Methane emissions (% change from 1990) - Country Ranking - Europe

Definition: Methane emissions are those stemming from human activities such as agriculture and from industrial methane production. Each year of data shows the percentage change to that year from 1990.

Source: World Bank staff estimates from original source: European Commission, Joint Research Centre (JRC)/Netherlands Environmental Assessment Agency (PBL). Emission Database for Global Atmospheric Research (EDGAR): http://edgar.jrc.ec.europa.eu/.

See also: Thematic map, Time series comparison

Find indicator:
Rank Country Value Year
1 Turkey 79.82 2012
2 Cyprus 45.73 2012
3 Portugal 31.51 2012
4 Luxembourg 19.39 2012
5 Norway 15.26 2012
6 Spain 13.41 2012
7 Croatia 13.02 2012
8 France 7.17 2012
9 Greece 6.73 2012
10 Iceland 5.00 2012
11 Albania 3.82 2012
12 Ireland 3.21 2012
13 Denmark -4.74 2012
14 Slovenia -6.99 2012
15 Sweden -10.56 2012
16 Belarus -10.88 2012
17 Finland -15.07 2012
18 Moldova -15.41 2012
19 North Macedonia -16.04 2012
20 Switzerland -17.04 2012
21 Austria -20.17 2012
22 Malta -23.15 2012
23 Bulgaria -24.76 2012
24 Italy -25.29 2012
25 Belgium -25.73 2012
26 Hungary -29.13 2012
27 Romania -31.27 2012
28 Bosnia and Herzegovina -31.58 2012
29 Estonia -34.41 2012
30 Czech Republic -34.77 2012
31 Lithuania -36.79 2012
32 Slovak Republic -36.84 2012
33 Netherlands -36.94 2012
34 Poland -39.53 2012
35 Latvia -41.83 2012
36 Ukraine -44.36 2012
37 United Kingdom -49.80 2012
38 Germany -51.75 2012
39 Serbia -100.00 2012

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Development Relevance: The addition of man-made greenhouse gases to the Atmosphere disturbs the earth's radiative balance. This is leading to an increase in the earth's surface temperature and to related effects on climate, sea level rise and world agriculture. Emissions of CO2 are from burning oil, coal and gas for energy use, burning wood and waste materials, and from industrial processes such as cement production. Emission intensity is the average emission rate of a given pollutant from a given source relative to the intensity of a specific activity. Emission intensities are also used to compare the environmental impact of different fuels or activities. The related terms - emission factor and carbon intensity - are often used interchangeably. The carbon dioxide emissions of a country are only an indicator of one greenhouse gas. For a more complete idea of how a country influences climate change, gases such as methane and nitrous oxide should be taken into account. This is particularly important in agricultural economies. The environmental effects of carbon dioxide are of significant interest. Carbon dioxide (CO2) makes up the largest share of the greenhouse gases contributing to global warming and climate change. Converting all other greenhouse gases (methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), Sulphur hexafluoride (SF6)) to carbon dioxide (or CO2) equivalents makes it possible to compare them and to determine their individual and total contributions to global warming. The Kyoto Protocol, an environmental agreement adopted in 1997 by many of the parties to the United Nations Framework Convention on Climate Change (UNFCCC), is working towards curbing CO2 emissions globally.

Limitations and Exceptions: National reporting to the United Nations Framework Convention on Climate Change that follows the Intergovernmental Panel on Climate Change guidelines is based on national emission inventories and covers all sources of anthropogenic carbon dioxide emissions as well as carbon sinks (such as forests). To estimate emissions, the countries that are Parties to the Climate Change Convention (UNFCCC) use complex, state-of-the-art methodologies recommended by the Intergovernmental Panel on Climate Change (IPCC).

Statistical Concept and Methodology: Methane emissions are those stemming from human activities such as agriculture and from industrial methane production. Expressed in CO2 equivalent using the GWP100 metric of the Second Assessment Report of IPCC and include CH4 (GWP100=21). The emissions are usually expressed in carbon dioxide equivalents using the global warming potential, which allows the effective contributions of different gases to be compared. A kilogram of methane is 21 times as effective at trapping heat in the earth's atmosphere as a kilogram of carbon dioxide within 100 years.

Aggregation method: Weighted average

Periodicity: Annual