Environment Stats: compare key data on Netherlands & Qatar

Definitions

CO2 Emissions per 1000: CO2: Total Emissions (excluding land-use) Units: thousand metric tonnes of carbon dioxide. Figures expressed per thousand population for the same year.
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:
Pollution perceptions > Air pollution: Air Pollution. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with the quality of air in this city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution perceptions > Air quality: Air quality. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with the quality of air in this city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution perceptions > Clean water: Water Quality. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Are you concerned with the water pollution in this city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution perceptions > Drinking water pollution: Drinking Water Pollution and Inaccessibility. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How do you find quality and the accessibility of drinking water?". The higher the value, the more survey respondents believe it is high in their country.
Pollution perceptions > Noise and light pollution: Noise and Light Pollution. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How concerned are you with noise pollution and light during the night in this city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution perceptions > Water pollution: Water Pollution. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Are you concerned with the water pollution in this city?". The higher the value, the more survey respondents believe it is high in their country.
Proportion of land area under protection: Terrestrial areas protected to total surface area, percentage.
Transport CO2 emission index: CO2 Emission Index is an estimation of CO2 consumption due to traffic time. Measurement unit is grams for the return trip. To calculate an average estimation of emission in grams for one way commute to work, divide this value with 2.
Waste > Local garbage collected: Municipal waste collected.
Water pollution > Organic water pollutant > BOD emissions > Kg per day: Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Endangered species > Mammal species > Number: 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."
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.
Pollution perceptions > Drinking water quality: Drinking Water Quality and Accessibility. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How do you find quality and the accessibility of drinking water?". The higher the value, the more survey respondents believe it is high in their country.
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.
Pollution perceptions > Pollution index: Pollution Index is an estimation of the overall pollution in the city. The biggest weight is given to air pollution, than to water pollution/accessibility, two main pollution factors. Small weight is given to other pollution types.
Water > Drinking water > Population with improved drinking water sources > Urban and rural: Proportion of the population using improved drinking water sources, total.
Emissions > 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 > 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.
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.
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.
Endangered species > Bird species: 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."
Total renewable water resources per million: . Figures expressed per million population for the same year.
Waste > Local garbage collected per thousand people: Municipal waste collected. Figures expressed per thousand people for the same year.
Waste > Hazardous waste created: Annual generation of hazardous waste (as defined by the Basel Convention).
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.
Endangered species > Fish species > Number: 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."
Pollution > Organic water pollutant > BOD emissions > Kg per day: Organic water pollutant (BOD) emissions (kg per day). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Pollution perceptions > Waste management dissatisfaction: Dissatisfaction with Garbage Disposal. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with a garbage disposal in the city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution > Climate change > Agrees climate change is caused by human activity: Percentage of population who responded yes when asked if they believed global warming was a result of human activities. In this survey, global warming refers to the current rise in earth's temperature and not climate change as a whole.
Water > Percent of water resources used: Proportion of total water resources used, percentage.
Endangered species > Higher plant species > Number: 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."
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.
Climate change > CO2 emissions > Kg per 2000 US$ of GDP: CO2 emissions (kg per 2000 US$ of GDP). 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.
Sanitation > Population with improved sanitation > Urban and rural: Proportion of the population using improved sanitation facilities, total.
Emissions > 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."
Pollution perceptions > Clean, tidy cities: Clean and Tidy. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Do you find city clean and tidy?". The higher the value, the more survey respondents believe it is high in their country.
Water > Drinking water > Population with improved drinking water sources > Rural: Proportion of the population using improved drinking water sources, rural.
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)
Biodiversity > Number: 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)."
Water > Freshwater internal flow per capita: Internal flow of water: River run-off and groundwater produced during a year through perception minus evaporation. Figures expressed per capita for the same year.
Water > Freshwater internal flow: Internal flow of water: River run-off and groundwater produced during a year through perception minus evaporation.
Pollution > Climate change > Climate change awareness: Percentage of each country's population who claimed knowing "something" or a "great deal" about climate change when asked: "How much do you know about global warming or climate change?"
Pollution perceptions > Urban comfort > Low pollution: Comfortable to Spend Time in the City. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Are you feeling comfortable to spend time in the city because of the pollution?". The higher the value, the more survey respondents believe it is high in their country.
Waste > Hazardous waste created per thousand people: Annual generation of hazardous waste (as defined by the Basel Convention). Figures expressed per thousand people for the same year.
Pollution perceptions > Dirty, untidy cities: Dirty and Untidy. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Do you find city clean and tidy?". The higher the value, the more survey respondents believe it is high in their country.
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).
Emissions > CO2 emissions > Kg per 2000 US$ of GDP: 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."
Pollution perceptions > Free of noise and light pollution: Quiet and No Problem with Night Lights. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How concerned are you with noise pollution and light during the night in this city?". The higher the value, the more survey respondents believe it is high in their country.
Freshwater > Renewable internal freshwater resources > Total > Billion cubic meters: Renewable internal freshwater resources flows refer to internal renewable resources (internal river flows and groundwater from rainfall) in the country.
Emissions > Methane emissions > Kt of CO2 equivalent: Methane emissions are those stemming from human activities such as agriculture and from industrial methane production.
Freshwater > Renewable internal freshwater resources per capita > Cubic meters: Renewable internal freshwater resources flows refer to internal renewable resources (internal river flows and groundwater from rainfall) in the country. Renewable internal freshwater resources per capita are calculated using the World Bank's population estimates.
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.
Biodiversity and protected areas > Terrestrial protected areas > Number: Terrestrial protected areas are those officially documented by national authorities.
Proportion of land and marine area under protection: Terrestrial and marine areas protected to total territorial area, percentage.
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).
Pollution perceptions > Urban discomfort from pollution: Dissatisfaction to Spend Time in the City. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "Are you feeling comfortable to spend time in the city because of the pollution?". The higher the value, the more survey respondents believe it is high in their country.
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.
Water > Drinking water > Population with improved drinking water sources > Urban: Proportion of the population using improved drinking water sources, urban.
Sanitation > Population with improved sanitation > Rural: Proportion of the population using improved sanitation facilities, rural.
Pollution perceptions > Waste management satisfaction: Garbage Disposal Satisfaction. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with a garbage disposal in the city?". The higher the value, the more survey respondents believe it is high in their country.
Pollution > Climate change > Perceived as threat: Percentage of country's population that perceives climate change as a threat. Results are from a 2008 Gallop Poll.
Emissions > Nitrous oxide emissions > Thousand metric tons of CO2 equivalent: Nitrous oxide emissions are emissions from agricultural biomass burning, industrial activities, and livestock management."
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 > Organic water pollutant > BOD emissions > Kg per day per worker: Organic water pollutant (BOD) emissions (kg per day per worker). Emissions per worker are total emissions of organic water pollutants divided by the number of industrial workers. Organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Freshwater > Annual freshwater withdrawals > Total > Billion cubic meters: Annual freshwater withdrawals refer to total water withdrawals, not counting evaporation losses from storage basins. Withdrawals also include water from desalination plants in countries where they are a significant source. Withdrawals can exceed 100 percent of total renewable resources where extraction from nonrenewable aquifers or desalination plants is considerable or where there is significant water reuse. Withdrawals for agriculture and industry are total withdrawals for irrigation and livestock production and for direct industrial use (including withdrawals for cooling thermoelectric plants). Withdrawals for domestic uses include drinking water, municipal use or supply, and use for public services, commercial establishments, and homes. Data are for the most recent year available for 1987-2002."
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).
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 > 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 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 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 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 > 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.
Biodiversity and protected areas > Marine protected areas > Number: 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.
Sanitation > Population with improved sanitation > Urban: Proportion of the population using improved sanitation facilities, urban.
Emissions > 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."
Adjusted savings > Adjusted savings > Consumption of fixed capital > Current US$: Consumption of fixed capital represents the replacement value of capital used up in the process of production.
Water > Proportion of marine area under protection: Marine areas protected to territorial waters, percentage.
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.
Emissions > 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."
Water pollution > Food industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: food and beverages (31). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Emissions > CO2 intensity > Kg per kg of oil equivalent energy use: Carbon dioxide emissions from solid fuel consumption refer mainly to emissions from use of coal 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.
Pollution > Water pollution, food industry > % of total BOD emissions: Water pollution, food industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: food and beverages (31). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Pollution > Water pollution, other industry > % of total BOD emissions: Water pollution, other industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: other (38 and 39). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Pollution > Water pollution, paper and pulp industry > % of total BOD emissions: Water pollution, paper and pulp industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: paper and pulp (34). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water pollution > Wood industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: wood (33). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water pollution > Other industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: other (38 and 39). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Pollution perceptions > Green space and parks satisfaction: Quality of Green and Parks. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with green and parks in the city?". The higher the value, the more survey respondents believe it is high in their country.
Total natural resources rents > % of GDP: Total natural resources rents (% of GDP). Total natural resources rents are the sum of oil rents, natural gas rents, coal rents (hard and soft), mineral rents, and forest rents.
Water pollution > Chemical industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: chemicals (35). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Adjusted savings > Particulate emission damage > % of GNI: Particulate emissions damage is calculated as the willingness to pay to avoid mortality attributable to particulate emissions.
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.
Adjusted savings > Adjusted savings > Energy depletion > % of GNI: Energy depletion is equal to the product of unit resource rents and the physical quantities of energy extracted. It covers crude oil, natural gas, and coal."
Adjusted savings > Adjusted savings > Consumption of fixed capital > % of GNI: Consumption of fixed capital represents the replacement value of capital used up in the process of production.
Water pollution > Water pollution > Metal industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: primary metals (ISIC division 37). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Water pollution > Paper and pulp industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: paper and pulp (34). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water pollution > Water pollution > Other industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: other (38 and 39). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Pollution > Water pollution, chemical industry > % of total BOD emissions: Water pollution, chemical industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: chemicals (35). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
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 > Carbon dioxide damage > % of GNI: Carbon dioxide damage is estimated to be $20 per ton of carbon (the unit damage in 1995 U.S. dollars) times the number of tons of carbon emitted.
Water pollution > Textile industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: textiles (32). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Pollution > Water pollution, textile industry > % of total BOD emissions: Water pollution, textile industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: textiles (32). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
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.
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.
Pollution > Water pollution, clay and glass industry > % of total BOD emissions: Water pollution, clay and glass industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: stone, ceramics, and glass (36). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
CO2 Emissions: CO2: Total Emissions (excluding land-use) Units: thousand metric tonnes of carbon dioxide
Freshwater > Annual freshwater withdrawals > Industry > % of total freshwater withdrawal: Annual freshwater withdrawals refer to total water withdrawals, not counting evaporation losses from storage basins. Withdrawals also include water from desalination plants in countries where they are a significant source. Withdrawals can exceed 100 percent of total renewable resources where extraction from nonrenewable aquifers or desalination plants is considerable or where there is significant water reuse. Withdrawals for industry are total withdrawals for direct industrial use (including withdrawals for cooling thermoelectric plants). Data are for the most recent year available for 1987-2002."
Freshwater > Annual freshwater withdrawals > Domestic > % of total freshwater withdrawal: Annual freshwater withdrawals refer to total water withdrawals, not counting evaporation losses from storage basins. Withdrawals also include water from desalination plants in countries where they are a significant source. Withdrawals can exceed 100 percent of total renewable resources where extraction from nonrenewable aquifers or desalination plants is considerable or where there is significant water reuse. Withdrawals for domestic uses include drinking water, municipal use or supply, and use for public services, commercial establishments, and homes. Data are for the most recent year available for 1987-2002."
Emissions > Industrial methane emissions > % of total: Industrial methane emissions are emissions from the handling, transmission, and combustion of fossil fuels and biofuels."
Emissions > CO2 emissions > Kg per PPP $ of GDP: 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."
Emissions > CO2 emissions > Kg per 2005 PPP $ of GDP: 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."
Emissions > Agricultural nitrous oxide emissions > % of total: Agricultural nitrous oxide emissions are emissions produced through fertilizer use (synthetic and animal manure), animal waste management, agricultural waste burning (nonenergy, on-site), and savannah burning."
Emissions > Agricultural methane emissions > % of total: Agricultural methane emissions are emissions from animals, animal waste, rice production, agricultural waste burning (nonenergy, on-site), and savannah burning."
Adjusted savings > Adjusted savings > Mineral depletion > % of GNI: Mineral depletion is equal to the product of unit resource rents and the physical quantities of minerals extracted. It refers to bauxite, copper, iron, lead, nickel, phosphate, tin, zinc, gold, and silver."
Biodiversity and protected areas > Marine protected areas > % of total surface area: 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.
Biodiversity and protected areas > Terrestrial protected areas > % of total surface area: Terrestrial protected areas are those officially documented by national authorities.
Natural gas rents > % of GDP: Natural gas rents (% of GDP). Natural gas rents are the difference between the value of natural gas production at world prices and total costs of production.
Adjusted savings > Adjusted savings > Mineral depletion > Current US$: Mineral depletion is equal to the product of unit resource rents and the physical quantities of minerals extracted. It refers to bauxite, copper, iron, lead, nickel, phosphate, tin, zinc, gold, and silver."
Water pollution > Metal industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: primary metals (ISIC division 37). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water pollution > Water pollution > Chemical industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: chemicals (35). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Water pollution > Water pollution > Wood industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: wood (33). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Pollution > Water pollution, wood industry > % of total BOD emissions: Water pollution, wood industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: wood (33). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
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.
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.
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 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.
Organic water pollutant > BOD emissions > Kg per day per worker: Emissions per worker are total emissions of organic water pollutants divided by the number of industrial workers. Organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water pollution > Water pollution > Textile industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: textiles (32). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Freshwater > Annual freshwater withdrawals > Agriculture > % of total freshwater withdrawal: Annual freshwater withdrawals refer to total water withdrawals, not counting evaporation losses from storage basins. Withdrawals also include water from desalination plants in countries where they are a significant source. Withdrawals can exceed 100 percent of total renewable resources where extraction from nonrenewable aquifers or desalination plants is considerable or where there is significant water reuse. Withdrawals for agriculture are total withdrawals for irrigation and livestock production. Data are for the most recent year available for 1987-2002."
Adjusted savings > Adjusted savings > Carbon dioxide damage > % of GNI: Carbon dioxide damage is estimated to be $20 per ton of carbon (the unit damage in 1995 U.S. dollars) times the number of tons of carbon emitted.
Freshwater > Annual freshwater withdrawals > Total > % of internal resources: Annual freshwater withdrawals refer to total water withdrawals, not counting evaporation losses from storage basins. Withdrawals also include water from desalination plants in countries where they are a significant source. Withdrawals can exceed 100 percent of total renewable resources where extraction from nonrenewable aquifers or desalination plants is considerable or where there is significant water reuse. Withdrawals for agriculture and industry are total withdrawals for irrigation and livestock production and for direct industrial use (including withdrawals for cooling thermoelectric plants). Withdrawals for domestic uses include drinking water, municipal use or supply, and use for public services, commercial establishments, and homes. Data are for the most recent year available for 1987-2002."
Oil rents > % of GDP: Oil rents (% of GDP). Oil rents are the difference between the value of crude oil production at world prices and total costs of production.
Water pollution > Water pollution > Paper and pulp industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: paper and pulp (34). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
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).
Water pollution > Clay and glass industry > % of total BOD emissions: Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: stone, ceramics, and glass (36). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
Water > Drinking water > Population with improved sanitation > Rural: Proportion of the population using improved sanitation facilities, rural.
Adjusted savings > Adjusted savings > Particulate emission damage > Current US$: Particulate emissions damage is calculated as the willingness to pay to avoid mortality attributable to particulate emissions.
Adjusted savings > Adjusted savings > Particulate emission damage > % of GNI: Particulate emissions damage is calculated as the willingness to pay to avoid mortality attributable to particulate emissions.
Pollution > Water pollution, metal industry > % of total BOD emissions: Water pollution, metal industry (% of total BOD emissions). Industry shares of emissions of organic water pollutants refer to emissions from manufacturing activities as defined by two-digit divisions of the International Standard Industrial Classification (ISIC), revision 2: primary metals (ISIC division 37). Emissions of organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants.
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.
Adjusted savings > Adjusted savings > Energy depletion > Current US$: Energy depletion is equal to the product of unit resource rents and the physical quantities of energy extracted. It covers crude oil, natural gas, and coal."
Water pollution > Organic water pollutant > BOD emissions > Kg per day per worker: Emissions per worker are total emissions of organic water pollutants divided by the number of industrial workers. Organic water pollutants are measured by biochemical oxygen demand, which refers to the amount of oxygen that bacteria in water will consume in breaking down waste. This is a standard water-treatment test for the presence of organic pollutants."
Pollution perceptions > Green space and parks dissatisfaction: Dissatisfaction with Green and Parks in the City. Based on 0-50 contributions for Albania, Algeria, Argentina and 86 more countries and over 100 contributions for Australia, Canada, China and 9 more countries and 50-100 contributions for Brazil, Bulgaria, Greece and 12 more countries. The surveys were conducted by numbeo.com from January, 2011 to February, 2014. See this sample survey for the United States, respondents were asked "How satisfied are you with green and parks in the city?". The higher the value, the more survey respondents believe it is high in their country.

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STAT	Netherlands	Qatar
CO2 Emissions per 1000	10.77 Ranked 17th.	53.17 Ranked 1st. 5 times more than Netherlands
Climate change > CO2 emissions from electricity and heat production, total > Million metric tons	66.76 Ranked 27th. 50% more than Qatar	44.42 Ranked 37th.
Climate change > CO2 emissions from electricity and heat production, total > Million metric tons per million	4 Ranked 31st.	23.25 Ranked 1st. 6 times more than Netherlands
Current issues	water pollution in the form of heavy metals, organic compounds, and nutrients such as nitrates and phosphates; air pollution from vehicles and refining activities; acid rain	limited natural fresh water resources are increasing dependence on large-scale desalination facilities
Pollution perceptions > Air pollution	38.16 Ranked 42nd.	78.85 Ranked 5th. 2 times more than Netherlands
Pollution perceptions > Air quality	61.84 Ranked 18th. 3 times more than Qatar	21.15 Ranked 55th.
Pollution perceptions > Clean water	72.16 Ranked 10th. 79% more than Qatar	40.38 Ranked 35th.
Pollution perceptions > Drinking water pollution	19.32 Ranked 51st.	65.38 Ranked 6th. 3 times more than Netherlands
Pollution perceptions > Noise and light pollution	43.48 Ranked 40th.	65.38 Ranked 9th. 50% more than Netherlands
Pollution perceptions > Water pollution	27.84 Ranked 50th.	59.62 Ranked 25th. 2 times more than Netherlands
Proportion of land area under protection	19.54% Ranked 70th. 6 times more than Qatar	3.18% Ranked 183th.
Total renewable water resources	89.7 cu km Ranked 11th. 897 times more than Qatar	0.1 cu km Ranked 30th.
Transport CO2 emission index	3,208.82 Ranked 24th.	7,670 Ranked 3rd. 2 times more than Netherlands
Waste > Local garbage collected	10.16 million tonnes Ranked 11th. 13 times more than Qatar	788,965.03 tonnes Ranked 51st.
Water pollution > Organic water pollutant > BOD emissions > Kg per day	122,051.5 Ranked 17th. 33 times more than Qatar	3,725.54 Ranked 29th.
Endangered species > Mammal species > Number	4 Ranked 150th. Twice as much as Qatar	2 Ranked 180th.
Biodiversity > Mammal species, threatened	3 Ranked 170th. The same as Qatar	3 Ranked 166th.
Pollution perceptions > Drinking water quality	80.68 Ranked 9th. 2 times more than Qatar	34.62 Ranked 54th.
CO2 emissions > Kt	140,893.6 kt Ranked 28th. 3 times more than Qatar	46,172.11 kt Ranked 58th.
Pollution perceptions > Pollution index	37.96 Ranked 46th.	83.55 Ranked 9th. 2 times more than Netherlands
Water > Drinking water > Population with improved drinking water sources > Urban and rural	100 Ranked 32nd. The same as Qatar	100 Ranked 18th.
Emissions > CO2 emissions > Metric tons per capita	10.57 Ranked 24th.	55.38 Ranked 1st. 5 times more than Netherlands
Climate change > CO2 emissions > Metric tons per capita	10.96 Ranked 23th.	40.31 Ranked 1st. 4 times more than Netherlands
Biodiversity > Bird species, threatened	4 Ranked 182nd. The same as Qatar	4 Ranked 176th.
CO2 emissions > Kt per 1000	8.68 kt Ranked 35th.	69.93 kt Ranked 1st. 8 times more than Netherlands
Endangered species > Bird species	2 Ranked 178th.	4 Ranked 153th. Twice as much as Netherlands
Total renewable water resources per million	5.5 cu km Ranked 14th. 29 times more than Qatar	0.189 cu km Ranked 26th.
Waste > Local garbage collected per thousand people	614.57 tonnes Ranked 14th. 22% more than Qatar	504.43 tonnes Ranked 25th.
Waste > Hazardous waste created	4.72 million tonnes Ranked 13th. 397 times more than Qatar	11,897.65 tonnes Ranked 48th.
Biodiversity > Fish species, threatened	13 Ranked 144th. 8% more than Qatar	12 Ranked 150th.
Climate change > CO2 emissions > Kt	182,077.55 Ranked 29th. 3 times more than Qatar	70,531.08 Ranked 48th.
CO2 emissions > Kt > Per capita	8.68 kt per 1,000 people Ranked 39th.	62.97 kt per 1,000 people Ranked 2nd. 7 times more than Netherlands
Endangered species > Fish species > Number	11 Ranked 135th. 57% more than Qatar	7 Ranked 161st.
Pollution > Organic water pollutant > BOD emissions > Kg per day	128,220 Ranked 21st. 20 times more than Qatar	6,387.9 Ranked 60th.
Pollution perceptions > Waste management dissatisfaction	25.57 Ranked 50th.	69.23 Ranked 9th. 3 times more than Netherlands
Pollution > Climate change > Agrees climate change is caused by human activity	44% Ranked 100th. 13% more than Qatar	39% Ranked 109th.
Water > Percent of water resources used	11.66% Ranked 11th.	381% Ranked 3rd. 33 times more than Netherlands
Endangered species > Higher plant species > Number	0.0 Ranked 196th.	0.0 Ranked 185th.
Climate change > CO2 emissions > Kt per 1000	10.96 Ranked 23th.	40.31 Ranked 1st. 4 times more than Netherlands
Climate change > CO2 emissions > Kg per 2000 US$ of GDP	$0.27 Ranked 148th.	$0.76 Ranked 50th. 3 times more than Netherlands
Sanitation > Population with improved sanitation > Urban and rural	100 Ranked 33th. The same as Qatar	100 Ranked 20th.
Emissions > CO2 emissions > Kt	173,102.02 Ranked 26th. 3 times more than Qatar	63,002.48 Ranked 48th.
Pollution perceptions > Clean, tidy cities	60.56 Ranked 15th. 43% more than Qatar	42.31 Ranked 38th.
Water > Drinking water > Population with improved drinking water sources > Rural	100 Ranked 32nd. The same as Qatar	100 Ranked 18th.
Biodiversity > Plant species > Higher, threatened	0.0 Ranked 209th.	0.0 Ranked 199th.
Threatened species	19 Ranked 97th. 6 times more than Qatar	3 Ranked 153th.
Biodiversity > Number	0.17 Ranked 173th. 2 times more than Qatar	0.07 Ranked 183th.
Water > Freshwater internal flow per capita	773 cubic metres Ranked 35th. 17 times more than Qatar	45.14 cubic metres Ranked 29th.
Water > Freshwater internal flow	12.66 billion cubic metres Ranked 29th. 179 times more than Qatar	70.6 million cubic metres Ranked 31st.
Pollution > Climate change > Climate change awareness	96% Ranked 9th. 50% more than Qatar	64% Ranked 60th.
Pollution perceptions > Urban comfort > Low pollution	75 Ranked 13th. 2 times more than Qatar	30.77 Ranked 50th.
Waste > Hazardous waste created per thousand people	287.24 tonnes Ranked 11th. 33 times more than Qatar	8.75 tonnes Ranked 46th.
Pollution perceptions > Dirty, untidy cities	39.44 Ranked 45th.	57.69 Ranked 22nd. 46% more than Netherlands
Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum	0.17 Ranked 177th. 2 times more than Qatar	0.071 Ranked 187th.
Emissions > CO2 emissions > Kg per 2000 US$ of GDP	$0.39 Ranked 139th.	$1.69 Ranked 28th. 4 times more than Netherlands
Pollution perceptions > Free of noise and light pollution	56.52 Ranked 20th. 63% more than Qatar	34.62 Ranked 51st.
Freshwater > Renewable internal freshwater resources > Total > Billion cubic meters	11 Ranked 118th. 183 times more than Qatar	0.06 Ranked 160th.
Freshwater > Withdrawal	8.86 Ranked 4th. 31 times more than Qatar	0.29 Ranked 105th.
Emissions > Methane emissions > Kt of CO2 equivalent	15,180 Ranked 55th. 3 times more than Qatar	5,190 Ranked 87th.
Freshwater > Renewable internal freshwater resources per capita > Cubic meters	668.87 Ranked 136th. 15 times more than Qatar	43.72 Ranked 164th.
Pollution > PM10, country level > Micrograms per cubic meter	29.98 Ranked 78th. 47% more than Qatar	20.4 Ranked 122nd.
Biodiversity and protected areas > Terrestrial protected areas > Number	1,948 Ranked 15th. 487 times more than Qatar	4 Ranked 178th.
Proportion of land and marine area under protection	31.48% Ranked 20th. 13 times more than Qatar	2.42% Ranked 175th.
Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > Million metric tons	6.02 Ranked 26th.	0.0 Ranked 128th.
Pollution perceptions > Urban discomfort from pollution	25 Ranked 47th.	69.23 Ranked 10th. 3 times more than Netherlands
Biodiversity > GEF benefits index for biodiversity > 0 = no biodiversity potential to 100 = maximum per million	0.0104 Ranked 189th.	0.0522 Ranked 156th. 5 times more than Netherlands
Water > Drinking water > Population with improved drinking water sources > Urban	100 Ranked 43th. The same as Qatar	100 Ranked 26th.
Sanitation > Population with improved sanitation > Rural	100% Ranked 32nd. The same as Qatar	100% Ranked 20th.
Pollution perceptions > Waste management satisfaction	74.43 Ranked 10th. 2 times more than Qatar	30.77 Ranked 51st.
Pollution > Climate change > Perceived as threat	57% Ranked 41st. 33% more than Qatar	43% Ranked 73th.
Emissions > Nitrous oxide emissions > Thousand metric tons of CO2 equivalent	16,800 Ranked 41st. 60 times more than Qatar	280 Ranked 123th.
Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons	27.46 Ranked 18th. 95 times more than Qatar	0.29 Ranked 116th.
Pollution > Organic water pollutant > BOD emissions > Kg per day per worker	0.185 Ranked 19th. 49% more than Qatar	0.125 Ranked 62nd.
Freshwater > Annual freshwater withdrawals > Total > Billion cubic meters	7.94 Ranked 51st. 18 times more than Qatar	0.44 Ranked 6th.
Pollution > Carbon dioxide 1999	36,747 Ranked 26th. 3 times more than Qatar	14,110 Ranked 50th.
Climate change > CO2 emissions from gaseous fuel consumption > Kt	89,793.83 Ranked 17th. 43% more than Qatar	62,845.05 Ranked 29th.
Climate change > CO2 emissions from solid fuel consumption > Kt per 1000	1.53 Ranked 36th.	0.0 Ranked 175th.
Climate change > CO2 emissions from liquid fuel consumption > Kt per 1000	3.94 Ranked 37th. 17 times more than Qatar	0.233 Ranked 161st.
Climate change > CO2 emissions from solid fuel consumption > Kt	25,441.65 Ranked 35th.	0.0 Ranked 175th.
Climate change > CO2 emissions from gaseous fuel consumption > Kt per 1000	5.4 Ranked 11th.	35.92 Ranked 1st. 7 times more than Netherlands
Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent per million	305.38 Ranked 23th.	0.0 Ranked 129th.
Biodiversity and protected areas > Marine protected areas > Number	6 Ranked 86th. 3 times more than Qatar	2 Ranked 123th.
Sanitation > Population with improved sanitation > Urban	100 Ranked 35th. The same as Qatar	100 Ranked 21st.
Emissions > Other greenhouse gas emissions > HFC > PFC and SF6 > Thousand metric tons of CO2 equivalent	5,300 Ranked 15th.	0.0 Ranked 115th.
Adjusted savings > Adjusted savings > Consumption of fixed capital > Current US$	$122.17 billion Ranked 14th. 12 times more than Qatar	$10.27 billion Ranked 50th.
Water > Proportion of marine area under protection	61.82% Ranked 6th. 38 times more than Qatar	1.62% Ranked 114th.
Pollution > Carbon dioxide 1999 per 1000	2.32 Ranked 31st.	24.66 Ranked 1st. 11 times more than Netherlands
Freshwater > Withdrawal per million	0.552 Ranked 3rd. 13% more than Qatar	0.488 Ranked 53th.
Emissions > PM10 > Country level > Micrograms per cubic meter	33.71 Ranked 90th.	51.25 Ranked 50th. 52% more than Netherlands
Water pollution > Food industry > % of total BOD emissions	43.25% Ranked 71st. 67% more than Qatar	25.97% Ranked 30th.
Emissions > CO2 intensity > Kg per kg of oil equivalent energy use	2.15 Ranked 70th.	2.84 Ranked 25th. 32% more than Netherlands
PM10 > Country level > Micrograms per cubic meter	34.11 mcg/mÂ³ Ranked 110th.	54.49 mcg/mÂ³ Ranked 59th. 60% more than Netherlands
Pollution > Water pollution, food industry > % of total BOD emissions	18.24% Ranked 27th. 3 times more than Qatar	6.53% Ranked 62nd.
Pollution > Water pollution, other industry > % of total BOD emissions	42.5% Ranked 19th. Twice as much as Qatar	21.26% Ranked 47th.
Pollution > Water pollution, paper and pulp industry > % of total BOD emissions	13.4% Ranked 2nd. 99% more than Qatar	6.74% Ranked 24th.
Water pollution > Wood industry > % of total BOD emissions	1.18% Ranked 84th.	5.55% Ranked 4th. 5 times more than Netherlands
Water pollution > Other industry > % of total BOD emissions	8.33% Ranked 25th. 104 times more than Qatar	0.08% Ranked 26th.
Pollution perceptions > Green space and parks satisfaction	69.44 Ranked 12th. 3 times more than Qatar	21.15 Ranked 56th.
Total natural resources rents > % of GDP	1.07% Ranked 120th.	28.59% Ranked 21st. 27 times more than Netherlands
Water pollution > Chemical industry > % of total BOD emissions	11.15% Ranked 15th. 58% more than Qatar	7.05% Ranked 16th.
Adjusted savings > Particulate emission damage > % of GNI	0.57% of GNI Ranked 59th. 50% more than Qatar	0.38% of GNI Ranked 78th.
International agreements > Signed but not ratified	none of the selected agreements	none of the selected agreements
Adjusted savings > Adjusted savings > Energy depletion > % of GNI	2.04% Ranked 50th.	21.14% Ranked 11th. 10 times more than Netherlands
Adjusted savings > Adjusted savings > Consumption of fixed capital > % of GNI	13.92% Ranked 20th.	14.78% Ranked 21st. 6% more than Netherlands
Water pollution > Water pollution > Metal industry > % of total BOD emissions	1.2% Ranked 41st.	5.6% Ranked 7th. 5 times more than Netherlands
Water pollution > Paper and pulp industry > % of total BOD emissions	25.7% Ranked 15th. 35% more than Qatar	19.03% Ranked 8th.
Water pollution > Water pollution > Other industry > % of total BOD emissions	42.49% Ranked 19th. 3 times more than Qatar	12.8% Ranked 24th.
Pollution > Water pollution, chemical industry > % of total BOD emissions	14.1% Ranked 9th. 34% more than Qatar	10.49% Ranked 29th.
Marine protected areas > % of territorial waters	0.541% Ranked 124th. 2 times more than Qatar	0.251% Ranked 122nd.
Adjusted savings > Carbon dioxide damage > % of GNI	0.16% of GNI Ranked 146th.	1.82% of GNI Ranked 17th. 11 times more than Netherlands
Water pollution > Textile industry > % of total BOD emissions	2.61% Ranked 103th.	29.03% Ranked 4th. 11 times more than Netherlands
Pollution > Water pollution, textile industry > % of total BOD emissions	2.09% Ranked 59th.	20.72% Ranked 20th. 10 times more than Netherlands
Climate change > CO2 emissions from solid fuel consumption > % of total	13.97% Ranked 62nd.	0.0 Ranked 175th.
Climate change > Other greenhouse gas emissions, HFC, PFC and SF6 > Thousand metric tons of CO2 equivalent	5,074 Ranked 19th.	0.0 Ranked 129th.
Climate change > CO2 emissions from liquid fuel consumption > % of total	35.93% Ranked 156th. 62 times more than Qatar	0.577% Ranked 197th.
Pollution > Water pollution, clay and glass industry > % of total BOD emissions	4.01% Ranked 42nd.	18.14% Ranked 2nd. 5 times more than Netherlands
CO2 Emissions	174,809 Ranked 21st. 5 times more than Qatar	35,103.3 Ranked 60th.
Freshwater > Annual freshwater withdrawals > Industry > % of total freshwater withdrawal	59.95% Ranked 13th. 33 times more than Qatar	1.8% Ranked 113th.
Freshwater > Annual freshwater withdrawals > Domestic > % of total freshwater withdrawal	6.17% Ranked 110th.	39.19% Ranked 20th. 6 times more than Netherlands
Emissions > Industrial methane emissions > % of total	23.65% Ranked 56th.	94.8% Ranked 2nd. 4 times more than Netherlands
Emissions > CO2 emissions > Kg per PPP $ of GDP	$0.26 Ranked 91st.	$0.76 Ranked 14th. 3 times more than Netherlands
Emissions > CO2 emissions > Kg per 2005 PPP $ of GDP	$0.28 Ranked 92nd.	$0.78 Ranked 15th. 3 times more than Netherlands
Emissions > Agricultural nitrous oxide emissions > % of total	51.55% Ranked 115th.	85.71% Ranked 67th. 66% more than Netherlands
Emissions > Agricultural methane emissions > % of total	49.21% Ranked 55th. 32 times more than Qatar	1.54% Ranked 122nd.
Adjusted savings > Adjusted savings > Mineral depletion > % of GNI	0.0 Ranked 157th.	0.0 Ranked 134th.
Biodiversity and protected areas > Marine protected areas > % of total surface area	3.08% Ranked 48th. 5 times more than Qatar	0.62% Ranked 86th.
Biodiversity and protected areas > Terrestrial protected areas > % of total surface area	19.77% Ranked 48th. 32 times more than Qatar	0.62% Ranked 178th.
Natural gas rents > % of GDP	0.988% Ranked 30th.	14.23% Ranked 4th. 14 times more than Netherlands
Adjusted savings > Adjusted savings > Mineral depletion > Current US$	0.0 Ranked 188th.	0.0 Ranked 159th.
Water pollution > Metal industry > % of total BOD emissions	7.63% Ranked 43th.	12.52% Ranked 4th. 64% more than Netherlands
Water pollution > Water pollution > Chemical industry > % of total BOD emissions	14.84% Ranked 11th.	17.19% Ranked 2nd. 16% more than Netherlands
Water pollution > Water pollution > Wood industry > % of total BOD emissions	2.55% Ranked 32nd.	20.43% Ranked 1st. 8 times more than Netherlands
Pollution > Water pollution, wood industry > % of total BOD emissions	2.55% Ranked 41st.	12.47% Ranked 3rd. 5 times more than Netherlands
Climate change > CO2 emissions from liquid fuel consumption > Kt	65,419.28 Ranked 29th. 161 times more than Qatar	407.04 Ranked 174th.
Climate change > CO2 emissions from residential buildings and commercial and public services > % of total fuel combustion	15.74% Ranked 20th. 39 times more than Qatar	0.406% Ranked 131st.
Freshwater > Withdrawal > Domestic	6% Ranked 5th.	24% Ranked 35th. 4 times more than Netherlands
Climate change > CO2 emissions from gaseous fuel consumption > % of total	49.32% Ranked 17th.	89.1% Ranked 2nd. 81% more than Netherlands
Climate change > CO2 emissions from residential buildings and commercial and public services > Million metric tons per million	1.64 Ranked 8th. 11 times more than Qatar	0.152 Ranked 80th.
Organic water pollutant > BOD emissions > Kg per day per worker	0.18 kg per day per worker Ranked 67th. 13% more than Qatar	0.16 kg per day per worker Ranked 21st.
Freshwater > Withdrawal > Agricultural	34% Ranked 3rd.	72% Ranked 63th. 2 times more than Netherlands
Water pollution > Water pollution > Textile industry > % of total BOD emissions	2.57% Ranked 48th. 16% more than Qatar	2.22% Ranked 29th.
Freshwater > Annual freshwater withdrawals > Agriculture > % of total freshwater withdrawal	33.88% Ranked 110th.	59.01% Ranked 89th. 74% more than Netherlands
Adjusted savings > Adjusted savings > Carbon dioxide damage > % of GNI	0.16% Ranked 142nd.	1.76% Ranked 19th. 11 times more than Netherlands
Freshwater > Annual freshwater withdrawals > Total > % of internal resources	72.18% Ranked 22nd.	870.59% Ranked 5th. 12 times more than Netherlands
Oil rents > % of GDP	0.0817% Ranked 70th.	14.36% Ranked 21st. 176 times more than Netherlands
Water pollution > Water pollution > Paper and pulp industry > % of total BOD emissions	13.8% Ranked 3rd. 10 times more than Qatar	1.34% Ranked 29th.
Climate change > CO2 emissions from other sectors, excluding residential buildings and commercial and public services > % of total fuel combustion	3.45% Ranked 51st.	0.0 Ranked 128th.
Water pollution > Clay and glass industry > % of total BOD emissions	0.16% Ranked 69th.	0.77% Ranked 2nd. 5 times more than Netherlands
Water > Drinking water > Population with improved sanitation > Rural	100 Ranked 32nd. The same as Qatar	100 Ranked 20th.
Adjusted savings > Adjusted savings > Particulate emission damage > Current US$	$2.01 billion Ranked 12th. 43 times more than Qatar	$46.54 million Ranked 72nd.
Adjusted savings > Adjusted savings > Particulate emission damage > % of GNI	0.23% Ranked 65th. 64% more than Qatar	0.14% Ranked 87th.
Pollution > Water pollution, metal industry > % of total BOD emissions	3.1% Ranked 34th.	3.65% Ranked 26th. 18% more than Netherlands
Climate change > CO2 emissions from electricity and heat production, total > % of total fuel combustion	38.26% Ranked 67th.	62.23% Ranked 14th. 63% more than Netherlands
Adjusted savings > Adjusted savings > Energy depletion > Current US$	$17.87 billion Ranked 29th.	$34.20 billion Ranked 22nd. 91% more than Netherlands
Water pollution > Organic water pollutant > BOD emissions > Kg per day per worker	0.18 Ranked 19th. 50% more than Qatar	0.12 Ranked 30th.
Pollution perceptions > Green space and parks dissatisfaction	30.56 Ranked 47th.	78.85 Ranked 4th. 3 times more than Netherlands
Freshwater > Withdrawal > Industrial	60% Ranked 2nd. 20 times more than Qatar	3% Ranked 79th.

SOURCES: World Resources Institute. 2003. Carbon Emissions from energy use and cement manufacturing, 1850 to 2000. Available on-line through the Climate Analysis Indicators Tool (CAIT) at Washington, DC: World Resources Institute. 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.; 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; pollution; United Nations Statistics Division. Source tables; All CIA World Factbooks 18 December 2003 to 18 December 2008; traffic; United Nations Statistics Division. Source tables; 1998 study by Hemamala Hettige, Muthukumara Mani, and David Wheeler, ""Industrial Pollution in Economic Development: Kuznets Revisited"" (available at www.worldbank.org/nipr). The data were updated through 2005 by the World Bank's Development Research Group using the same methodology as the initial study.; United Nations Environmental Program and the World Conservation Monitoring Centre, and International Union for Conservation of Nature, Red List of Threatened Species.; United Nations Environmental Program and the World Conservation Monitoring Centre; World Development Indicators database; United Nations Statistics Division. Source tables; Carbon Dioxide Information Analysis Center, Environmental Sciences Division, Oak Ridge National Laboratory, Tennessee, United States.; United Nations Environmental Program and the World Conservation Monitoring Centre; World Development Indicators database. 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.; All CIA World Factbooks 18 December 2003 to 18 December 2008. 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.; United Nations Statistics Division. Source tables. 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.; United Nations Statistics Division. Source tables; Froese, R. and Pauly, D. (eds). 2008. FishBase database, www.fishbase.org.; Froese, R. and Pauly, D. (eds). 2008. FishBase. World Wide Web electronic publication. www.fishbase.org. version (07/2008). Accessed: 28 September 2008.; Industrial Pollution in Economic Development: Kuznets Revisited; Wikipedia: Climate change opinion by country; United Nations Statistics Division. Source tables; 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.; United Nations Statistics Division. Source tables; United Nations Statistics Division. Source tables; United Nations World Statistics Pocketbook and Statistical Yearbook; 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).; http://data.un.org/Data.aspx?d=ENV&f=variableID%3a5, Freshwater internal flow. 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.; http://data.un.org/Data.aspx?d=ENV&f=variableID%3a5, Freshwater internal flow; United Nations Statistics Division. Source tables. 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.; 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).; Food and Agriculture Organisation, AQUASTAT data.; World Resources Institute.; World Bank, Development Research Group and Environment Department; United Nations Environmental Program and the World Conservation Monitoring Centre, as compiled by the World Resources Institute, based on data from national authorities, national legislation and international agreements.; United Nations Statistics Division. Source tables; 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). 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.; United Nations Statistics Division. Source tables; United Nations Statistics Division. Source tables; International Energy Agency (IEA Statistics \xA9 OECD/IEA, http://www.iea.org/stats/index.asp).; World Bank and UNIDO's industry database.; Gregg Marland, Tom Boden, and Bob Andres, University of North Dakota, via net publication; United Nations Statistics Division. Source tables; World Bank staff estimates using data from the United Nations Statistics Division's National Accounts Statistics.; United Nations Statistics Division. Source tables; 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.; Kiren Dev Pandey, David Wheeler, Bart Ostro, Uwe Deichmann, Kirk Hamilton, and Katherine Bolt. ""Ambient Particulate Matter Concentrations in Residential and Pollution Hotspot Areas of World Cities: New Estimates Based on the Global Model of Ambient Particulates (GMAPS),"" World Bank, Development Research Group and Environment Department (2006).; The Changing Wealth of Nations: Measuring Sustainable Development in the New Millennium; World Bank staff estimates based on sources and methods in Arundhati Kunte and others' ""Estimating National Wealth: Methodology and Results"" (1998).; World Resources Institute. 2003. Carbon Emissions from energy use and cement manufacturing, 1850 to 2000. Available on-line through the Climate Analysis Indicators Tool (CAIT) at Washington, DC: World Resources Institute; World Bank staff estimates based on Samuel Fankhauser's ""Valuing Climate Change: The Economics of the Greenhouse"" (1995).; United Nations Statistics Division Original html; Kiran D. Pandey and others' ""The Human Costs of Air Pollution: New Estimates for Developing Countries"" (2006).

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