| CO2 total |
CO2 from all sources, including fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors) plus CO2 emissions from Non-energy use of fuels, Natural gas systems, Cement production, Lime production, Other process uses of carbonates, Glass production, Soda ash production, Carbon dioxide consumption, Incineration of waste, Titanium dioxide production, Aluminum production, Iron and steel production & metallurgical coke production, Ferroalloy production, Ammonia production, Urea consumption for non-agricultural purposes, Phosphoric acid production, Petrochemical production, Carbide production and consumption, Lead production, Zinc production, Petroleum systems, Abandoned oil and gas wells, Magnesium production and processing, Liming, Urea fertilization. |
| Fossil fuel combustion total |
CO2 from fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors). |
| Fossil fuel electric power sector |
CO2 from fossil fuel combustion (electric power) of natural gas, coal, petroleum, and other gases, including blast furnace gas and other manufactured and waste gases derived from fossil fuels. |
| Fossil fuel transportation sector |
CO2 from fossil fuel combustion (transportation) from burning fossil fuel for cars, trucks, ships, trains, and planes, primarily gasoline and diesel. |
| Fossil fuel industrial sector |
CO2 from fossil fuel combustion (industry) primarily from burning fossil fuels for energy, as well as greenhouse gas emissions from certain chemical reactions necessary to produce goods from raw materials. |
| Fossil fuel residential sector |
CO2 from fossil fuel combustion (residential) from homes primarily from fossil fuels burned for heat, the use of certain products that contain greenhouse gases, and the handling of waste. |
| Fossil fuel commercial sector |
CO2 from fossil fuel combustion (commercial) from businesses primarily from fossil fuels burned for heat, the use of certain products that contain greenhouse gases, and the handling of waste. |
| Non-energy use of fuels |
CO2 from non-energy use of fuels, including construction materials, chemical feedstocks, lubricants, solvents, and waxes. |
| Natural gas systems |
CO2 from natural gas systems, including fugitive emissions from leaks, venting, and flaring. |
| Cement production |
CO2 from cement production primarily "clinker" production when calcium carbonate (CaCO3) is heated in a cement kiln to form lime (i.e., calcium oxide, or CaO) and CO2 in a process known as calcination or calcining. Emissions from fuels consumed for energy purposes during cement production are excluded as they are accounted for in the energy sector. |
| Lime production |
CO2 from lime production when limestone is roasted at high temperatures in a kiln to produce calcium oxide (CaO) and CO2. Emissions from fuels consumed for energy purposes during lime production are excluded as they are accounted for in the energy sector. |
| Other process uses of carbonates |
CO2 from limestone, dolomite, and other carbonate production. Emissions from fuels consumed for energy purposes during other process uses are excluded as they are accounted for in the energy sector. |
| Glass production |
CO2 from the glass production process. Emissions from fuels consumed for energy purposes during glass production are excluded as they are accounted for in the energy sector. |
| Soda ash production |
CO2 from generated calcining trona ore to produce soda ash. Emissions from fuels consumed for energy purposes during soda ash production are excluded as they are accounted for in the energy sector. |
| Carbon dioxide consumption |
CO2 from a variety of commercial applications, including food processing, chemical production, carbonated beverage production, and refrigeration, and is petroleum production for enhanced oil recovery (EOR). |
| Incineration of waste |
CO2 from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Titanium dioxide production |
CO2 from Titanium dioxide (TiO2) manufacturing using the chloride process or the sulfate process. Emissions from fuels consumed for energy purposes during Titanium dioxide production are excluded as they are accounted for in the energy sector. |
| Aluminum production |
CO2 from the production of primary aluminum. Emissions from fuels consumed for energy purposes during aluminum production are excluded as they are accounted for in the energy sector. |
| Iron and steel production & metallurgical coke production |
CO2 from iron and steel production & metallurgical coke production. Emissions from fuels consumed for energy purposes during iron and steel production & metallurgical coke production are excluded as they are accounted for in the energy sector. |
| Ferroalloy production |
CO2 from the production of ferroalloys, composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). Emissions from fuels consumed for energy purposes during ferroalloy production are excluded as they are accounted for in the energy sector. |
| Ammonia production |
CO2 from the production of synthetic ammonia, primarily through the use of natural gas, petroleum coke, or naphtha as a feedstock. Emissions from fuels consumed for energy purposes during synthetic ammonia production are excluded as they are accounted for in the energy sector. |
| Urea consumption for non-agricultural purposes |
CO2 from the consumption for urea non-agricultural purposes. Emissions of CO2 resulting from agricultural applications of urea are accounted for under urea fertilization in agriculture. |
| Phosphoric acid production |
CO2 from the production of phosphoric acid, a basic raw material used in the production of phosphate-based fertilizers. |
| Petrochemical production |
CO2 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. Emissions from fuels and feedstocks transferred out of the system for use in energy purposes (e.g., fuel combustion for indirect or direct process heat or steam production) are excluded as they are accounted for in the energy sector. |
| Carbide production and consumption |
CO2 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. Emissions from fuels consumed for energy purposes during carbide production are excluded as they are accounted for in the energy sector. |
| Lead production |
CO2 from the production of lead. Emissions from fuels consumed for energy purposes during lead production are excluded as they are accounted for in the energy sector. |
| Zinc production |
CO2 from the production of zinc. Emissions from fuels consumed for energy purposes during zinc production are excluded as they are accounted for in the energy sector. |
| Petroleum systems |
CO2 from petroleum systems, primarily associated with onshore and offshore crude oil production and refining operations. Emissions from petroleum systems exclude all combustion emissions (e.g., engine combustion) except for flaring CO2 emissions. |
| Abandoned oil and gas wells |
CO2 from abandoned wells, such as orphaned wells, i.e., no responsible operator, and other nonproducing wells. |
| Magnesium production and processing |
CO2 from magnesium metal production and casting industry production. |
| Liming |
CO2 from liming, the addition of crushed limestone (CaCO3) and dolomite (CaMg(CO3)2) by land managers to increase soil pH. |
| Urea fertilization |
CO2 from the use of urea (CO(NH2)2) as a fertilizer. |
| International bunker fuels |
CO2 from emissions from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded from state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| Wood biomass, ethanol, and biodiesel consumption |
CO2 emissions from wood, ethanol, and biodiesel consumption. These are excluded in fuel combustion totals in order to avoid double counting with net carbon fluxes from changes in biogenic carbon reservoirs accounted for in the estimates for LULUCF. |
| CH4 total |
CH4 from all sources, including Stationary combustion, Mobile combustion, Coal mining, Abandoned underground coal mines, Natural gas systems, Petroleum systems, Abandoned oil and gas wells, Petrochemical production, Carbide production and consumption, Iron and steel production & metallurgical coke production, Ferroalloy production, Enteric fermentation, Manure management, Rice cultivation, Field burning of agricultural residues, Landfills, Wastewater treatment, Composting, Anaerobic digestion at biogas facilities, Incineration of waste. |
| Stationary combustion |
CH4 from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion |
CH4 emitted directly from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Coal mining |
CH4 from coal underground mining, surface mining, and post-mining (i.e., coal-handling) activities. |
| Abandoned underground coal mines |
CH4 from underground coal mines that are closed and abandoned. |
| Natural gas systems |
CH4 from natural gas system normal operations, routine maintenance, and system upsets, including natural gas engine and turbine uncombusted exhaust, flaring, and leak emissions, pipelines, equipment, and wells, pressure surge relief systems, and accidents. |
| Petroleum systems |
CH4 from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| Abandoned oil and gas wells |
CH4 from abandoned oil and gas wells. |
| Petrochemical production |
CH4 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. |
| Carbide production and consumption |
CH4 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. |
| Iron and steel production & metallurgical coke production |
CH4 from iron and steel production & metallurgical coke production. |
| Ferroalloy production |
CH4 from the production of ferroalloys, which are composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). |
| Enteric fermentation |
CH4 from animals as part of normal digestive processes. |
| Manure management |
CH4 from the anaerobic decomposition of animal manure through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Rice cultivation |
CH4 from anaerobic conditions from rice cultivation through a process known as methanogenesis. |
| Field burning of agricultural residues |
CH4 from crop residue burning. |
| Landfills |
CH4 from organic landfill waste, such as paper, food scraps, and yard trimmings. |
| Wastewater treatment |
CH4 from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| Composting |
CH4 from large-scale commercial composting facilities. |
| Anaerobic digestion at biogas facilities |
CH4 from organic landfill waste, such as paper, food scraps, and yard trimmings or when biogas is lost due to leakage and other events. |
| Incineration of waste |
CH4 from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| International bunker fuels |
CH4 from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded from state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| N2O total |
N2O from Stationary combustion, Mobile combustion, Adipic acid production, Nitric acid production, Manure management, Agricultural soil management, Field burning of agricultural residues, Wastewater treatment, N2O from product uses, Caprolactam, glyoxal, and glyoxylic acid production, Incineration of waste, Composting, Electronics industry, Natural gas systems, and Petroleum systems. |
| Stationary combustion |
N2O from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion |
N2O from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Adipic acid production |
N2O from the production of adipic acid, a feedstock for nylon. |
| Adipic acid production |
N2O from the production of nitric acid, which is used to make synthetic commercial fertilizers. |
| Manure management |
N2O from the anaerobic decomposition of animal manure and through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Agricultural soil management |
N2O from agricultural activities that increase Nitrogen availability in soils that lead to direct N2O emissions. |
| Field burning of agricultural residues |
N2O from crop residue burning, which is released during combustion. |
| Wastewater treatment |
N2O from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| N2O from product uses |
N2O from products used for general anesthesia, anesthetic in various dental and veterinary applications, propellants in pressure and aerosol products, semiconductor manufacturing, and various other activities. |
| Caprolactam, glyoxal, and glyoxylic acid production |
N2O from the production of prolactam, which is used for nylon-6 fibers, such as carpet manufacturing, and plastics. |
| Incineration of waste |
N2O from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Composting |
N2O from large-scale commercial composting facilities. |
| Electronics industry |
N2O from the production of thin films in the electronics industry through chemical vapor deposition. |
| Natural gas systems |
N2O from natural gas system normal operations, routine maintenance, and system upsets, including natural gas engine and turbine uncombusted exhaust, flaring, and leak emissions, pipelines, equipment, and wells, pressure surge relief systems, and accidents. |
| Petroleum systems |
N2O from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| International bunker fuels |
N2O from emissions from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded in state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| HFC total |
HFCs from the Substitution of ozone depleting substances, HCFC-22 production, Electronics industry, Magnesium production and processing. |
| Substitution of ozone depleting substances |
HFCs from the substitution of ozone depleting substances. |
| HCFC-22 production |
HFC from the production of chlorodifluoromethane (HCFC-22), which is used as a feedstock for several fluoropolymers. |
| Electronics industry |
HFC from the production of thin films in the electronics industry through chemical vapor deposition. |
| Magnesium production and processing |
HFC from magnesium metal production and casting industry production. |
| PFC total |
PFCs from Aluminum production, electronics industry, and substitution of ozone depleting substances. |
| Aluminum production |
PFCs from aluminum production, including perfluorocarbons (PFCs), perfluoromethane (CF4), and perfluoroethane (C2F6). |
| Electronics industry |
PFCs from long-lived fluorinated greenhouse gases used for plasma etching and chamber cleaning in the electronics industry. |
| Substitution of ozone depleting substances |
PFCs from the production of various products n the electronics industry. |
| SF6 total |
SF6 from electrical transmission and distribution, electronics industry, and magnesium production and processing. |
| Electrical transmission and distribution |
SF6 from electrical transmission and distribution equipment, including gas-insulated substations and switchgear, equipment manufacturing, installation, servicing, and disposal. |
| Electronics industry |
SF6 from various processes in the electronics industry. |
| Magnesium production and processing |
SF6 from the production of magnesium metals and casting, which uses sulfur SF6 to prevent the rapid oxidation of molten magnesium in the presence of air. |
| Electronics industry |
NF3 from the electronics industry process of remote plasma chamber cleaning. |
| Unspecified Mix of HFCs and PFCs total |
HFCs and PFCs from unspecified activities. |
| Electronics industry |
HFCs and PFCs from unspecified electronics industry processes. |
| Total emissions, all gases and sources |
Total emissions, all gases, including CO2, CH4, N2O, HFC, PFC, SF6, NF3, and unspecified mix of HFC and PFC. |
| Total emissions, LULUCF |
CH4 and N2O from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF CH4 emissions |
CH4 from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF N2O emissions |
N2O from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF carbon stock change |
Net Carbon stock change from Forest Land, Remaining Forest Land, Land Converted to Forest Land, Cropland Remaining Cropland, Land Converted to Cropland, Grassland Remaining Grassland, Land Converted to Grassland, Wetlands, Remaining Wetlands, Land Converted to Wetlands, Settlements Remaining Settlements, and Land Converted to Settlements. |
| Net emissions, all gases, sources, and sinks |
Total emissions, all gases, including CO2, CH4, N2O, HFC, PFC, SF6, NF3, and unspecified mix of HFC and PFC minus LULUCF sector net total emissions. |
| Energy total |
CO2, CH4, and N2O from Fossil fuel combustion, Natural gas systems, Non-energy use of fuels, Petroleum systems, Coal mining, Stationary combustion, Mobile combustion, Incineration of waste, Abandoned oil and gas wells, and Abandoned underground coal mines |
| Fossil fuel combustion |
CO2, CH4, and N2O from fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors) |
| Natural gas systems |
CO2, CH4, and N2O from natural gas systems, including fugitive emissions from leaks, venting, and flaring. |
| Non-energy use of fuels |
CO2 from the non-energy use of fuels, including feedstocks for the manufacture of plastics, rubber, synthetic fibers, and other materials; reducing agents for the production of various metals and inorganic products; and products such as lubricants, waxes, and asphalt. |
| Petroleum systems |
CO2, CH4, and N2O from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| Stationary combustion |
CO2, CH4, and N2O from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion |
CO2, CH4, and N2O emitted directly from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Incineration of waste |
CO2, CH4, and N2O from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Abandoned oil and gas wells |
CO2, and CH4 from abandoned wells, such as orphaned wells, i.e., no responsible operator, and other nonproducing wells. |
| Industrial processes and product use total |
CO2, CH4, N2O, HFCs, PFCs, NF3, C2F6, and SF6 from Substitution of ozone depleting substances, Iron and steel production & metallurgical coke production, Cement production, Petrochemical production, Ammonia production, Lime production, Nitric acid production, Other process uses of carbonates, Urea consumption for non-agricultural purposes, Adipic acid production, Carbon dioxide consumption, Electronics industry, Electrical transmission and distribution, N?O from product uses, HCFC-22 production, Aluminum production, Soda ash production, Ferroalloy production, Titanium dioxide production, Caprolactam, glyoxal, and glyoxylic acid production, Glass production, Zinc production, Magnesium production and processing, Phosphoric acid production, Lead production, Carbide production and consumption. |
| Substitution of ozone depleting substances |
HFCs, PFCs, from the substitution of ozone depleting substances. |
| Iron and steel production & metallurgical coke production |
CO2 and CH4 from iron and steel production & metallurgical coke production. |
| Cement production |
CO2 from cement production primarily "clinker" production when calcium carbonate (CaCO3) is heated in a cement kiln to form lime (i.e., calcium oxide, or CaO) and CO2 in a process known as calcination or calcining. |
| Petrochemical production |
CO2 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. |
| Ammonia production |
CO2 from the production of synthetic ammonia, primarily through the use of natural gas, petroleum coke, or naphtha as a feedstock. |
| Lime production |
CO2 from lime production when limestone is roasted at high temperatures in a kiln to produce calcium oxide (CaO) and CO2. |
| Other process uses of carbonates |
CO2 from limestone, dolomite, and other carbonate production. |
| Electronics industry |
HFCs, PFCs, SF6, NF3, and N2O from a variety of production processes in the electronics industry. |
| Aluminum production |
CO2, PFCs, CF4, and C2F6 from the production of primary aluminum. |
| Soda ash production |
CO2 from generated calcining trona ore to produce soda ash. |
| Ferroalloy production |
CO2 from the production of ferroalloys, composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). |
| Titanium dioxide production |
CO2 from Titanium dioxide (TiO2) manufacturing using the chloride process or the sulfate process. |
| Glass production |
CO2 from the glass production process. |
| Zinc production |
CO2 from the production of zinc. |
| Magnesium production and processing |
CO2, HFCs, and SF6 from magnesium metal production and casting industry production. |
| Carbide production and consumption |
CO2 and CH4 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. Emissions from fuels consumed for energy purposes during carbide production are excluded as they are accounted for in the energy sector. |
| Agriculture total |
CH4 and N2O from Agricultural soil management, Enteric fermentation, Manure management, Rice cultivation, Urea fertilization, Liming, Field burning of agricultural residues. |
| Agricultural soil management total - per capita |
NA |
| Manure management |
CH4 and N2O from the anaerobic decomposition of animal manure through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Field burning of agricultural residues |
CH4 and N2O from crop residue burning. |
| Waste total |
CO2, CH4 from landfills, wastewater treatment, composting, and anaerobic digestion at biogas facilities |
| Wastewater treatment |
CH4 and N2O from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| Composting |
CH4 and N2O from large-scale commercial composting facilities. |
| Total emissions, all sectors |
Total emissions, all sectors, including Energy, Industrial Processes and Product Use, Agriculture, and Waste |
| Land use, land-use change, and forestry total |
CO2, CH4, and N2O from forest lands, croplands, grasslands, wetlands, and settlements. |
| Forest land |
Carbon sequestered in remaining forest lands, new forest lands. Generally "negative" emissions, or a "sink." |
| Cropland |
CO2 and N2O from cropland management including fossil fuel use on and off the farm and fertilizer production. It can also be emitted or sequestered (stored) in the soil. |
| Grassland |
CO2 absorted and released by grasslands, CH4 from grazing livestock, and N2O is emitted from soils. |
| Wetlands |
CH4 emitted by microbial activiity in wetlands. |
| Settlements |
CO2, CH4, and N2O emitted from changes in biomass, dead organic matter (DOM), and soil carbon on residential, transportation, commercial, and production (commercial, manufacturing) lands of any size, unless it is already included under other land-use categories. Settlement examples include land along streets, in residential (rural and urban) and commercial lawns, in public and private gardens, in golf courses and athletic fields, and in parks, provided such land is functionally or administratively associated with particular cities, villages or other settlement types and is not accounted for in another land-use category. Â |
| Net emissions, all sectors and sinks |
Total emissions, all sectors, including Energy, Industrial Processes and Product Use, Agriculture, and Waste minus LULUCF emissions. |
| CO2 total - per capita |
Per capita CO2 from all sources, including fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors) plus CO2 emissions from Non-energy use of fuels, Natural gas systems, Cement production, Lime production, Other process uses of carbonates, Glass production, Soda ash production, Carbon dioxide consumption, Incineration of waste, Titanium dioxide production, Aluminum production, Iron and steel production & metallurgical coke production, Ferroalloy production, Ammonia production, Urea consumption for non-agricultural purposes, Phosphoric acid production, Petrochemical production, Carbide production and consumption, Lead production, Zinc production, Petroleum systems, Abandoned oil and gas wells, Magnesium production and processing, Liming, Urea fertilization. |
| Fossil fuel combustion total - per capita |
Per capita CO2 from fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors). |
| Fossil fuel electric power sector - per capita |
Per capita CO2 from fossil fuel combustion (electric power) of natural gas, coal, petroleum, and other gases, including blast furnace gas and other manufactured and waste gases derived from fossil fuels. |
| Fossil fuel transportation sector - per capita |
Per capita CO2 from fossil fuel combustion (transportation) from burning fossil fuel for cars, trucks, ships, trains, and planes, primarily gasoline and diesel. |
| Fossil fuel industrial sector - per capita |
Per capita CO2 from fossil fuel combustion (industry) primarily from burning fossil fuels for energy, as well as greenhouse gas emissions from certain chemical reactions necessary to produce goods from raw materials. |
| Fossil fuel residential sector - per capita |
Per capita CO2 from fossil fuel combustion (residential) from homes primarily from fossil fuels burned for heat, the use of certain products that contain greenhouse gases, and the handling of waste. |
| Fossil fuel commercial sector - per capita |
Per capita CO2 from fossil fuel combustion (commercial) from businesses primarily from fossil fuels burned for heat, the use of certain products that contain greenhouse gases, and the handling of waste. |
| Non-energy use of fuels - per capita |
Per capita CO2 from non-energy use of fuels, including construction materials, chemical feedstocks, lubricants, solvents, and waxes. |
| Natural gas systems - per capita |
Per capita CO2 from natural gas systems, including fugitive emissions from leaks, venting, and flaring. |
| Cement production - per capita |
Per capita CO2 from cement production primarily "clinker" production when calcium carbonate (CaCO3) is heated in a cement kiln to form lime (i.e., calcium oxide, or CaO) and CO2 in a process known as calcination or calcining. Emissions from fuels consumed for energy purposes during cement production are excluded as they are accounted for in the energy sector. |
| Lime production - per capita |
Per capita CO2 from lime production when limestone is roasted at high temperatures in a kiln to produce calcium oxide (CaO) and CO2. Emissions from fuels consumed for energy purposes during lime production are excluded as they are accounted for in the energy sector. |
| Other process uses of carbonates - per capita |
Per capita CO2 from limestone, dolomite, and other carbonate production. Emissions from fuels consumed for energy purposes during other process uses are excluded as they are accounted for in the energy sector. |
| Glass production - per capita |
Per capita CO2 from the glass production process. Emissions from fuels consumed for energy purposes during glass production are excluded as they are accounted for in the energy sector. |
| Soda ash production - per capita |
Per capita CO2 from generated calcining trona ore to produce soda ash. Emissions from fuels consumed for energy purposes during soda ash production are excluded as they are accounted for in the energy sector. |
| Carbon dioxide consumption - per capita |
Per capita CO2 from a variety of commercial applications, including food processing, chemical production, carbonated beverage production, and refrigeration, and is petroleum production for enhanced oil recovery (EOR). |
| Incineration of waste - per capita |
Per capita CO2 from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Titanium dioxide production - per capita |
Per capita CO2 from Titanium dioxide (TiO2) manufacturing using the chloride process or the sulfate process. Emissions from fuels consumed for energy purposes during Titanium dioxide production are excluded as they are accounted for in the energy sector. |
| Aluminum production - per capita |
Per capita CO2 from the production of primary aluminum. Emissions from fuels consumed for energy purposes during aluminum production are excluded as they are accounted for in the energy sector. |
| Iron and steel production & metallurgical coke production - per capita |
Per capita CO2 from iron and steel production & metallurgical coke production. Emissions from fuels consumed for energy purposes during iron and steel production & metallurgical coke production are excluded as they are accounted for in the energy sector. |
| Ferroalloy production - per capita |
Per capita CO2 from the production of ferroalloys, composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). Emissions from fuels consumed for energy purposes during ferroalloy production are excluded as they are accounted for in the energy sector. |
| Ammonia production - per capita |
Per capita CO2 from the production of synthetic ammonia, primarily through the use of natural gas, petroleum coke, or naphtha as a feedstock. Emissions from fuels consumed for energy purposes during synthetic ammonia production are excluded as they are accounted for in the energy sector. |
| Urea consumption for non-agricultural purposes - per capita |
Per capita CO2 from the consumption for urea non-agricultural purposes. Emissions of CO2 resulting from agricultural applications of urea are accounted for under urea fertilization in agriculture. |
| Phosphoric acid production - per capita |
Per capita CO2 from the production of phosphoric acid, a basic raw material used in the production of phosphate-based fertilizers. |
| Petrochemical production - per capita |
Per capita CO2 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. Emissions from fuels and feedstocks transferred out of the system for use in energy purposes (e.g., fuel combustion for indirect or direct process heat or steam production) are excluded as they are accounted for in the energy sector. |
| Carbide production and consumption - per capita |
Per capita CO2 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. Emissions from fuels consumed for energy purposes during carbide production are excluded as they are accounted for in the energy sector. |
| Lead production - per capita |
Per capita CO2 from the production of lead. Emissions from fuels consumed for energy purposes during lead production are excluded as they are accounted for in the energy sector. |
| Zinc production - per capita |
Per capita CO2 from the production of zinc. Emissions from fuels consumed for energy purposes during zinc production are excluded as they are accounted for in the energy sector. |
| Petroleum systems - per capita |
Per capita CO2 from petroleum systems, primarily associated with onshore and offshore crude oil production and refining operations. Emissions from petroleum systems exclude all combustion emissions (e.g., engine combustion) except for flaring CO2 emissions. |
| Abandoned oil and gas wells - per capita |
Per capita CO2 from abandoned wells, such as orphaned wells, i.e., no responsible operator, and other nonproducing wells. |
| Magnesium production and processing - per capita |
Per capita CO2 from magnesium metal production and casting industry production. |
| Liming - per capita |
Per capita CO2 from liming, the addition of crushed limestone (CaCO3) and dolomite (CaMg(CO3)2) by land managers to increase soil pH. |
| Urea fertilization - per capita |
Per capita CO2 from the use of urea (CO(NH2)2) as a fertilizer. |
| International bunker fuels - per capita |
Per capita CO2 from emissions from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded from state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| Wood biomass, ethanol, and biodiesel consumption - per capita |
Per capita CO2 emissions from wood, ethanol, and biodiesel consumption. These are excluded in fuel combustion totals in order to avoid double counting with net carbon fluxes from changes in biogenic carbon reservoirs accounted for in the estimates for LULUCF. |
| CH4 total - per capita |
Per capita CH4 from all sources, including Stationary combustion, Mobile combustion, Coal mining, Abandoned underground coal mines, Natural gas systems, Petroleum systems, Abandoned oil and gas wells, Petrochemical production, Carbide production and consumption, Iron and steel production & metallurgical coke production, Ferroalloy production, Enteric fermentation, Manure management, Rice cultivation, Field burning of agricultural residues, Landfills, Wastewater treatment, Composting, Anaerobic digestion at biogas facilities, Incineration of waste. |
| Stationary combustion - per capita |
Per capita CH4 from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion - per capita |
Per capita CH4 emitted directly from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Coal mining - per capita |
Per capita CH4 from coal underground mining, surface mining, and post-mining (i.e., coal-handling) activities. |
| Abandoned underground coal mines - per capita |
Per capita CH4 from underground coal mines that are closed and abandoned. |
| Natural gas systems - per capita |
Per capita CH4 from natural gas system normal operations, routine maintenance, and system upsets, including natural gas engine and turbine uncombusted exhaust, flaring, and leak emissions, pipelines, equipment, and wells, pressure surge relief systems, and accidents. |
| Petroleum systems - per capita |
Per capita CH4 from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| Abandoned oil and gas wells - per capita |
Per capita CH4 from abandoned oil and gas wells. |
| Petrochemical production - per capita |
Per capita CH4 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. |
| Carbide production and consumption - per capita |
Per capita CH4 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. |
| Iron and steel production & metallurgical coke production - per capita |
Per capita CH4 from iron and steel production & metallurgical coke production. |
| Ferroalloy production - per capita |
Per capita CH4 from the production of ferroalloys, which are composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). |
| Enteric fermentation - per capita |
Per capita CH4 from animals as part of normal digestive processes. |
| Manure management - per capita |
Per capita CH4 from the anaerobic decomposition of animal manure through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Rice cultivation - per capita |
Per capita CH4 from anaerobic conditions from rice cultivation through a process known as methanogenesis. |
| Field burning of agricultural residues - per capita |
Per capita CH4 from crop residue burning. |
| Landfills - per capita |
Per capita CH4 from organic landfill waste, such as paper, food scraps, and yard trimmings. |
| Wastewater treatment - per capita |
Per capita CH4 from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| Composting - per capita |
Per capita CH4 from large-scale commercial composting facilities. |
| Anaerobic digestion at biogas facilities - per capita |
Per capita CH4 from organic landfill waste, such as paper, food scraps, and yard trimmings or when biogas is lost due to leakage and other events. |
| Incineration of waste - per capita |
Per capita CH4 from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| International bunker fuels - per capita |
Per capita CH4 from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded from state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| N2O total - per capita |
Per capita N2O from Stationary combustion, Mobile combustion, Adipic acid production, Nitric acid production, Manure management, Agricultural soil management, Field burning of agricultural residues, Wastewater treatment, N2O from product uses, Caprolactam, glyoxal, and glyoxylic acid production, Incineration of waste, Composting, Electronics industry, Natural gas systems, and Petroleum systems. |
| Stationary combustion - per capita |
Per capita N2O from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion - per capita |
Per capita N2O from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Adipic acid production - per capita |
Per capita N2O from the production of adipic acid, a feedstock for nylon. |
| Adipic acid production - per capita |
Per capita N2O from the production of nitric acid, which is used to make synthetic commercial fertilizers. |
| Manure management - per capita |
Per capita N2O from the anaerobic decomposition of animal manure and through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Agricultural soil management - per capita |
Per capita N2O from agricultural activities that increase Nitrogen availability in soils that lead to direct N2O emissions. |
| Field burning of agricultural residues - per capita |
Per capita N2O from crop residue burning, which is released during combustion. |
| Wastewater treatment - per capita |
Per capita N2O from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| N2O from product uses - per capita |
Per capita N2O from products used for general anesthesia, anesthetic in various dental and veterinary applications, propellants in pressure and aerosol products, semiconductor manufacturing, and various other activities. |
| Caprolactam, glyoxal, and glyoxylic acid production - per capita |
Per capita N2O from the production of prolactam, which is used for nylon-6 fibers, such as carpet manufacturing, and plastics. |
| Incineration of waste - per capita |
Per capita N2O from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Composting - per capita |
Per capita N2O from large-scale commercial composting facilities. |
| Electronics industry - per capita |
Per capita N2O from the production of thin films in the electronics industry through chemical vapor deposition. |
| Natural gas systems - per capita |
Per capita N2O from natural gas system normal operations, routine maintenance, and system upsets, including natural gas engine and turbine uncombusted exhaust, flaring, and leak emissions, pipelines, equipment, and wells, pressure surge relief systems, and accidents. |
| Petroleum systems - per capita |
Per capita N2O from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| International bunker fuels - per capita |
Per capita N2O from emissions from the combustion of fuels used for international transport activities, including marine and aviation sectors. These emission are excluded in state and national emissions totals but are reported separately based on location of fuel sales. Emissions from ground transport crossing international borders are allocated to the country where the fuel was loaded into the vehicle and, therefore, are not counted as bunker fuel emissions. |
| HFC total - per capita |
Per capita HFCs from the Substitution of ozone depleting substances, HCFC-22 production, Electronics industry, Magnesium production and processing. |
| Substitution of ozone depleting substances - per capita |
Per capita HFCs from the substitution of ozone depleting substances. |
| HCFC-22 production - per capita |
Per capita HFC from the production of chlorodifluoromethane (HCFC-22), which is used as a feedstock for several fluoropolymers. |
| Electronics industry - per capita |
Per capita HFC from the production of thin films in the electronics industry through chemical vapor deposition. |
| Magnesium production and processing - per capita |
Per capita HFC from magnesium metal production and casting industry production. |
| PFC total - per capita |
Per capita PFCs from Aluminum production, electronics industry, and substitution of ozone depleting substances. |
| Aluminum production - per capita |
Per capita PFCs from aluminum production, including perfluorocarbons (PFCs), perfluoromethane (CF4), and perfluoroethane (C2F6). |
| Electronics industry - per capita |
Per capita PFCs from long-lived fluorinated greenhouse gases used for plasma etching and chamber cleaning in the electronics industry. |
| Substitution of ozone depleting substances - per capita |
Per capita PFCs from the production of various products n the electronics industry. |
| SF6 total - per capita |
Per capita SF6 from electrical transmission and distribution, electronics industry, and magnesium production and processing. |
| Electrical transmission and distribution - per capita |
Per capita SF6 from electrical transmission and distribution equipment, including gas-insulated substations and switchgear, equipment manufacturing, installation, servicing, and disposal. |
| Electronics industry - per capita |
Per capita SF6 from various processes in the electronics industry. |
| Magnesium production and processing - per capita |
Per capita SF6 from the production of magnesium metals and casting, which uses sulfur SF6 to prevent the rapid oxidation of molten magnesium in the presence of air. |
| Electronics industry - per capita |
Per capita NF3 from the electronics industry process of remote plasma chamber cleaning. |
| Unspecified Mix of HFCs and PFCs total - per capita |
Per capita HFCs and PFCs from unspecified activities. |
| Electronics industry - per capita |
Per capita HFCs and PFCs from unspecified electronics industry processes. |
| Total emissions, all gases and sources - per capita |
Per capita total emissions, all gases, including CO2, CH4, N2O, HFC, PFC, SF6, NF3, and unspecified mix of HFC and PFC. |
| Total emissions, LULUCF - per capita |
Per capita CH4 and N2O from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF CH4 emissions - per capita |
Per capita CH4 from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF N2O emissions - per capita |
Per capita N2O from Land Use, Land Use Change, and Forestry (LULUCF). |
| LULUCF carbon stock change - per capita |
Per capita net Carbon stock change from Forest Land, Remaining Forest Land, Land Converted to Forest Land, Cropland Remaining Cropland, Land Converted to Cropland, Grassland Remaining Grassland, Land Converted to Grassland, Wetlands, Remaining Wetlands, Land Converted to Wetlands, Settlements Remaining Settlements, and Land Converted to Settlements. |
| Net emissions, all gases, sources, and sinks - per capita |
Per capita total emissions, all gases, including CO2, CH4, N2O, HFC, PFC, SF6, NF3, and unspecified mix of HFC and PFC minus LULUCF sector net total emissions. |
| Energy total - per capita |
Per capita CO2, CH4, and N2O from Fossil fuel combustion, Natural gas systems, Non-energy use of fuels, Petroleum systems, Coal mining, Stationary combustion, Mobile combustion, Incineration of waste, Abandoned oil and gas wells, and Abandoned underground coal mines |
| Fossil fuel combustion - per capita |
Per capita CO2, CH4, and N2O from fossil fuel combustion (electric power, transportation, industrial, residential, commercial sectors) |
| Natural gas systems - per capita |
Per capita CO2, CH4, and N2O from natural gas systems, including fugitive emissions from leaks, venting, and flaring. |
| Non-energy use of fuels - per capita |
Per capita CO2 from the non-energy use of fuels, including feedstocks for the manufacture of plastics, rubber, synthetic fibers, and other materials; reducing agents for the production of various metals and inorganic products; and products such as lubricants, waxes, and asphalt. |
| Petroleum systems - per capita |
Per capita CO2, CH4, and N2O from petroleum system leaks, venting, including emissions from operational upsets, and flaring. |
| Stationary combustion - per capita |
Per capita CO2, CH4, and N2O from stationary sources including boilers, heaters, furnaces, kilns, ovens, flares, thermal oxidizers, dryers, and any other equipment or machinery that combusts carbon bearing fuels or waste stream materials. |
| Mobile combustion - per capita |
Per capita CO2, CH4, and N2O emitted directly from the combustion of fuels in different types of mobile equipment, including on-road, off-road, marine, and air. |
| Incineration of waste - per capita |
Per capita CO2, CH4, and N2O from waste incineration, including all municipal solid waste (MSW) and scrap tires. |
| Abandoned oil and gas wells - per capita |
Per capita CO2, and CH4 from abandoned wells, such as orphaned wells, i.e., no responsible operator, and other nonproducing wells. |
| Industrial processes and product use total - per capita |
Per capita CO2, CH4, N2O, HFCs, PFCs, NF3, C2F6, and SF6 from Substitution of ozone depleting substances, Iron and steel production & metallurgical coke production, Cement production, Petrochemical production, Ammonia production, Lime production, Nitric acid production, Other process uses of carbonates, Urea consumption for non-agricultural purposes, Adipic acid production, Carbon dioxide consumption, Electronics industry, Electrical transmission and distribution, N?O from product uses, HCFC-22 production, Aluminum production, Soda ash production, Ferroalloy production, Titanium dioxide production, Caprolactam, glyoxal, and glyoxylic acid production, Glass production, Zinc production, Magnesium production and processing, Phosphoric acid production, Lead production, Carbide production and consumption. |
| Substitution of ozone depleting substances - per capita |
Per capita HFCs, PFCs, from the substitution of ozone depleting substances. |
| Iron and steel production & metallurgical coke production - per capita |
Per capita CO2 and CH4 from iron and steel production & metallurgical coke production. |
| Cement production - per capita |
Per capita CO2 from cement production primarily "clinker" production when calcium carbonate (CaCO3) is heated in a cement kiln to form lime (i.e., calcium oxide, or CaO) and CO2 in a process known as calcination or calcining. |
| Petrochemical production - per capita |
Per capita CO2 from the production of petrochemicals, including acrylonitrile, carbon black, ethylene, ethylene dichloride, ethylene oxide, and methanol. |
| Ammonia production - per capita |
Per capita CO2 from the production of synthetic ammonia, primarily through the use of natural gas, petroleum coke, or naphtha as a feedstock. |
| Lime production - per capita |
Per capita CO2 from lime production when limestone is roasted at high temperatures in a kiln to produce calcium oxide (CaO) and CO2. |
| Other process uses of carbonates - per capita |
Per capita CO2 from limestone, dolomite, and other carbonate production. |
| Electronics industry - per capita |
Per capita HFCs, PFCs, SF6, NF3, and N2O from a variety of production processes in the electronics industry. |
| Aluminum production - per capita |
Per capita CO2, PFCs, CF4, and C2F6 from the production of primary aluminum. |
| Soda ash production - per capita |
Per capita CO2 from generated calcining trona ore to produce soda ash. |
| Ferroalloy production - per capita |
Per capita CO2 from the production of ferroalloys, composites of iron (Fe) and other elements such as silicon (Si), manganese (Mn), and chromium (Cr). |
| Titanium dioxide production - per capita |
Per capita CO2 from Titanium dioxide (TiO2) manufacturing using the chloride process or the sulfate process. |
| Glass production - per capita |
Per capita CO2 from the glass production process. |
| Zinc production - per capita |
Per capita CO2 from the production of zinc. |
| Magnesium production and processing - per capita |
Per capita CO2, HFCs, and SF6 from magnesium metal production and casting industry production. |
| Carbide production and consumption - per capita |
Per capita CO2 and CH4 from the production of silicon carbide (SiC), a material used for industrial abrasive, metallurgical, and other nonabrasive applications. Emissions from fuels consumed for energy purposes during carbide production are excluded as they are accounted for in the energy sector. |
| Agriculture total - per capita |
Per capita CH4 and N2O from Agricultural soil management, Enteric fermentation, Manure management, Rice cultivation, Urea fertilization, Liming, Field burning of agricultural residues. |
| Manure management - per capita |
Per capita CH4 and N2O from the anaerobic decomposition of animal manure through the processes of nitrification and denitrification, volatilization, and runoff and leaching. |
| Field burning of agricultural residues - per capita |
Per capita CH4 and N2O from crop residue burning. |
| Waste total - per capita |
Per capita CO2, CH4 from landfills, wastewater treatment, composting, and anaerobic digestion at biogas facilities |
| Wastewater treatment - per capita |
Per capita CH4 and N2O from wastewater emissions and from anaerobic sludge digesters when the captured biogas is not completely combusted. |
| Composting - per capita |
Per capita CH4 and N2O from large-scale commercial composting facilities. |
| Total emissions, all sectors - per capita |
Per capita total emissions, all sectors, including Energy, Industrial Processes and Product Use, Agriculture, and Waste |
| Land use, land-use change, and forestry total - per capita |
Per capita CO2, CH4, and N2O from forest lands, croplands, grasslands, wetlands, and settlements. |
| Forest land - per capita |
Per capita carbon sequestered in remaining forest lands, new forest lands. Generally "negative" emissions, or a "sink." |
| Cropland - per capita |
Per capita CO2 and N2O from cropland management including fossil fuel use on and off the farm and fertilizer production. It can also be emitted or sequestered (stored) in the soil. |
| Grassland - per capita |
Per capita CO2 absorted and released by grasslands, CH4 from grazing livestock, and N2O is emitted from soils. |
| Wetlands - per capita |
Per capita CH4 emitted by microbial activiity in wetlands. |
| Settlements - per capita |
Per capita CO2, CH4, and N2O emitted from changes in biomass, dead organic matter (DOM), and soil carbon on residential, transportation, commercial, and production (commercial, manufacturing) lands of any size, unless it is already included under other land-use categories. Settlement examples include land along streets, in residential (rural and urban) and commercial lawns, in public and private gardens, in golf courses and athletic fields, and in parks, provided such land is functionally or administratively associated with particular cities, villages or other settlement types and is not accounted for in another land-use category. |
| Net emissions, all sectors and sinks - per capita |
Per capita total emissions, all sectors, including Energy, Industrial Processes and Product Use, Agriculture, and Waste minus LULUCF emissions. |
| LULUCF sector net total emissions |
Land Use, Land Use Change, and Forestry (LULUCF) carbon stock change minus Total emissions, LULUCF |
| LULUCF sector net total emissions - per capita |
Per capita Land Use, Land Use Change, and Forestry (LULUCF) carbon stock change minus Total emissions, LULUCF |
| Total emissions, all gases and sources per $1 million GDP |
Metric tons of Greenhouse Gases per $1 million in State Gross Domestic Product, expressed in constant 2012 dollars. |
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