Indicator Specification

Exceedance of air quality standards in Europe

Indicator Specification

Indicator codes: CSI 004 , AIR 003

Published 06 Oct 2020 Last modified 27 Oct 2021

7 min read

This is an old version, kept for reference only.

Go to latest version

This page was archived on 27 Oct 2021 with reason: Other (New version data-and-maps/indicators/exceedance-of-air-quality-limit-4 was published)

This indicator shows the fraction of the EU-28 urban population that is potentially exposed to ambient air concentrations of six key pollutants (PM 2.5 , PM 10 , O 3 , NO 2 , SO 2 and BaP) that are in excess of the EU limit or target values (EU, 2004, 2008) set for the protection of human health, and to concentrations of these pollutants in excess of the WHO Guidelines (WHO, 2000, 2006). The indicator is based on measurements of air pollutants as reported under the Air Quality Directives (EU, 2004, 2008) and the Decisions on the exchange of information (EU, 1997, 2011).

Data and maps

Menu

Log in: Login Name

Password

Cookies are not enabled. You must enable cookies before you can log in.; Forgot your password?

Assessment versions

Published (reviewed and quality assured)

No published assessments

Rationale

Justification for indicator selection

No related rationale has been specified.

Scientific references

EC, 2006 Development of a methodology to assess population exposed to high levels of noise and air pollution close to major transport infrastructure , prepared by Entec UK Limited (Appendix D).
EC, 2007 Europe in figures - Eurostat yearbook 2006-07

Indicator definition

This indicator shows the fraction of the EU-28 urban population that is potentially exposed to ambient air concentrations of six key pollutants (PM_2.5 , PM₁₀ , O₃ , NO₂ , SO₂ and BaP) that are in excess of the EU limit or target values (EU, 2004, 2008) set for the protection of human health, and to concentrations of these pollutants in excess of the WHO Guidelines (WHO, 2000, 2006).

The indicator is based on measurements of air pollutants as reported under the Air Quality Directives (EU, 2004, 2008) and the Decisions on the exchange of information (EU, 1997, 2011).

Units

Concentration:

micrograms (mg) of pollutant per cubic metre for PM_2.5, PM₁₀, O₃, NO₂ and SO₂.
Nanograms (ng) of pollutant per cubic metre for BaP.

Urban population (POP): number of inhabitants in the 'core city' and, from 2016 on, 'greater city' of the Urban Audit cities represented by the urban stations taken into account in the calculations.

Percentage of the urban population.

Policy context and targets

Context description

No related policy context has been specified.

Targets

No related targets has been specified.

Key policy question

Exceedance of air quality standards in Europe, aggregated assessment level

Specific policy question

Exceedance of air quality standards in Europe, disaggregated assessment level

Methodology

Methodology for indicator calculation

Information on cities is obtained from the Urban Audit (UA) data (Eurostat, 2014). UA data collection, maintained by Eurostat, provides information and comparable measurements on the different aspects of the quality of urban life in selected European cities. The urban population considered is the total number of people represented by any of the urban monitoring stations in the 'core city' and, from 2016, the 'greater city' of the UA cities taking part in the calculations.

Initially, stations in the EEA air-quality database are spatially joined with UA core and, from 2016, greater cities in a geographical information system in order to select those stations that fall within the boundaries of the cities included in the UA collection. The selected stations include station types classified as 'urban traffic', 'suburban traffic', 'urban background' and 'suburban background'. Stations classified as 'industrial' are influenced by other local emissions and such environments are generally not representative for residential areas. The industrial stations are therefore not selected for the indicator calculations.

According to a study for the European Commission by Entec UK Limited (EC, 2006), in Europe, on average, 5% of the city population lives closer than 100 metres from major roads and is therefore potentially exposed to concentrations measured at traffic stations. The remaining 95% of the city population is assumed to be exposed to urban and suburban background concentrations.

These percentages vary from country to country. To calculate them, national data on the population living closer than 100 metres from major roads have been taken from Appendix D (EC, 2006). These data have been divided by the total population figures for 2001 according to the Eurostat census (Eurostat, 2014a).

For Croatia, Malta and the United Kingdom there are no data on the 2001 population in that census, so the data in the publication (EC, 2007) have been used. Furthermore, for Cyprus and Malta there are no data for people living close to roads in (EC, 2006), so for them, and also for Turkey, the average value of 5% was used.

For PM₁₀, PM_2.5, O₃, NO₂ and SO₂, only stations with at least 75% of valid data per calendar year are used. That is, in the case of daily values, those having more than 274 valid daily values per calendar year (or 275 days in a leap year). And in the case of hourly values, having more than 6,570 valid hourly values per calendar year (or 6 588 hours in a leap year). For BaP, the minimum data time coverage accepted is 14% (51 days), according to the data quality objectives related to indicative measurements in the Directive 2004/107/EU (EU, 2004).

For every year, each city (i) in country (j), and every pollutant, the total number of urban or suburban traffic stations (n_it) and the total number of urban or suburban background stations (n_ib) are obtained. P_tj % of the total population of the city (Pop_i) is proportionally assigned to each of the traffic stations and P_bj % of Pop_i is proportionally assigned to each of the background stations. So, every traffic station has an allocated population equal to ((P_tj / 100) * Pop_i / n_it) and every background station has an allocated population equal to ((P_bj /100) *Pop_i / n_ib).

No gap filling is applied in the air quality data in the EEA air quality database.

For countries with no information on cities and/or population in the Urban Audit data collection (Lichtenstein and Turkey), population data have been retrieved from http://www.citypopulation.de/. The gap filled mapping was done using the “station_city” attribute found in the EEA air quality database (AirBase) and compared with the city names found at http://www.citypopulation.de/. The London geometry was derived from the URAU2007 data set in the first two assessment versions.

Methodology references

EC, 2013, Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions — ‘a clean air programme for Europe’ (COM(2013) 918 final).

EU, 2008, Directive 2008/50/EC of the European Parliament and of the Council of 21 May 2008 on ambient air quality and cleaner air for Europe (OJ L 152, 11.6.2008, pp. 1-44).

EU, 2016, Directive (EU) 2016/2284 of the European Parliament and of the Council of 14 December 2016 on the reduction of national emissions of certain atmospheric pollutants, amending Directive 2003/35/EC and repealing Directive 2001/81/EC (OJ L 344, 17.12.2016, p. 1–31).

Eurostat, 2016, Urban Europe — statistics on cities, towns and suburbs, Publication Office of the European Union, Luxembourg (http://ec.europa.eu/eurostat/documents/3217494/7596823/KS-01-16-691-EN-N.pdf/0abf140c-ccc7-4a7f-b236-682effcde10f).

WHO, 2006, WHO air quality guidelines for particulate matter, ozone, nitrogen dioxide and sulphur dioxide,.

WHO, 2014, Burden of disease from ambient air pollution for 2012 — Summary of results, World Health Organization, Geneva (http://www.who.int/phe/health_topics/outdoorair/databases/AAP_BoD_results_March2014.pdf).