality assurance. No overall assessment of the submitted data has yet done; such an assessment could help authorities understand the completeness and relevance of the data (MEF, 2016[28]). PRTR data are available to the public via the national PRTR register or the E-PRTR portal; national reports are subject to public consultation. Both registers offer a wide choice of search options (MEF, 2016[28]).

The scope of PRTR reporting was visibly reduced in the review period. Regulatory changes (modifying green account reporting in 2010 and abolishing it in 2015 in favour of a separate national regulatory framework for the PRTR) (EPA[29]) led to a reduction of the economic activities covered as well as strict application of E-PRTR scope and thresholds. The number of companies reporting environmental information in the green accounts and the PRTR fell by 52% between 2007 and 2014; the number of Danish companies in the E-PRTR dropped by 48% between 2007 and 2016 (Figure 5.3) (EEA, 2018[5]; EPA[30]). The number of chemical industry facilities reporting dropped almost by half (from 49 to 25), mostly following the 2015 abolition of green accounts (EEA, 2018[5]; EPA[30]).

Fewer reporting companies means less information available for the authorities and stakeholders (e.g. companies and general public). This can contribute to the reduced ability of Denmark’s PRTR system to provide comprehensive data on emissions that could support broader decision making.

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Figure 5.3. The number of Danish companies reporting to the E-PRTR and national PRTR/green account programmes has fallen

 StatLink https://doi.org/10.1787/888934002471

5.3.1. A comprehensive policy, legal and institutional framework is in place

Policies

Denmark has mainstreamed chemicals management into its national policy framework. Several high-level policy documents address chemicals management and reflect national objectives and pressures. They take into account policy documents adopted at the EU level, notably the Environmental Action Programmes (EAPs).

General chemicals management

At the national level, since 2005 Denmark has prepared and implemented strategic policy documents related to general chemicals management. They take the form of four-year action plans, currently called the Chemical Initiatives. Negotiations between the government and main political parties outside government precede adoption of these policy documents. This approach secures a broad commitment from the political level, along with medium-term resources, to prioritise chemicals management. The current action plan covers 2018-21 (Box 5.2).

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Box 5.2. Danish Chemical Initiatives 2018-21

The 2018-21 Chemical Initiatives, agreed by all parties in the Danish Parliament, build on previous plans and set the following priorities for national actions regarding chemicals:

• credible information to consumers on chemicals (with particular attention to chemicals in products, vulnerable groups, and food and food packaging)

• a level playing field for enterprises, particularly effective regulation of chemicals and good enforcement, with a particular focus on promotion of standard setting for Danish companies, better data quality, imported products, and support to SMEs

• initiatives on five groups of chemicals of concern – substances that are carcinogenic, mutagenic or toxic for reproduction; chemicals affecting brain development; endocrine-disrupting chemicals; allergenic chemicals; and chemicals of high concern for the environment

• research and knowledge building (in particular on endocrine disruptors).

The plan supports Denmark in meeting its obligations under the EU acquis on chemicals and the international agreements in this field.

Source: (Government of Denmark et al., 2017[9]).

Danish action plans on chemicals can serve as a best practice example. They have secured continuity and coherence of Danish priorities: focus on consumers, enforcement, implementation of EU legislation and support of international work. The priorities have been modified where activities did not yield the expected results. The action plans have reflected ongoing policy discussions (e.g. on endocrine disruptors or circular economy) and Danish reliance on imported products (e.g. focus on users of chemicals and imported products). They have also highlighted consumers’ right to know and encouraged stakeholder involvement. The level of detail of the action plans has been enhanced over the review period.

The Chemical Initiatives have served as a guide for Danish efforts in the European and global arenas and as vectors to promote Danish knowledge and expertise. They have been aligned with and supported policy developments at the EU level, e.g. the EU EAPs and the Conclusions of the Council of the European Union (Government of Denmark, 2005[31]; Government of Denmark, 2010[32]; Government of Denmark, 2013[33]; Government of Denmark et al., 2017[9]). The Chemical Initiatives respond to the interests of various stakeholders. For instance, in line with industry expectations, the current plan prioritises respecting growth and innovation when substituting hazardous chemicals (Danish industry, 2017[34]).

An area that might benefit from further improvement is chemicals’ role in Danish policy documents on occupational health and safety (OHS). The 2011-20 OHS strategy only marginally addresses chemicals. This is surprising, given the important interface of EU industrial chemicals and OHS legislation, as well as the significant involvement of Danish OHS authorities in chemicals management in Denmark (Government of Denmark et al., 2011[35]). The 2019 political negotiations in Denmark on the strategy beyond 2020 offer an opportunity to improve this situation.

The first external evaluation of the Chemical Initiatives, in 2017, produced data that were not systematically gathered to evaluate the previous plans’ effectiveness. As EPA staff were directly involved in preparation of the evaluation methodology, it should be beneficial for future assessments. The results also gave a clear signal for policy makers that evaluation should be a standard procedure. Indicators to better track progress of the action plans should be further developed and their use improved.

Pesticides

The first pesticide action plan was introduced in 1986. All strategic documents of the last ten years in this area share the same overall objective: limiting the use of pesticides and (from 2013) minimising the pesticide load on the environment and health (Government of Denmark and the Danish Peoples’ Party, 2009[36]; ME, 2013[37]; MEF, 2017[38]).

The pesticide strategy for 2013-155 initiated a significant change in pesticide management, introducing a pesticide load indicator (PLI) based on the impact of individual pesticides on human health, nature and groundwater. This replaced a treatment frequency index, whose reduction targets had not been achieved. In addition, a differentiated tax based on the environmental and health burden, with the rate higher for pesticides with higher load, replaced a pesticide levy based on percentage of retail price (Box 5.3).

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Box 5.3. Results of the 2013 pesticide load indicator reform are not yet fully known but appear promising

Pesticide load calculated on sales data (but not consumption) allowed Denmark to meet its goal of a 40% PLI reduction in 2016. Since the reform, pesticides with a greater load have largely been replaced with ones with a lower load (e.g. in cases of certain insecticides or growth regulators), which made it possible to meet the target on the most problematic substances in 2016. Moreover, the reform coincided with reclassification of chemical substances and mixtures in line with the EU CLP Regulation. In many cases, this led to stricter classification in relation to health hazards and heavier health loads.

The complete effects of the PLI reform on consumption were still not known in 2018, as farmers stockpiled pesticides ahead of the reform. The authorities need to monitor whether the reform negatively affects resistance to certain pesticides (e.g. antifungal resistance) due to, for instance, increased use of the least taxed pesticides. An action plan to address this, and to strengthen efforts to develop integrated pest management, will be implemented over 2019-22. Results of a research project to analyse how the tax reform changed farmer behaviour are expected in 2019. Further discussion on the tariff changes is expected to follow in 2020.

Measures to compensate farmers and gain their support accompanied implementation of the reform. These included reducing the land value tax and using tax revenue to support organic farming and administrative services.

Source: (Pedersen, 2016[39]; MEF, 2017[38]; Holtze, Kühl and Hyldebrandt-Larsen, 2018[40]; Denmark, 2018[2]; MEF, 2019[22]; Böcker and Finger, 2016[41]).

The new tax has four components: basic tax, health tax (with rates differing by health hazard), environmental toxicity tax (with rates differing by species) and a tax covering persistence, bioaccumulation and leaching. The major goal of the strategy was reducing pesticide sales, based on PLI, by 40% to a level equivalent to a pesticide load of 1.96 (Figure 5.4). It also included a 40% reduction target for the health burden of the use of carcinogens and hormone disrupting substances (ME, 2013[37]).

The pesticide strategy for 2017-21 has four main areas: pesticide authorisation; targeted and reinforced inspection efforts (focused on distributors); a pesticide research programme; and information, advice and guidance. The strategy serves as the National Action Plan for Sustainable Pesticide Use (MEF, 2017[38]). In January 2019, a supplement to the strategy was agreed. It contained additional measures regarding reduction of the risk of pesticidal contamination of groundwater in well vicinity protection zones, addressed pesticide resistance and banned (as of 2020) the sale of concentrated pesticides to non-authorised individuals. Additional measures and funding to strengthen monitoring of pesticides in groundwater were also agreed (MEF, 2019[22]).

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Figure 5.4. A differentiated tax, introduced in 2013, helped reduce the pesticide load

 StatLink https://doi.org/10.1787/888934002490

5.3.2. Compliance and enforcement need enhancement to meet Danish priorities on chemicals

Unlike many areas of chemicals management, where efforts are shared between the EU and its members, Denmark regulates and performs all enforcement activities in relation to chemicals management at the national level, including implementation of EU legislation. However, common EU efforts on REACH and CLP compliance are increasing. While the approach to inspections concerning industrial chemicals is generally risk-based, it is more systematic in regard to pesticides and chemical accidents.

The main Danish enforcement bodies are the Chemical Inspection Service (CIS, within the EPA), WEA and MA. CIS, with a staff of 17-18 persons, is responsible for industrial chemicals (including in electronics and toys), pesticides, biocides and cosmetics. The WEA is responsible for information obligations in the supply chain and for downstream users and OHS in general (including at offshore installations). The MA is responsible for chemicals related to obligations on ships. Some enforcement tasks related to chemicals management (e.g. on food) are attributed to other MEF agencies or other public authorities, particularly municipalities and customs (Box 5.4) (Denmark, 2018[2]; Dupont, Pelsy and Oulès, 2016[50]).

Both informal and formal co-operation by enforcement authorities as well as joint inspections take place in Denmark. The enforcement authorities set their own inspection strategy. During the review period, some had a strategy that was not in line with the EU-wide strategy adopted by ECHA’s Enforcement Forum (EPA, 2015[45]), but that situation was recently resolved (Denmark, 2018[2]).

The approach to inspections concerning industrial chemicals is risk based. In practice, this means complying companies can benefit from less frequent inspections, and enforcement focuses on certain geographical areas, particularly the capital region. Denmark makes its enforcement strategies publicly available. CIS focuses its activities on 15 to 18 targeted campaigns per year, plus response to complaints (some 400 per year). The WEA performs general inspections in which all aspects of OHS are checked (Denmark, 2018[2]; EPA, 2015[45]).

For pesticides, enforcement takes the form of systematic supervision of companies introducing products to the market. As there are fewer of them than of companies dealing with industrial chemicals, the effects of enforcement are more tangible. For instance, increased inspections in relation to sale of illegal pesticides led to a sharp decrease in infringements, from 30% in 2016 to 10% in 2017 (EPA, 2018[51]).

Denmark participates in EU-wide enforcement activities, particularly regarding downstream users or consumers, in line with its approach to chemicals management. It also co-operates with other Nordic countries on inspections, with a focus on the EU legislation (EPA[52]; Kristiansen et al., 2018[53]).

The country carries out systematic appraisal of measures applied by operators of Seveso installations.6 Almost all Danish upper tier installations have an external emergency plan prepared by the authorities (police and municipalities), which is above the EU average. However, testing of these plans has been an issue since 2003: it only took place for some 50% of installations due to an unclear division of responsibility. In 2018 the EPA published updated guidance material to aid authorities in addressing this issue (EC, 2017[54]; Amec Foster Wheeler, 2017[55]; EPA, 2018[56]).

Denmark has a dual system of penalties for non-compliance with chemical legislation. Heavy fines (proportional to income and applicable to legal persons) or a criminal sanction can be applied, but in practice, the authorities focus on preventive and educational actions. The most common enforcement tool is a warning; legal proceedings are rarely initiated (Denmark, 2018[2]; Rass-Masson, Blainey and Pelsy, 2010[57]; Dupont, Pelsy and Oulès, 2016[50]).

There are fewer inspections concerning industrial chemicals than in comparable EU countries (Dupont, Pelsy and Oulès, 2016[50]), which may be linked to potential differences in the scope of inspections and could become an issue in the long term. The results of recent enforcement campaigns related to chemical products (e.g. 80% of inspected hazardous mixtures sold online did not meet hazard information and labelling requirements) show that there is room for compliance improvement.

Additional efforts may be required in the future, in particular to cope with a priority area for Denmark: chemicals in products. Moreover, coherent and mutually supportive activities of all countries implementing the REACH and CLP regulations may be necessary, so Denmark could benefit from increased involvement in EU-wide activities. Beyond the EU context, product supply chains are becoming increasingly global, so global action will be needed. Danish stakeholders support enhanced enforcement (Danish industry, 2017[34]).

5.3.3. Exemplary public participation and involvement in chemicals management

Denmark actively involves stakeholders in chemicals management. Hence it is no surprise that Danes have the EU’s highest level of trust in national authorities (Eurostat, 2018[58]). They also top the EU rankings for understanding and use of safety information on chemicals (e.g. safety instructions, warning symbols, labels). They consider themselves well informed about the risk posed by chemicals and feel that chemical safety has improved in last 10 to 15 years (EC, 2011[59]; EC, 2013[60]; EC, 2014[61]; EC, 2017[62]).

At the national level, Danish stakeholders can take part in the public consultation mechanism employed during legislative discussions. A Special Government Committee for the Environment, open to all organisations with an interest in environmental matters, is consulted on the Danish position in the EU and other international forums, and non government organisations (NGOs) are occasionally included in Danish delegations to international negotiation meetings (Denmark, 2018[2]). Improved, formalised dialogue with the industry has been an inherent part of the Chemical Initiatives. The creation of the Danish Chemicals Forum in 2014 strengthened stakeholder engagement in the chemicals area. The forum groups representatives from public authorities, industry, labour, NGOs and academia and focuses on dialogue, co-operation, knowledge and dissemination of information on chemicals management (Sørensen et al., 2017[63]). Stakeholder bodies are also in place for biocides (the Biocide Panel) and pesticides (the Pesticide Dialogue Forum). All meet a few times a year. MEF also meets regularly with stakeholders from the Danish cosmetic and toy sectors. Dedicated chemical events for stakeholders include Chemistry Day, organised annually since 2005; the 2018 edition focused on sustainable chemistry in the future (Denmark, 2018[2]).

The public has access to non-confidential information on chemicals and has been the target of a vast number of initiatives, heavily supported by communication activities. The current Chemical Initiatives highlight the strategic importance of ensuring that consumers receive honest information about risks related to chemicals (whether in substances, products or food) so they can make informed choices.

To increase awareness about hazardous chemicals and chemical exposure in the general population, and contribute to EU and OECD work, the EPA has undertaken information campaigns on chemicals in consumer products. Particular attention has been paid to vulnerable groups such as children. Another example is correct pesticide use. The EPA has published an exemplary amount of information on chemicals for consumers, including, since 2001, over 160 studies on everyday products such as toys, furniture, clothing and sport equipment. It has prepared educational material for school-age children. Since 2013, it has run a Facebook account called Hverdagskemi (Everyday Chemicals) to advise on safe use of chemicals (Denmark, 2018[2]). In September 2018, a website on chemicals in consumer products and food, bridging information from the EPA and VFA, was launched (EPA, 2018[64]). Stakeholders are often involved in these activities.

Many other awareness-raising activities are directed towards supporting industry compliance with regulatory measures (EPA, 2015[45]). Thematic national and international workshops have been organised to promote knowledge sharing on chemicals of particular interest for Denmark, such as endocrine-disrupting chemicals (EDCs) (OECD, 2010[65]; EPA[66]). Danish authorities support NGO work related to chemicals management and co-ordinate activities with them to build synergy (Government of Denmark et al., 2017[9]). For instance, the EPA and Danish Consumer Council launched a smartphone application to give consumers information on hazardous substances in products (Box 5.5) The same NGO launched THINK Chemicals, an initiative to test consumer products (e.g. earphones, diapers, cosmetics, chewing gum, cleansing tissues), in co-ordination with the EPA (Danish Consumer Council[67]).

5.3.3. Increasing the use of economic analysis in decision making

Economic analysis in relation to decision making (including chemicals management) is built into the legislative framework at both the EU and national levels. At the national level, due to the growing importance of the horizontal EU legislation on chemicals, economic analysis has been increasingly used, particularly to influence EU-wide decisions and policies (e.g. in the work of ECHA technical committees). It was also influenced by studies showing the pressures from chemicals on Danish society.

For instance, a high prevalence of male reproductive disorders, in comparison with neighbouring Finland, and a decline in the onset of puberty in girls have been observed in Denmark, with EDCs being identified as a potential factor (Krysiak-Baltyn et al., 2010[72]; Mouritsen et al., 2010[73]). It has been estimated that exposure to EDCs in Denmark leads to total yearly health and economic costs of more than EUR 2 billion (some 1.3% of GDP, which is above the EU average) (Trasande et al., 2016[74]). There are also statistically significant healthcare costs and productivity losses for adults with contact dermatitis. The socio-economic costs of contact allergies have been estimated at EUR 2.4 billion per year (Saetterstrøm, Olsen and Johansen, 2014[75]; Sørensen et al., 2017[63])

Denmark has begun evaluating the effects of its action plans on industrial chemicals. The 2017 ex post evaluation of the 2014-17 Chemical Initiatives, for example, assessed their qualitative and quantitative impact by identifying the overall goals and later establishing effect chains7 for each of the 14 actions. In effect chains, inputs, activities, outputs and effects are combined to explain how and why a given planned activity should lead to the desired effect. The analysis by external consultants and the EPA suggested, among other things, that the environmental and health benefits of the actions over the long term (50 years) would outweigh the costs in all scenarios, with benefits ranging from EUR 27 million to EUR 1.2 billion. An ex ante analysis of the 2018-21 Chemical Initiatives, mainly establishing the framework for a future ex post evaluation, followed in 2018. It recognised the use of the effect chains developed in principle for the ex ante evaluations (Denmark, 2018[2]; Sørensen et al., 2017[63]).

Other public authorities in Denmark that have employed economic analysis in their work include the VFA, which in 2013 produced economic impact assessment tools for its staff to support cost-benefit analysis of its policy measures, and the EPA, which used economic analysis to estimate the pesticide tax’s impact on agricultural producers (Sørensen et al., 2017[63]; Holtze, Kühl and Hyldebrandt-Larsen, 2018[40]).

5.4.1. Multilateral environmental agreements and international organisations

Denmark actively participates in the multilateral environmental agreements (MEAs) and non-binding initiatives on chemicals, and contributes to international organisations’ work. It is a party to all relevant chemical MEAs (e.g. the Minamata Convention on mercury, the Rotterdam Convention on prior informed consent, the Stockholm Convention on persistent organic pollutants) and to regional agreements in the UNECE framework, including the Helsinki Convention on transboundary effects of industrial accidents and the Kiev PRTR protocol. Danish implementation is usually through laws transposing the applicable EU legislation (Denmark, 2018[2]).

Among non-binding global initiatives on chemicals, Denmark has implemented the Globally Harmonized System of Classification and Labelling via the CLP and REACH regulation ( the latter in relation to safety data sheets). It is active in the Strategic Approach to International Chemicals Management (SAICM), including involvement in and support for the SAICM Beyond 2020 process (EPA, 2018[76]).

Denmark has provided both in-kind and financial support to the work of international organisations involved in chemicals management, particularly in areas aligned with its national priorities, such as EDCs. Over the review period, Denmark continued to be one of the top 15 contributors to the Environment Fund of UN Environment (Denmark, 2018[2]; UN Environment, 2018[77]; Urho et al., 2019[78]). Finally, Denmark contributes to the OECD work on chemicals: it chaired the Joint Meeting of the Chemicals Committee and Working Party on Chemicals, Pesticides and Biotechnology in 2015-17, and continues its participation in that body and its working parties and groups.

5.4.2. Regional and bilateral co-operation

Although co-operation within the EU (see Sections 5.5 and 5.6 for Denmark’s contribution to chemicals management at the EU level) has become more important for Denmark, in line with the evolution of regional legislation on chemicals, it has not completely replaced other modes of regional involvement. They continue to exist, as do bilateral initiatives.

5.5.1. Gathering, exchanging and protecting information on chemicals

Several chemical inventories at the EU level contain information provided by Danish companies. Examples include the database of substances registered under the REACH Regulation, the ECHA classification and labelling database (C&L Inventory), and databases on biocides and pesticides. Non-confidential information from these is publicly available, while the confidential part is accessible to authorised EU and national authorities (ECHA[89]).

Denmark complements the EU inventories with its own databases. The Danish Product Registry, run jointly by the WEA and EPA, covers low-volume hazardous substances (of which between 100 kg and 1 000 kg is manufactured or imported per year) and mixtures (more than 100 kg produced or imported per year) placed on the market for professional use; biocides not yet covered by the authorisation system; and offshore chemicals. The registry contains information on about 38 000 registered products (WEA[90]). The Danish Nanoproduct Register (whose data are accessible only to the Danish authorities) gathers information on mixtures and articles containing nanomaterials (EPA[91]). Denmark also has a database of chemicals in consumer products (EPA[92]); a database of pesticides and biocides, including information on cancelled, rejected or expired authorisations (EPA[93]); and a database of advisory self-classifications (EPA[94]).

5.5.2. Involvement in assessment of chemicals

Priority setting and assessment

Priority setting for industrial chemicals is in principle done at the EU level but in practice is a joint effort of the EU and national authorities. The Community rolling action plan (CoRAP) lists prioritised substances for evaluation. ECHA and the national authorities identify substances that could be included in CoRAP and subsequently evaluated by the national authorities (ECHA, 2018[95]; ECHA, 2018[96]). The EU legislation directly applicable to Denmark lays out a process for hazard, exposure and risk assessment of industrial chemicals, as well its timeline. Box 5.7 provides an example of the approach to chemical assessment in a non-EU OECD country: Australia.

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Box 5.7. Assessment of industrial chemicals: The Australian perspective

Australia introduced the Inventory Multi-tiered Assessment and Prioritisation (IMAP) framework in 2012 to accelerate assessment of industrial chemicals and complement the work done in the Priority Existing Chemicals (PECs) process. This science- and risk-based framework is used to identify and rapidly assess existing chemicals of concern. It is also used to enhance risk management of industrial chemicals by increasing the flow of chemical safety information to industry, risk management bodies and the public. IMAP has extensively used assessments performed abroad, particularly in Canada, the United States and the EU.

The number of industrial chemicals on the national inventory considered in the IMAP framework is significantly greater than the number considered in the PEC process: more than 12 000 chemicals were assessed between 2012 and 2018. The framework reduced the gap of unassessed chemicals from 92% to 61%. It has been used to identify environmental contaminants of emerging concern and has raised awareness of the need for risk reduction strategies for high concern chemicals.

The accelerated rate of assessment of industrial chemicals achieved using the IMAP framework relies on a tiered approach in which chemicals are assessed at a level corresponding to their potential risk to human health or the environment. In 2016, the assessment focus shifted from identification of concerns (IMAP stage 1) to de-prioritisation (IMAP stage 2) (see Chapter 5 of the 2019 OECD Environmental Performance Review of Australia for further information). The human health and environmental assessments are often conducted separately, which allows resources to be efficiently allocated to addressing areas of concern.

Under IMAP, chemicals are frequently assessed in groups, using OECD principles for building chemical categories, and a weight-of-evidence approach is used to consider relevant, reliable data from domestic and international sources. A comprehensive Quantitative Structure-Activity Relationship strategy, including custom-built tools, was established to support decision making. A significant investment was made in developing chemical informatics software that enables rapid assessment and maximises the use and reuse of the large amounts of quality-assured regulatory information generated in assessments.

Once the Australian National Industrial Chemicals Notification and Assessment Scheme reform enters into force, it is expected to replace both the PECs process and the IMAP framework with a new legislative tool.

Source: (Australia, 2019[97]; OECD, 2019[98]).

Denmark has actively contributed to priority setting and assessment processes at the EU level (Figure 5.5). Danish priorities for selecting chemicals are set in a multi-year action plan on chemicals and have been relatively stable over the last decade. The current Chemical Initiatives prioritise actions in relation to carcinogenic, mutagenic or toxic for reproduction (CMR) substances; chemicals affecting brain development; EDCs; allergenic chemicals; and chemicals of high concern to the environment (Government of Denmark et al., 2017[9]).

Denmark has been especially active in estimating properties of chemicals from their molecular structure using results of SAR or QSAR modelling, known collectively as (Q)SARs. The National Food Institute at the Technical University of Denmark, supported by the EPA, NCM and ECHA, launched a publicly available (Q)SAR database with estimates from more than 200 (Q)SARs and (Q)SAR predictions for more than 600 000 chemical substances. It is part of the OECD QSAR Toolbox (NFI[99]).

The country has been involved in investigating chemicals outside the EU framework, for instance under the Helsinki and OSPAR conventions. It has actively participated in development of the OECD test methods for EDCs (e.g. it led the development and adoption of a test for endocrine-disrupting effects in fish and updates on test methods for screening of reproductive effects and for developmental toxicity), and worked within the OECD to prepare guidance for authorities and industry on the use of the test methods for EDC assessment (EPA[66]).

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Figure 5.5. Denmark is an active player in evaluation of chemicals at the EU level

 StatLink https://doi.org/10.1787/888934002509

5.5.3. Contribution to identification of chemicals of concern

Denmark has long worked actively on identification of chemicals of concern. In recent years, the tendency has been to focus actions on supporting EU-wide activities.

As early as 1998, Denmark established a List of Undesirable Substances (LOUS). It was not legally binding, but guided the industry on what should be substituted. The latest version (2009) included 40 substances or groups of substances selected in line with EPA criteria (based on hazardous properties identified, for instance, by computer models). Over 2012-15, Denmark reviewed all the substances and groups of substances, in co-operation with stakeholders, with a budget of some EUR 6.4 million. The LOUS has not been updated, as its criteria largely overlap with those of the REACH SVHC.

Selection of substances for the LOUS allowed Danish authorities to create a 2009 list of effects, including 19 500 substances that fulfilled the LOUS criteria but whose use had not been assessed in Denmark (EPA, 2010[103]). The selection of chemicals for both lists was supported by the Danish work on (Q)SARs, prioritised in all Danish action plans on chemicals.

In line with national priorities, Denmark made significant efforts to identify potential EDCs and address combined effects of chemicals and nanomaterials (Box 5.8). Over 2013-15, the EPA carried out initiatives targeted at children, using the results as the basis for evaluation of total exposure of children (including those unborn) to more than 60 selected substances that were hormone disruptive, suspected of being hormone disruptive or posed neurotoxic and related risks (Larsen et al., 2017[104]).

Regarding industrial chemicals, Denmark has actively supported identification of potential SVHCs at the EU level. It has been among the most active countries in this area, submitting ten dossiers between 2010 and 2018 (ECHA[89]). On pesticides and biocides, the EPA Pesticide Research Programme, in place since 1987, generates information that supports the regulatory measures for these chemicals. The National Allergy Research Centre, established in 2001, played an important role in providing documentation on human exposure to allergens, relevant for the EU-wide restrictions on the use of chromium in leather goods (2015) and the prohibition of methylisothiazolinone in leave-on cosmetics (2017). The Working Environment Research Fund, established in 2003, aims to strengthen research and development in occupational safety and health (Denmark, 2018[2]).

Pollution caused by pharmaceuticals is an emerging environmental problem. At the regional level, Denmark co-operates in the HELCOM collaboration platform on pharmaceuticals (EUSBSR, 2017[20]). Efforts at the national level have focused on pharmaceuticals in wastewater treatments plants, especially from hospital discharges (Denmark, 2018[2]).

Identification and evaluation of chemicals of concern were high on the agenda in Denmark during the review period. Multi-year action plans provided stability of funding. However, additional effort may be needed to sustain Denmark’s standard-setting role in this area. The amount of work is rising (e.g. on analysing submitted data quality) and the transfer of fees from the EU level to support national activities started to diminish in 2016. The increasing amount of data (e.g. from research and implementation of legislation), combined with the increasing digitalisation of regulations and tools, will also require additional resources and capacity to better manage and use the information.

5.6.1. Use of risk management approaches

Regarding industrial chemicals, risk reduction provisions correspond to the authorisation and restriction stages of the REACH Regulation and harmonised classification and labelling under the CLP Regulation. Denmark has actively contributed to the relevant EU processes where possible (Figure 5.6), although initiative is reserved for the Commission in some areas. The timeline for application of risk management measures is usually enshrined in the applicable EU legislation. However, if a risk is of a national character, national measures can be applied, with no set timelines (Denmark, 2018[2]).

National regulations apply in areas not fully covered by EU or international legal frameworks. For instance, Denmark is one of the few countries with restrictions on the use of lead in gun ammunition (it applies a total ban, including outside wetlands) and fishing sinkers (ECHA, 2018[110]). The national restriction on importing or selling products containing lead is stricter than that of the EU (Fråne et al., 2018[111]).

For plant protection products and biocides, risk mitigation measures are identified during the authorisation process. Denmark applies additional measures in certain areas (e.g. voluntary agreements on pesticide use in public areas, thresholds for use on golf courses, training for professional users and distributors). For biocides, specific authorisation is required to use rodenticides with anticoagulants or to fumigate for pests. Danish rules on evaluation and approval of biocidal insecticides include provisions to protect bees and other non-target insects (Denmark, 2018[2]; MEF, 2017[8]).

Denmark has used taxes to reduce exposure to certain hazardous chemicals, but the PVC tax was recently abolished after a political agreement on easing the administrative burden on companies, and the phthalate tax was rescinded due to an agreement on an EU-wide restriction (Denmark, 2018[2]).

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Figure 5.6. Denmark actively contributes to risk management of chemicals at the EU level

 StatLink https://doi.org/10.1787/888934002528

The area of occupational work and safety features national legislation and guidelines, combined with monitoring, research and stakeholder collaboration on safe work. It includes considerable flexibility in adopting national risk management measures related to CMR substances. In the last ten years, Denmark has adopted occupational guidelines for 17 substances, most of which had to be implemented within three to five years (Denmark, 2018[2]).

The unintentional poisoning mortality rate dropped between 2006 and 2016 from 5.4 to 3.8 per 100 000 people (SD, 2018[112]). Poison centres support safe use of chemicals, as well as preventive and curative measures, by providing medical advice to the public and doctors on emergencies related to exposure to chemicals. The information is provided to both the EPA and, for mixtures in professional use, the WEA (ECHA[113])

Labelling programmes in Denmark include official ones (e.g. the EU eco-label and Nordic Swan) and private ones (e.g. the Blue Wreath and Allergy Certified). All support risk reduction by limiting the use of hazardous chemicals and promoting substitution by less hazardous alternatives.

5.6.2. Promoting substitution of hazardous chemicals

Substitution of hazardous chemicals is enshrined in EU and Danish legislation and policy documents and in international agreements such as the OSPAR Convention (Denmark, 2018[2]). Danish OHS rules require replacing hazardous substances with less hazardous ones, even if the effects of the former are insignificant (Camboni, 2017[114]).

The LOUS has long supported substitution by informing industry about substances whose use should be reduced or terminated. The 2014-17 Chemical Initiatives included a partnership between industry and academia to support substitution of certain chemicals of concern (Danish Chemicals Forum, 2015[105]; Denmark, 2018[2]; Kemi i Kredsløb, 2018[115]). A new innovation centre on substitution of hazardous chemicals follows up on that initiative under the 2018-21 Chemical Initiatives. An eco-innovation subsidy programme, under the 2015-18 MEF Environmental Technology Development and Demonstration Programme, supported research on substitution (MEF[116]). The Pesticide Research Program supports reduction of pesticide use (including biocides) and research on their negative effects on human health and the environment. Since 2016, the Chemical Initiatives have supported substitution with less harmful biocides (e.g. by subsidising their authorisation under a simplified procedure) (Denmark, 2018[2]). The Centre for Catalysis and Sustainable Chemistry at Technical University of Denmark is working on chemistry innovation and on improvement to known processes in areas such as renewable chemicals and sustainable production of chemicals (Centre for Catalysis and Sustainable Chemistry, 2017[117]).