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Environment Stats: compare key data on North Korea & South Korea

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Definitions

  • Biodiversity > Bird species, threatened: Bird species, threatened. Birds are listed for countries included within their breeding or wintering ranges. Threatened species are the number of species classified by the IUCN as endangered, vulnerable, rare, indeterminate, out of danger, or insufficiently known.
  • Biodiversity > Mammal species, threatened: Mammal species, threatened. Mammal species are mammals excluding whales and porpoises. Threatened species are the number of species classified by the IUCN as endangered, vulnerable, rare, indeterminate, out of danger, or insufficiently known.
  • CFC > Consumption: CFC consumption
    Units: Ozone Depletion Potential (ODP) Tons (Metric Tons x ODP)
    Units: The indicator was obtained by multiplying the Total CFCs emissions (metric tons per ozone depletion potential) with the Per capita CFCs emissions (obtained by dividing the total CFCs emissions by the population in 1997). In calculating the ESI, the base-10 logarithm of this variable was used.
  • CO2 emissions > Kt: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.
  • Carbon efficiency: Carbon economic efficiency (CO2 emissions per dollar GDP)
    Units: Metric Tons/US Dollar GDP
  • Climate change > CO2 emissions > Metric tons per capita: CO2 emissions (metric tons per capita). Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.
  • Climate change > CO2 emissions from electricity and heat production, total > Million metric tons: CO2 emissions from electricity and heat production, total (million metric tons). CO2 emissions from electricity and heat production is the sum of three IEA categories of CO2 emissions: (1) Main Activity Producer Electricity and Heat which contains the sum of emissions from main activity producer electricity generation, combined heat and power generation and heat plants. Main activity producers (formerly known as public utilities) are defined as those undertakings whose primary activity is to supply the public. They may be publicly or privately owned. This corresponds to IPCC Source/Sink Category 1 A 1 a. For the CO2 emissions from fuel combustion (summary) file, emissions from own on-site use of fuel in power plants (EPOWERPLT) are also included. (2) Unallocated Autoproducers which contains the emissions from the generation of electricity and/or heat by autoproducers. Autoproducers are defined as undertakings that generate electricity and/or heat, wholly or partly for their own use as an activity which supports their primary activity. They may be privately or publicly owned. In the 1996 IPCC Guidelines, these emissions would normally be distributed between industry, transport and "other" sectors. (3) Other Energy Industries contains emissions from fuel combusted in petroleum refineries, for the manufacture of solid fuels, coal mining, oil and gas extraction and other energy-producing industries. This corresponds to the IPCC Source/Sink Categories 1 A 1 b and 1 A 1 c. According to the 1996 IPCC Guidelines, emissions from coke inputs to blast furnaces can either be counted here or in the Industrial Processes source/sink category. Within detailed sectoral calculations, certain non-energy processes can be distinguished. In the reduction of iron in a blast furnace through the combustion of coke, the primary purpose of the coke oxidation is to produce pig iron and the emissions can be considered as an industrial process. Care must be taken not to double count these emissions in both Energy and Industrial Processes. In the IEA estimations, these emissions have been included in this category.
  • Climate change > CO2 emissions from electricity and heat production, total > Million metric tons per million: CO2 emissions from electricity and heat production, total (million metric tons). CO2 emissions from electricity and heat production is the sum of three IEA categories of CO2 emissions: (1) Main Activity Producer Electricity and Heat which contains the sum of emissions from main activity producer electricity generation, combined heat and power generation and heat plants. Main activity producers (formerly known as public utilities) are defined as those undertakings whose primary activity is to supply the public. They may be publicly or privately owned. This corresponds to IPCC Source/Sink Category 1 A 1 a. For the CO2 emissions from fuel combustion (summary) file, emissions from own on-site use of fuel in power plants (EPOWERPLT) are also included. (2) Unallocated Autoproducers which contains the emissions from the generation of electricity and/or heat by autoproducers. Autoproducers are defined as undertakings that generate electricity and/or heat, wholly or partly for their own use as an activity which supports their primary activity. They may be privately or publicly owned. In the 1996 IPCC Guidelines, these emissions would normally be distributed between industry, transport and "other" sectors. (3) Other Energy Industries contains emissions from fuel combusted in petroleum refineries, for the manufacture of solid fuels, coal mining, oil and gas extraction and other energy-producing industries. This corresponds to the IPCC Source/Sink Categories 1 A 1 b and 1 A 1 c. According to the 1996 IPCC Guidelines, emissions from coke inputs to blast furnaces can either be counted here or in the Industrial Processes source/sink category. Within detailed sectoral calculations, certain non-energy processes can be distinguished. In the reduction of iron in a blast furnace through the combustion of coke, the primary purpose of the coke oxidation is to produce pig iron and the emissions can be considered as an industrial process. Care must be taken not to double count these emissions in both Energy and Industrial Processes. In the IEA estimations, these emissions have been included in this category. Figures expressed per million population for the same year.
  • Current issues: This entry lists the most pressing and important environmental problems. The following terms and abbreviations are used throughout the entry:
  • Ecological footprint: Ecological footprint per capita
    Units: Hectares per Person
  • Forest area > Sq. km > Per capita: Forest area is land under natural or planted stands of trees, whether productive or not. Per capita figures expressed per 1,000 population.
  • Marine fish catch: Total marine fish catch
    Units: Metric Tons
  • Marine fish catch per 1000: Total marine fish catch
    Units: Metric Tons. Figures expressed per thousand population for the same year.
  • Water > Severe water stress: Percent of country's territory under severe water stress
    Units: Percent of Land Area
    Units: This data is derived from the WaterGap 2.1 gridded hydrological model developed by the Center for Environmental Systems Research, University of Kassel, Germany. The modellers derived, for each country, grid cell by grid cell estimates of whether the water consumption exceeds 40 percent of the water available in that particular grid cell. These were then converted to land area equivalents in order to calculate the percentage of the territory under severe water stress.
  • CO2 emissions > Kt per 1000: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring. Figures expressed per thousand population for the same year.
  • Total renewable water resources per million: . Figures expressed per million population for the same year.
  • SO2 emissions per populated area: SO2 emissions per populated land area
    Units: 1000 Metric Tons/Sq. Km. of Populated Land Area
    Units: We obtained the total emissions for each country by summarizing emissions data, originally available as a grid map with 1 degree x 1 degree cells. Air pollution is generally greatest in densely populated areas. To take this into account, we used the Gridded Population of the World dataset available from CIESIN and calculated the total land area in each country inhabited with a population density of greater than 5 persons per sq. km. We then used this land area as a denominator for the emissions data.
  • Biodiversity > Fish species, threatened: Fish species, threatened. Fish species are based on Froese, R. and Pauly, D. (eds). 2008. Threatened species are the number of species classified by the IUCN as endangered, vulnerable, rare, indeterminate, out of danger, or insufficiently known.
  • Climate change > CO2 emissions > Kt: CO2 emissions (kt). Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring.
  • CO2 emissions > Kt > Per capita: Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring. Per capita figures expressed per 1,000 population.
  • NOx emissions per populated area: NOx emissions per populated land area
    Units: 1000 Metric Tons/Sq. Km. of Populated Land Area
    Units: We obtained the total emissions for each country by summarizing emissions data, originally available as a grid map with 1 degree x 1 degree cells. Air pollution is generally greatest in densely populated areas. To take this into account, we used the Gridded Population of the World dataset available from CIESIN and calculated the total land area in each country inhabited with a population density of greater than 5 persons per sq. km. We then used this land area as a denominator for the emissions data.
  • Water > Dissolved oxygen concentration: Dissolved oxygen concentration
    Units: Milligrams/Liter
    Units: The country values represent averages of the station-level values for the three year time period 1994-96, exceptwhere data were only available for an earlier time period (1988-1993). The number of stations per country varies depending on country size; number of bodies of water; and level of participation in the GEMS monitoring system. The data from "The Wellbeing of Nations" included a smaller subset of stations representing outfalls of major watersheds. An analysis of a sample of countries with numerous stations found that the data for stations in the subset is broadly comparable to the data for all GEMS stations in those countries.
  • Climate change > CO2 emissions > Kt per 1000: CO2 emissions (kt). Carbon dioxide emissions are those stemming from the burning of fossil fuels and the manufacture of cement. They include carbon dioxide produced during consumption of solid, liquid, and gas fuels and gas flaring. Figures expressed per thousand population for the same year.
  • Forest area > Sq. km: Forest area is land under natural or planted stands of trees, whether productive or not.
  • Water > Availability: Water availability per capita (1961-1990 (avg.))
    Units: Thousands Cubic Meters/Person
    Units: This variable measures internal renewable water (average annual surface runoff and groundwater recharge generated from endogenous precipitation)
  • Biodiversity > Plant species > Higher, threatened: Plant species (higher), threatened. Higher plants are native vascular plant species. Threatened species are the number of species classified by the IUCN as endangered, vulnerable, rare, indeterminate, out of danger, or insufficiently known.
  • Threatened species: Number of Threatened Species (1990-99)
  • CFC > Consumption per 1000: CFC consumption
    Units: Ozone Depletion Potential (ODP) Tons (Metric Tons x ODP)
    Units: The indicator was obtained by multiplying the Total CFCs emissions (metric tons per ozone depletion potential) with the Per capita CFCs emissions (obtained by dividing the total CFCs emissions by the population in 1997). In calculating the ESI, the base-10 logarithm of this variable was used. Figures expressed per thousand population for the same year.
  • Protected area: Environmentally protected area (1997)
  • Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum: GEF benefits index for biodiversity (0 = no biodiversity potential to 100 = maximum). GEF benefits index for biodiversity is a composite index of relative biodiversity potential for each country based on the species represented in each country, their threat status, and the diversity of habitat types in each country. The index has been normalized so that values run from 0 (no biodiversity potential) to 100 (maximum biodiversity potential).
  • Acidification: Percentage of country with acidification excedence
    Units: Percent of Land Area
    Units: From a map of acidification excedence, all areas at risk within each country were added together in order to calculate the percentage of the entire country at risk of excedence. See pages 21-22 of the 2001 ESI report for more details on how the acidification excedence map was produced.
  • Pollution > PM10, country level > Micrograms per cubic meter: PM10, country level (micrograms per cubic meter). Particulate matter concentrations refer to fine suspended particulates less than 10 microns in diameter (PM10) that are capable of penetrating deep into the respiratory tract and causing significant health damage. Data for countries and aggregates for regions and income groups are urban-population weighted PM10 levels in residential areas of cities with more than 100,000 residents. The estimates represent the average annual exposure level of the average urban resident to outdoor particulate matter. The state of a country's technology and pollution controls is an important determinant of particulate matter concentrations.
  • Endangered species protection: Percent of CITES reporting requirements met
    Units: Percent of Requirements Met
    Units: Countries that have not ratified the CITES convention are recorded as having zero percent of their requirements met.
  • Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > Million metric tons: CO2 emissions from other sectors, excluding residential buildings and commercial and public services (million metric tons). CO2 emissions from other sectors, less residential buildings and commercial and public services, contains the emissions from commercial/institutional activities, residential, agriculture/forestry, fishing and other emissions not specified elsewhere that are included in the IPCC Source/Sink Categories 1 A 4 and 1 A 5. In the 1996 IPCC Guidelines, the category also includes emissions from autoproducers in the commercial/residential/agricultural sectors that generate electricity and/or heat. The IEA data are not collected in a way that allows the energy consumption to be split by specific end-use and therefore, autoproducers are shown as a separate item (Unallocated Autoproducers).
  • Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum per million: GEF benefits index for biodiversity (0 = no biodiversity potential to 100 = maximum). GEF benefits index for biodiversity is a composite index of relative biodiversity potential for each country based on the species represented in each country, their threat status, and the diversity of habitat types in each country. The index has been normalized so that values run from 0 (no biodiversity potential) to 100 (maximum biodiversity potential). Figures expressed per million population for the same year.
  • Wildness: Percent of land area having very low anthropogenic impact
    Units: Percent of Land Area
    Units: Global grids for population (GPW), land use (USGS AVHRR based classification from EROS data center), VMAP roads, VMAP railways, VMAP coastlines, VMAP major rivers and the stable lights data were all scored for "wildness". The scores were aggregated and normalized.
  • Forest area > Sq. km per 1000: Forest area is land under natural or planted stands of trees, whether productive or not. Figures expressed per thousand population for the same year.
  • Threatened species > Mammal: Number of threatened mammal species (1997)
  • Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons: CO2 emissions from residential buildings and commercial and public services (million metric tons). CO2 emissions from residential buildings and commercial and public services contains all emissions from fuel combustion in households. This corresponds to IPCC Source/Sink Category 1 A 4 b. Commercial and public services includes emissions from all activities of ISIC Divisions 41, 50-52, 55, 63-67, 70-75, 80, 85, 90-93 and 99.
  • Pollution > Carbon dioxide 1999: 1999 total CO2 emissions from fossil-fuel burning, cement production, and gas flaring. Emissions are expressed in thousand metric tons of carbon (not CO2).
  • Breeding birds threatened: Percentage of breeding birds threatened
    Units: Percent of Breeding Birds
    Units: The number of bird species threatened divided by known bird species in the country, expressed as a percentage.
  • Climate change > CO2 emissions from solid fuel consumption > Kt per 1000: CO2 emissions from solid fuel consumption (kt). Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal as an energy source. Figures expressed per thousand population for the same year.
  • Climate change > CO2 emissions from gaseous fuel consumption > Kt per 1000: CO2 emissions from gaseous fuel consumption (kt). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of natural gas as an energy source. Figures expressed per thousand population for the same year.
  • Climate change > CO2 emissions from solid fuel consumption > Kt: CO2 emissions from solid fuel consumption (kt). Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal as an energy source.
  • Climate change > CO2 emissions from liquid fuel consumption > Kt per 1000: CO2 emissions from liquid fuel consumption (kt). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of petroleum-derived fuels as an energy source. Figures expressed per thousand population for the same year.
  • Climate change > CO2 emissions from gaseous fuel consumption > Kt: CO2 emissions from gaseous fuel consumption (kt). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of natural gas as an energy source.
  • Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent per million: Other greenhouse gas emissions, HFC, PFC and SF6 (thousand metric tons of CO2 equivalent). Other greenhouse gas emissions are by-product emissions of hydrofluorocarbons, perfluorocarbons, and sulfur hexafluoride. Figures expressed per million population for the same year.
  • Urban SO2 concentration: Urban SO2 concentration
    Units: Micrograms/m3
    Units: The values were originally collected at the city level. Each nation varied in terms of the number of cities reported, so this data should be used with some caution. Within each country the values have been normalized by city population for the year 1995, then added together to obtain the total concentration for the given country.
  • Pollution > Carbon dioxide 1999 per 1000: 1999 total CO2 emissions from fossil-fuel burning, cement production, and gas flaring. Emissions are expressed in thousand metric tons of carbon (not CO2). Figures expressed per thousand population for the same year.
  • Freshwater > Withdrawal per million: . Figures expressed per million population for the same year.
  • Water > Salinisation: Electrical conductivity
    Units: Micro-Siemens/Centimeter
    Units: The country values represent averages of the station-level values for the three year time period 1994-96, except where data were only available for an earlier time period (1988-1993). The number of stations per country varies depending on country size; number of water bodies; and level of participation in the GEMS monitoring system.
  • Fertiliser > Consumption: Fertilizer consumption per hectare of arable land
    Units: Hundreds Grams/Hectare of Arable Land
  • Urban NO2 concentration: Urban NO2 concentration
    Units: Micrograms/m3
    Units: The values were originally collected at the city level. Each nation varied in terms of the number of cities reported, so this data should be used with some caution. Within each country the values have been normalized by city population for the year 1995, then added together to obtain the total concentration for the given country.
  • Non-wildness: Percent of land area having very high anthropogenic impact
    Units: Percent of Land Area
    Units: Global grids for population (GPW), land use (USGS AVHRR based classification from EROS data center), VMAP roads, VMAP railways, VMAP coastlines, VMAP major rivers and the stable lights data were all scored for "wildness". The scores were aggregated and normalized.
  • Pollution > Greenhouse gas emissions > United Nations Framework Convention on Climate Change sign date: Signature.
  • Climate change > CO2 emissions from liquid fuel consumption > Kt: CO2 emissions from liquid fuel consumption (kt). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of petroleum-derived fuels as an energy source.
  • PM10 > Country level > Micrograms per cubic meter: Particulate matter concentrations refer to fine suspended particulates less than 10 microns in diameter (PM10) that are capable of penetrating deep into the respiratory tract and causing significant health damage. Data for countries and aggregates for regions and income groups are urban-population weighted PM10 levels in residential areas of cities with more than 100,000 residents. The estimates represent the average annual exposure level of the average urban resident to outdoor particulate matter. The state of a countryÂ’s technology and pollution controls is an important determinant of particulate matter concentrations.
  • Climate change > GHG net emissions/removals by LUCF > Mt of CO2 equivalent: GHG net emissions/removals by LUCF (Mt of CO2 equivalent). GHG net emissions/removals by LUCF refers to changes in atmospheric levels of all greenhouse gases attributable to forest and land-use change activities, including but not limited to (1) emissions and removals of CO2 from decreases or increases in biomass stocks due to forest management, logging, fuelwood collection, etc.; (2) conversion of existing forests and natural grasslands to other land uses; (3) removal of CO2 from the abandonment of formerly managed lands (e.g. croplands and pastures); and (4) emissions and removals of CO2 in soil associated with land-use change and management. For Annex-I countries under the UNFCCC, these data are drawn from the annual GHG inventories submitted to the UNFCCC by each country; for non-Annex-I countries, data are drawn from the most recently submitted National Communication where available. Because of differences in reporting years and methodologies, these data are not generally considered comparable across countries. Data are in million metric tons.
  • International agreements > Signed but not ratified: The various international environmental agreements which a country has signed but not ratified. Agreements are listed in alphabetical order by the abbreviated form of the full name.
  • Climate change > GHG net emissions/removals by LUCF > Mt of CO2 equivalent per million: GHG net emissions/removals by LUCF (Mt of CO2 equivalent). GHG net emissions/removals by LUCF refers to changes in atmospheric levels of all greenhouse gases attributable to forest and land-use change activities, including but not limited to (1) emissions and removals of CO2 from decreases or increases in biomass stocks due to forest management, logging, fuelwood collection, etc.; (2) conversion of existing forests and natural grasslands to other land uses; (3) removal of CO2 from the abandonment of formerly managed lands (e.g. croplands and pastures); and (4) emissions and removals of CO2 in soil associated with land-use change and management. For Annex-I countries under the UNFCCC, these data are drawn from the annual GHG inventories submitted to the UNFCCC by each country; for non-Annex-I countries, data are drawn from the most recently submitted National Communication where available. Because of differences in reporting years and methodologies, these data are not generally considered comparable across countries. Data are in million metric tons. Figures expressed per million population for the same year.
  • Marine protected areas > % of territorial waters: Marine protected areas (% of territorial waters). Marine protected areas are areas of intertidal or subtidal terrain--and overlying water and associated flora and fauna and historical and cultural features--that have been reserved by law or other effective means to protect part or all of the enclosed environment.
  • Adjusted savings > Particulate emission damage > % of GNI: Particulate emissions damage is calculated as the willingness to pay to avoid mortality attributable to particulate emissions.
  • Climate change > CO2 emissions from liquid fuel consumption > % of total: CO2 emissions from liquid fuel consumption (% of total). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of petroleum-derived fuels as an energy source.
  • Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons per million: CO2 emissions from residential buildings and commercial and public services (million metric tons). CO2 emissions from residential buildings and commercial and public services contains all emissions from fuel combustion in households. This corresponds to IPCC Source/Sink Category 1 A 4 b. Commercial and public services includes emissions from all activities of ISIC Divisions 41, 50-52, 55, 63-67, 70-75, 80, 85, 90-93 and 99. Figures expressed per million population for the same year.
  • Climate change > CO2 emissions from gaseous fuel consumption > % of total: CO2 emissions from gaseous fuel consumption (% of total). Carbon dioxide emissions from liquid fuel consumption refer mainly to emissions from use of natural gas as an energy source.
  • Climate change > CO2 emissions from solid fuel consumption > % of total: CO2 emissions from solid fuel consumption (% of total). Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal as an energy source.
  • Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent: Other greenhouse gas emissions, HFC, PFC and SF6 (thousand metric tons of CO2 equivalent). Other greenhouse gas emissions are by-product emissions of hydrofluorocarbons, perfluorocarbons, and sulfur hexafluoride.
  • Water > Suspended solids: Suspended solids
    Units: Natural Log of Milligrams/Liter
    Units: The country values represent averages of the station-level values for the three year time period 1994-96, exceptwhere data were only available for an earlier time period (1988-1993). The number of stations per country varies depending on country size; number of bodies of water; and level of participation in the GEMS monitoring system. Data from "The Wellbeing of Nations" included a smaller subset of stations representing outfalls of majorwatersheds. An analysis of a sample of countries with numerous stations found that the data for stations in the subset is broadly comparable to the data for all GEMS stations in those countries. The data in this table was transformed using the natural logarithm.
  • Forest area > % of land area: Forest area is land under natural or planted stands of trees, whether productive or not.
  • Climate change > CO2 emissions from residential buildings and commercial and public services > % of total fuel combustion: CO2 emissions from residential buildings and commercial and public services (% of total fuel combustion). CO2 emissions from residential buildings and commercial and public services contains all emissions from fuel combustion in households. This corresponds to IPCC Source/Sink Category 1 A 4 b. Commercial and public services includes emissions from all activities of ISIC Divisions 41, 50-52, 55, 63-67, 70-75, 80, 85, 90-93 and 99.
  • Water > Phosphorus concentration: Phosphorus concentration
    Units: Milligrams/Liter
    Units: The country values represent averages of the station-level values for the three year time period 1994-96, except where data were only available for an earlier time period (1988-1993). The number of stations per country varies depending on country size; number of bodies of water; and level of participation in the GEMS monitoring system. The data from "The Wellbeing of Nations" included a smaller subset of stations representing outfalls of major watersheds. An analysis of a sample of countries with numerous stations found that the data for stations in the subset is broadly comparable to the data for all GEMS stations in those countries.
  • Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > % of total fuel combustion: CO2 emissions from other sectors, excluding residential buildings and commercial and public services (% of total fuel combustion). CO2 emissions from other sectors, less residential buildings and commercial and public services, contains the emissions from commercial/institutional activities, residential, agriculture/forestry, fishing and other emissions not specified elsewhere that are included in the IPCC Source/Sink Categories 1 A 4 and 1 A 5. In the 1996 IPCC Guidelines, the category also includes emissions from autoproducers in the commercial/residential/agricultural sectors that generate electricity and/or heat. The IEA data are not collected in a way that allows the energy consumption to be split by specific end-use and therefore, autoproducers are shown as a separate item (Unallocated Autoproducers).
  • Climate change > CO2 emissions from electricity and heat production, total > % of total fuel combustion: CO2 emissions from electricity and heat production, total (% of total fuel combustion). CO2 emissions from electricity and heat production is the sum of three IEA categories of CO2 emissions: (1) Main Activity Producer Electricity and Heat which contains the sum of emissions from main activity producer electricity generation, combined heat and power generation and heat plants. Main activity producers (formerly known as public utilities) are defined as those undertakings whose primary activity is to supply the public. They may be publicly or privately owned. This corresponds to IPCC Source/Sink Category 1 A 1 a. For the CO2 emissions from fuel combustion (summary) file, emissions from own on-site use of fuel in power plants (EPOWERPLT) are also included. (2) Unallocated Autoproducers which contains the emissions from the generation of electricity and/or heat by autoproducers. Autoproducers are defined as undertakings that generate electricity and/or heat, wholly or partly for their own use as an activity which supports their primary activity. They may be privately or publicly owned. In the 1996 IPCC Guidelines, these emissions would normally be distributed between industry, transport and "other" sectors. (3) Other Energy Industries contains emissions from fuel combusted in petroleum refineries, for the manufacture of solid fuels, coal mining, oil and gas extraction and other energy-producing industries. This corresponds to the IPCC Source/Sink Categories 1 A 1 b and 1 A 1 c. According to the 1996 IPCC Guidelines, emissions from coke inputs to blast furnaces can either be counted here or in the Industrial Processes source/sink category. Within detailed sectoral calculations, certain non-energy processes can be distinguished. In the reduction of iron in a blast furnace through the combustion of coke, the primary purpose of the coke oxidation is to produce pig iron and the emissions can be considered as an industrial process. Care must be taken not to double count these emissions in both Energy and Industrial Processes. In the IEA estimations, these emissions have been included in this category.
STAT North Korea South Korea HISTORY
Biodiversity > Bird species, threatened 25
Ranked 39th.
29
Ranked 33th. 16% more than North Korea
Biodiversity > Mammal species, threatened 9
Ranked 97th. The same as South Korea
9
Ranked 107th.
CFC > Consumption 2,382.66
Ranked 55th.
1.86 million
Ranked 2nd. 780 times more than North Korea
CO2 emissions > Kt 77,454.13 kt
Ranked 39th.
455,878.7 kt
Ranked 9th. 6 times more than North Korea

Carbon efficiency 4.72 CO2 emissions/$ GDP
Ranked 9th. 3 times more than South Korea
1.51 CO2 emissions/$ GDP
Ranked 50th.
Climate change > CO2 emissions > Metric tons per capita 2.92
Ranked 96th.
11.49
Ranked 21st. 4 times more than North Korea

Climate change > CO2 emissions from electricity and heat production, total > Million metric tons 10.33
Ranked 76th.
338.7
Ranked 8th. 33 times more than North Korea

Climate change > CO2 emissions from electricity and heat production, total > Million metric tons per million 0.419
Ranked 94th.
6.8
Ranked 14th. 16 times more than North Korea

Current issues water pollution; inadequate supplies of potable water; waterborne disease; deforestation; soil erosion and degradation air pollution in large cities; acid rain; water pollution from the discharge of sewage and industrial effluents; drift net fishing
Ecological footprint 1.92
Ranked 73th.
5.6
Ranked 23th. 3 times more than North Korea
Forest area > Sq. km > Per capita 2.75 km² per 1,000 people
Ranked 97th. 2 times more than South Korea
1.3 km² per 1,000 people
Ranked 134th.

Marine fish catch 164,900 tons
Ranked 46th.
1.37 million tons
Ranked 12th. 8 times more than North Korea
Marine fish catch per 1000 7.28 tons
Ranked 55th.
29.45 tons
Ranked 22nd. 4 times more than North Korea
Total renewable water resources 77.1 cu km
Ranked 13th. 11% more than South Korea
69.7 cu km
Ranked 14th.
Water > Severe water stress 2.8
Ranked 71st.
49.8
Ranked 33th. 18 times more than North Korea
CO2 emissions > Kt per 1000 3.3 kt
Ranked 84th.
9.53 kt
Ranked 30th. 3 times more than North Korea

Total renewable water resources per million 3.41 cu km
Ranked 12th. 2 times more than South Korea
1.5 cu km
Ranked 17th.
SO2 emissions per populated area 7,640 thousand metric tons/squ
Ranked 5th.
19,430 thousand metric tons/squ
Ranked 2nd. 3 times more than North Korea
Biodiversity > Fish species, threatened 14
Ranked 134th.
18
Ranked 123th. 29% more than North Korea
Climate change > CO2 emissions > Kt 71,623.84
Ranked 46th.
567,567.26
Ranked 9th. 8 times more than North Korea

CO2 emissions > Kt > Per capita 3.48 kt per 1,000 people
Ranked 85th.
9.53 kt per 1,000 people
Ranked 34th. 3 times more than North Korea

NOx emissions per populated area 1.18 thousand metric tons/squ
Ranked 16th.
1.24 thousand metric tons/squ
Ranked 14th. 5% more than North Korea
Water > Dissolved oxygen concentration 6.73 mls/litre
Ranked 95th.
10.32 mls/litre
Ranked 18th. 53% more than North Korea
Climate change > CO2 emissions > Kt per 1000 2.92
Ranked 96th.
11.49
Ranked 21st. 4 times more than North Korea

Forest area > Sq. km 61,870 km²
Ranked 69th.
62,650 km²
Ranked 68th. 1% more than North Korea

Water > Availability 2.11 thousand cubic metres
Ranked 82nd. 82% more than South Korea
1.16 thousand cubic metres
Ranked 104th.
Biodiversity > Plant species > Higher, threatened 8
Ranked 108th. 33% more than South Korea
6
Ranked 122nd.
Threatened species 27
Ranked 73th. 4% more than South Korea
26
Ranked 77th.
CFC > Consumption per 1000 0.107
Ranked 58th.
40.45
Ranked 4th. 378 times more than North Korea
Protected area 0.2%
Ranked 140th.
2.4%
Ranked 110th. 12 times more than North Korea
Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum 0.653
Ranked 138th.
1.72
Ranked 99th. 3 times more than North Korea

Acidification 2.43%
Ranked 38th.
58.9%
Ranked 4th. 24 times more than North Korea
Freshwater > Withdrawal 9.02
Ranked 42nd.
18.59
Ranked 29th. 2 times more than North Korea
Pollution > PM10, country level > Micrograms per cubic meter 51.72
Ranked 39th. 71% more than South Korea
30.26
Ranked 77th.

Endangered species protection 0.0
Ranked 110th.
100%
Ranked 21st.
Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > Million metric tons 12.42
Ranked 10th. 32% more than South Korea
9.41
Ranked 16th.

Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum per million 0.0269
Ranked 179th.
0.0351
Ranked 169th. 30% more than North Korea

Wildness 0.0
Ranked 117th.
0.0
Ranked 139th.
Forest area > Sq. km per 1000 2.6 km²
Ranked 96th. Twice as much as South Korea
1.3 km²
Ranked 132nd.

Threatened species > Mammal 5
Ranked 118th.
6
Ranked 115th. 20% more than North Korea
Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons 0.12
Ranked 126th.
51.75
Ranked 13th. 431 times more than North Korea

Pollution > Carbon dioxide 1999 56,946
Ranked 21st.
107,399
Ranked 9th. 89% more than North Korea
Breeding birds threatened 16.52%
Ranked 6th.
22.32%
Ranked 4th. 35% more than North Korea
Climate change > CO2 emissions from solid fuel consumption > Kt per 1000 2.71
Ranked 27th.
5.66
Ranked 9th. 2 times more than North Korea

Climate change > CO2 emissions from gaseous fuel consumption > Kt per 1000 0.0
Ranked 120th.
1.81
Ranked 40th.

Climate change > CO2 emissions from solid fuel consumption > Kt 66,479.04
Ranked 19th.
279,656.42
Ranked 9th. 4 times more than North Korea

Climate change > CO2 emissions from liquid fuel consumption > Kt per 1000 0.0796
Ranked 184th.
3.54
Ranked 45th. 44 times more than North Korea

Climate change > CO2 emissions from gaseous fuel consumption > Kt 0.0
Ranked 120th.
89,434.46
Ranked 18th.

Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent per million 172.89
Ranked 42nd.
220.7
Ranked 38th. 28% more than North Korea

Urban SO2 concentration 27.19 micrograms/m3
Ranked 95th.
52.41 micrograms/m3
Ranked 63th. 93% more than North Korea
Pollution > Carbon dioxide 1999 per 1000 2.52
Ranked 25th. 9% more than South Korea
2.3
Ranked 32nd.
Freshwater > Withdrawal per million 0.395
Ranked 62nd.
0.395
Ranked 61st. About the same as North Korea
Water > Salinisation 727.1
Ranked 59th. 5 times more than South Korea
141.33
Ranked 128th.
Fertiliser > Consumption 924.74 hundred grams/hectare
Ranked 58th.
5,117.1 hundred grams/hectare
Ranked 8th. 6 times more than North Korea
Urban NO2 concentration 43.24 micrograms/m3
Ranked 92nd.
52.86 micrograms/m3
Ranked 65th. 22% more than North Korea
Non-wildness 13.31%
Ranked 33th.
20.92%
Ranked 15th. 57% more than North Korea
Pollution > Greenhouse gas emissions > United Nations Framework Convention on Climate Change sign date June 11, 1992 June 13, 1992
Climate change > CO2 emissions from liquid fuel consumption > Kt 1,950.84
Ranked 132nd.
174,919.57
Ranked 16th. 90 times more than North Korea

PM10 > Country level > Micrograms per cubic meter 79.45 mcg/m³
Ranked 29th. 2 times more than South Korea
38.22 mcg/m³
Ranked 97th.

Climate change > GHG net emissions/removals by LUCF > Mt of CO2 equivalent -14.622
Ranked 31st.
-34.642
Ranked 31st. 2 times more than North Korea
International agreements > Signed but not ratified Law of the Sea none of the selected agreements
Climate change > GHG net emissions/removals by LUCF > Mt of CO2 equivalent per million -0.724
Ranked 25th.
-0.732
Ranked 18th. 1% more than North Korea
Marine protected areas > % of territorial waters 3.94%
Ranked 71st. 23 times more than South Korea
0.17%
Ranked 137th.

Adjusted savings > Particulate emission damage > % of GNI 1.25% of GNI
Ranked 16th. 2 times more than South Korea
0.6% of GNI
Ranked 56th.

Freshwater > Withdrawal > Domestic 20%
Ranked 44th.
36%
Ranked 17th. 80% more than North Korea
Climate change > CO2 emissions from liquid fuel consumption > % of total 2.72%
Ranked 196th.
30.82%
Ranked 163th. 11 times more than North Korea

Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons per million 0.00487
Ranked 133th.
1.04
Ranked 21st. 213 times more than North Korea

Climate change > CO2 emissions from gaseous fuel consumption > % of total 0.0
Ranked 120th.
15.76%
Ranked 74th.

Freshwater > Withdrawal > Industrial 25%
Ranked 15th. 56% more than South Korea
16%
Ranked 32nd.
Climate change > CO2 emissions from solid fuel consumption > % of total 92.82%
Ranked 1st. 88% more than South Korea
49.27%
Ranked 20th.

Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent 4,236
Ranked 20th.
10,905
Ranked 13th. 3 times more than North Korea

Water > Suspended solids 7.85 mls/litre
Ranked 9th. 5 times more than South Korea
1.69 mls/litre
Ranked 140th.
Forest area > % of land area 51.38% of land area
Ranked 39th.
63.46% of land area
Ranked 20th. 24% more than North Korea

Climate change > CO2 emissions from residential buildings and commercial and public services > % of total fuel combustion 0.185%
Ranked 135th.
8.81%
Ranked 56th. 48 times more than North Korea

Water > Phosphorus concentration 0.81 mls/litre
Ranked 8th.
1.13 mls/litre
Ranked 3rd. 40% more than North Korea
Freshwater > Withdrawal > Agricultural 55%
Ranked 95th. 15% more than South Korea
48%
Ranked 102nd.
Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > % of total fuel combustion 19.16%
Ranked 5th. 12 times more than South Korea
1.6%
Ranked 81st.

Climate change > CO2 emissions from electricity and heat production, total > % of total fuel combustion 15.94%
Ranked 116th.
57.63%
Ranked 20th. 4 times more than North Korea

SOURCES: United Nations Environmental Program and the World Conservation Monitoring Centre; United Nations Environmental Program and the World Conservation Monitoring Centre; UNEP, Production and Consumption of Ozone Depleting Substances, 1986-1998, October 1999. via ciesin.org; World Development Indicators database; Carbon Dioxide Information Analysis Center; Carbon Dioxide Information Analysis Center, Environmental Sciences Division, Oak Ridge National Laboratory, Tennessee, United States.; International Energy Agency; International Energy Agency. Population figures from World Bank: (1) United Nations Population Division. World Population Prospects, (2) United Nations Statistical Division. Population and Vital Statistics Report (various years), (3) Census reports and other statistical publications from national statistical offices, (4) Eurostat: Demographic Statistics, (5) Secretariat of the Pacific Community: Statistics and Demography Programme, and (6) U.S. Census Bureau: International Database.; CIA World Factbooks 18 December 2003 to 28 March 2011; World Wide Fund for Nature (WWF), Living Planet Report 2000, Gland, Switzerland: 2000, and Redefining Progress.; FAOSTAT on-line database; FAOSTAT on-line database. Population figures from World Bank: (1) United Nations Population Division. World Population Prospects, (2) United Nations Statistical Division. 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Population and Vital Statistics Report (various years), (3) Census reports and other statistical publications from national statistical offices, (4) Eurostat: Demographic Statistics, (5) Secretariat of the Pacific Community: Statistics and Demography Programme, and (6) U.S. Census Bureau: International Database.; Intergovernmental Panel on Climate Change: Special Report on Emissions Scenarios, Data Version 1.1, B1Illustrative Marker Scenario with model IMAGE; Froese, R. and Pauly, D. (eds). 2008. FishBase database, www.fishbase.org.; United Nations Environment Programme (UNEP), Global Environmental Monitoring System/Water Quality Monitoring System, with data for an additional 29 countries from Prescott-Allen,R. The Well being of Nations, Washington, DC: Island Press, 2001; Carbon Dioxide Information Analysis Center, Environmental Sciences Division, Oak Ridge National Laboratory, Tennessee, United States. Population figures from World Bank: (1) United Nations Population Division. World Population Prospects, (2) United Nations Statistical Division. Population and Vital Statistics Report (various years), (3) Census reports and other statistical publications from national statistical offices, (4) Eurostat: Demographic Statistics, (5) Secretariat of the Pacific Community: Statistics and Demography Programme, and (6) U.S. Census Bureau: International Database.; Center for Environmental Systems Research, University of Kassel, WaterGAP 2.1B, 2001 via ciesin.org; United Nations World Statistics Pocketbook and Statistical Yearbook; UNEP, Production and Consumption of Ozone Depleting Substances, 1986-1998, October 1999. via ciesin.org. Population figures from World Bank: (1) United Nations Population Division. World Population Prospects, (2) United Nations Statistical Division. Population and Vital Statistics Report (various years), (3) Census reports and other statistical publications from national statistical offices, (4) Eurostat: Demographic Statistics, (5) Secretariat of the Pacific Community: Statistics and Demography Programme, and (6) U.S. Census Bureau: International Database.; Jacaranda Atlas; Kiran Dev Pandey, Piet Buys, Ken Chomitz, and David Wheeler's, "Biodiversity Conservation Indicators: New Tools for Priority Setting at the Global Environment Facility" (2006).; Stockholm Environment Institute at York, Acidification in Developing Countries: Ecosystem Sensitivity and the Critical Loads Approach at the Global scale, 2000 via ciesin.org; World Bank, Development Research Group and Environment Department; Convention on International Trade in Endangered Species of Wild Fauna and Flora, Report on National Reports Required Under Article VIII, Paragraph 7(a), of the Convention, Eleventh Meeting of the Conference of the Parties, Gigiri, Kenya, April 2000; Kiran Dev Pandey, Piet Buys, Ken Chomitz, and David Wheeler's, "Biodiversity Conservation Indicators: New Tools for Priority Setting at the Global Environment Facility" (2006). 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Original sources: World Conservation Monitoring Center, IUCN-The World Conservation Union, Food and Agriculture Organization of the United Nations and other sources.; World Resources Institute, World Resources 1998-99; World Bank, World Development Indicators 2000; WHO,Air Management Information System-AMIS 2.0, 1998; and Global Urban Observatory, Citibase, 1999. via ciesin.org; Gregg Marland, Tom Boden, and Bob Andres, University of North Dakota, via net publication. Population figures from World Bank: (1) United Nations Population Division. World Population Prospects, (2) United Nations Statistical Division. Population and Vital Statistics Report (various years), (3) Census reports and other statistical publications from national statistical offices, (4) Eurostat: Demographic Statistics, (5) Secretariat of the Pacific Community: Statistics and Demography Programme, and (6) U.S. Census Bureau: International Database.; World Bank, World Development Indicators 2001. 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Citation

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