Do something for our planet, print this page only if needed. Even a small action can make an enormous difference when millions of people do it!
Briefing
More than 100 million people in Europe are exposed to harmful levels of environmental noise pollution. Road traffic noise is a particular public health problem across many urban areas.
Long-term exposure to environmental noise contributes to 48 000 new cases of heart disease and 12 000 premature deaths every year in Europe. In addition, 22 million people suffer chronic high annoyance, and 6.5 million suffer chronic high sleep disturbance.
One million healthy years of life are lost every year due to the effects of noise on health, including annoyance, sleep disturbance and ischaemic heart disease. Annoyance and sleep disturbance account for the bulk of the burden of disease linked to noise.
Noise health risk assessments are used to estimate and communicate the risks to health of exposure to noise pollution. They can also be used to estimate the health benefits of changes in exposure resulting from the introduction of policies, mitigation measures or other initiatives. Box 1 outlines the key steps in conducting a noise health risk assessment at the European level using noise data submitted under the Environmental Noise Directive (END).
Assessing the exposure of the population to environmental noise pollution
Data on population exposure to environmental noise generally come from noise modelling by local, regional and national institutions. The number of people exposed to various levels of road, rail, aircraft and industrial noise in urban areas and to levels of road, rail and aircraft noise in non-urban areas across Europe is officially reported by countries as legally required by the Environmental Noise Directive (END).
Estimating the health risks associated with noise exposure
The European noise health risk assessment is based on exposure-response functions presented in the Environmental noise guidelines for the European region (WHO Europe, 2018), which allow negative health outcomes, including annoyance, sleep disturbance and incidence of ischaemic heart disease, to be quantified. Premature mortality due to ischaemic heart disease and the effects of aircraft noise on children’s reading comprehension are included in the health risk assessment following a recommendation made by van Kamp et al. (2018). Baseline health statistics, such as incidence of and mortality rates from ischaemic heart disease per country, are used to estimate the number of cases of ischaemic heart disease and the number of premature deaths attributable to noise per year.
Health risks can also be expressed in terms of disability-adjusted life-years (DALYs). Expressing health risks using this indicator adds another step to calculating the number of people affected by the health outcomes described above. The calculation requires the use of disability weights as well as data on years of life lost and years lived with disability due to ischaemic heart disease per country. These data are available from the Institute for Health Metrics and Evaluation.
Evaluating the uncertainties of the estimation
Important sources of uncertainties that need to be considered include the following:
Various environmental health indicators can be used to quantify the health risks of exposure to noise pollution. They range from a simple indicator of the number of people exposed above the World Health Organization (WHO) recommended noise levels to more complex indicators that show the number of people suffering specific health outcomes or that integrate several health effects into a single number.
The suitability of one indicator over another depends on the policy questions to be answered, the audience to which the results will be communicated, and the uncertainties associated with each indicator, as well as the availability of data, resources and expertise (van Kamp et al., 2018).
This briefing applies three indicators (Table 1) to assess the health risks of environmental noise at the European level using END data and the methodology described in Implications of environmental noise on health and well-being (ETC/ACM, 2018). The indicators can be used to inform the development of future targets aiming to reduce the health impacts of noise.
| Population exposed to noise levels harmful to health | |
|---|---|
| Impacts | 113 million people exposed to road noise; 22 million to rail traffic noise; 4 million to aircraft noise; and 1 million to industry noise. |
| Uncertainties | European data do not cover all sources, urban areas, roads, railways and airports across Europe, nor do they capture exposure to noise levels below the END reporting thresholds. |
| Communication | This health indicator is simple to implement, relevant for policy purposes and easily understood by the public. However, it does not give information on the specific health effects of noise and does not estimate the health benefits of changes in exposure (van Kamp et al., 2018). |
| Number of people affected by the specific health effects of noise | |
| Impacts | High annoyance 22 million; high sleep disturbance 6.5 million; cases of heart disease a year 48 000; premature deaths a year 12 000; and learning impairments in children 12 000. |
| Uncertainties | Same as for previous indicator. There are uncertainties associated with using generalised exposure response functions and extrapolating baseline health data to different territorial units and populations. |
| Communication | Provides a good compromise between scientific rigour and simplicity. Results quantify the concrete health effects of noise in Europe and are easily understood by the public and other stakeholders (van Kamp et al., 2018). |
| Burden of disease due to environmental noise | |
| Impacts | One million healthy years of life are lost every year due to health effects including annoyance, sleep disturbance and ischaemic heart disease. Annoyance and sleep disturbance make up the bulk of the burden of disease linked to noise. |
| Uncertainties | Same as for previous indicators. The methodology for calculating the burden of disease for noise is not well established. There is no guidance on which health effects should be included and which disability weights need to be used for high annoyance and high sleep disturbance. |
| Communication | Using disability-adjusted life-years (DALYs) can help visualise the impact of noise on the health and well-being of the population compared with the impact of other environmental stressors. The different health effects of noise may be ranked using DALYs, and they are routinely used to estimate the economic cost of noise. However, DALYs are difficult for non-experts to interpret and understand (van Kamp et al., 2018). |
The Environmental noise guidelines for the European region (WHO Europe, 2018), define long-term noise exposure levels above which a relevant increase in negative health effects occur, expressed in terms of the indicators Lden and Lnight for road, rail and aircraft sources.
The WHO recommendations provide a basis for estimating the number of people exposed to unhealthy noise levels from different sources of environmental noise (Table 2). The numbers presented at European level correspond to the number of people above the END reporting thresholds (i.e. 55 dB Lden and 50 dB Lnight). This means that in reality there may be more people exposed to unhealthy noise levels than those that can be assessed with the current END thresholds.
This indicator highlights that noise from road traffic remains a major environmental health problem in Europe: more than 100 million people are exposed to day-evening-night noise levels above the WHO recommended levels. The major proportion of the people affected live in urban areas.
| Source | Number of people exposed to harmful noise levels (millions) | |||
|---|---|---|---|---|
| Inside urban areas | Outside urban areas | Total | ||
| Road | Lden | 81.7 | 31.1 | 112.8 |
| Lnight | 57.4 | 21.1 | 78.6 | |
| Rail | Lden | 10.7 | 10.9 | 21.6 |
| Lnight | 8.1 | 9.0 | 17.1 | |
| Aircraft | Lden | 3.1 | 1.0 | 4.1 |
| Lnight | 0.9 | 0.4 | 1.3 | |
| Industry | Lden | 0.8 | No data | 0.8 |
| Lnight | 0.4 | No data | 0.4 | |
Note: Negative health effects start to occur below the END thresholds. WHO recommends reducing noise levels to 53 dB Lden and 45 dB Lnight for road traffic, 54 dB Lden and 44 dB Lnight for rail traffic, and 45 dB Lden and 40 dB Lnight for air traffic.
Source: EEA (2020).
The WHO environmental noise guidelines (WHO Europe, 2018) also provide exposure response functions for health outcomes, including annoyance and sleep disturbance, as well as risk ratios for cardiovascular health outcomes. These provide the basis for quantifying the number of people suffering from specific health effects due to noise.
The range and magnitude of negative health impacts of noise in Europe are significant, with many suffering effects such as annoyance, sleep disturbance, ischaemic heart disease, mortality due to ischaemic heart disease and even learning impairments in children (Table 3). People in urban areas are most badly affected, and the main source contributing to negative health effects is road traffic noise.
Long-term exposure to environmental noise is estimated to contribute to 48 000 new cases of heart disease and 12 000 premature deaths every year in Europe. In addition, 22 million people suffer high annoyance and 6.5 million people suffer high sleep disturbance. It is estimated that more than 12 000 schoolchildren suffer learning impairments due to aircraft noise.
| High annoyance | High sleep disturbance | Ischaemic heart disease | Premature mortality (a) | Reading impairment in children | |
|---|---|---|---|---|---|
| Road | |||||
| Inside urban areas | 12 525 000 | 3 242 400 | 29 500 | 7 600 | |
| Outside urban areas | 4 625 500 | 795 500 | 10 900 | 2 500 | |
| Railway | |||||
| Inside urban areas | 1 694 700 | 795 500 | 3 100 | 800 | |
| Outside urban areas | 1 802 400 | 962 900 | 3 400 | 900 | |
| Aircraft | |||||
| Inside urban areas | 848 300 | 168 500 | 700 | 200 | 9500 |
| Outside urban areas | 276 000 | 84 600 | 200 | 50 | 2800 |
| Industry | |||||
| Inside urban areas | 87 200 | 23 400 | 200 | 50 | |
| Outside urban areas | No data | No data | No data | No data | |
| All (b) | 21 859 100 | 6 478 300 | 47 900 | 12 100 | 12 300 |
Notes: Based on number of people exposed above the END thresholds and areas covered under the END.
(a) Refers to mortality due to ischaemic heart disease. Premature mortality refers to deaths occurring before a person reaches an expected age.
(b) There may be double counting for annoyance and sleep disturbance because of combined effects of multiple sources. Double counting is estimated to be no more than 13 % for annoyance and 16 % for sleep disturbance. Double counting for ischaemic heart disease and mortality is estimated to be negligible (ETC/ACM, 2018).
Source: EEA (2020).
The WHO has developed methods to quantify the burden of disease from environmental noise using DALYs (WHO and JRC, 2011). The DALY estimates how much disease affects the life of the population by combining the burden from:
mortality, in terms of years lost because of premature death due to disease
morbidity, in terms of years of life lived adversely affected by disease.
One DALY corresponds to one lost year of healthy life, attributable to morbidity, mortality or both (see Box 2). The sum of DALYs across a population provides a measurement of the gap between actual health status and an ideal situation in which the entire population lives to an advanced age, free of disease and disability (WHO Europe, 2016).
Because diseases affect health and quality of life in different ways, the severity of each condition or disease is weighted differently. To count the number of life-years lost due to disability, each life-year is weighted by a number that corresponds to the severity of the disability suffered, ranging from 0 (full health) to 1 (death). The disability weights used for noise are:
| Health condition | Disability weight (i.e. severity of health impact) (a) | |
|---|---|---|
| Long-term high annoyance | 0.01 (van Kamp et al., 2018) | 0.02 (WHO Europe, 2018) |
| Long-term high sleep disturbance | 0.0175 (van Kamp et al., 2018) | 0.07 (WHO Europe, 2018) |
(a) Disability weights for high annoyance and sleep disturbance are currently being revised and may change
For example, using the more conservative disability weight estimate (0.0175), living with high sleep disturbance due to noise for 57 years is equivalent in terms of DALYs to dying 1 year earlier than expected (0.0175 x 57 = 1).
The most important causes of disability due to environmental noise are annoyance and sleep disturbance. High annoyance account for 30-50 % of all years lived with disability, and high sleep disturbance account for 20-55 %, depending on the source and disability weight used (Table 4). While annoyance and sleep disturbance are not severe health outcomes, the large number of people affected, illustrated by the use of DALYs, demonstrates the relevance of this indicator.
| Source | Health effect | Years lived with disability | Years of life lost | DALYs/year |
|---|---|---|---|---|
Road |
High annoyance | 172 000-343 000 | 0 | 172 000-343 000 |
| High sleep disturbance | 78 000-311 000 | 0 | 78 000-311 000 | |
| Ischaemic heart disease | 15 000 | 117 000 | 131 000 | |
Rail |
High annoyance | 35 000-70 000 | 0 | 35 000-70 000 |
| High sleep disturbance | 31 000-123 000 | 0 | 31 000-123 000 | |
| Ischaemic heart disease | 2 457 | 18 643 | 21 100 | |
Aircraft |
High annoyance | 11 000-22 000 | 0 | 11 000-22 000 |
| High sleep disturbance | 4 000-18 000 | 0 | 4 000-18 000 | |
| Ischaemic heart disease | 308 | 2 271 | 2 579 | |
Industry |
High annoyance | 874-1 744 | 0 | 874-1 744 |
| High sleep disturbance | 409-1 643 | 0 | 409-1 643 | |
| Ischaemic heart disease | 77 | 689 | 766 |
Notes: Light orange shading indicates the type of disease is included in the International Statistical Classification of Diseases (WHO, 2019). The disability weights used for calculating high annoyance and high sleep disturbance are those specified by the JRC and WHO (2011) and van Kamp et al. (2018) and are indicated as ranges.
Source: EEA (2020).
EEA, 2020, Environmental noise in Europe — 2020, EEA Report No 22/2019, accessed 5 August 2020.
ETC/ACM, 2018, Implications of environmental noise on health and wellbeing in Europe, Eionet Report ETC/ACM No 2018/10, European Topic Centre on Air Pollution and Climate Change Mitigation, accessed 3 April 2019.
van Kamp, I., et al., 2018, Study on methodology to perform environmental noise and health assessment, RIVM Report No 2018-0121, National Institute for Public Health and the Environment (Netherlands).
WHO, 2019, ‘International Statistical Classification of Diseases and Related Health Problems, 10th revision’, World Health Organization, accessed 5 November 2020.
WHO Europe, 2016, Health risk assessment of air pollution — general principles, World Health Organization Regional Office for Europe, Copenhagen, accessed 4 August 2020.
WHO Europe, 2018, Environmental noise guidelines for the European region, World Health Organization Regional Office for Europe, Copenhagen, accessed 7 December 2018.
WHO and JRC, 2011, Burden of disease from environmental noise — quantification of healthy life years lost in Europe, World Health Organization, accessed 5 May 2014.
The country assessments are the sole responsibility of the EEA member and cooperating countries supported by the EEA through guidance, translation and editing.
For references, please go to https://www.eea.europa.eu/publications/health-risks-caused-by-environmental/health-risks-caused-by-environmental or scan the QR code.
PDF generated on 18 Apr 2024, 10:12 PM
Engineered by: EEA Web Team
Software updated on 26 September 2023 08:13 from version 23.8.18
Software version: EEA Plone KGS 23.9.14
Document Actions
Share with others