Methane emissions


Increasing methane emissions are a major contributor to the rising concentration of
greenhouse gas A greenhouse gas (GHG or GhG) is a gas Gas is one of the four fundamental states of matter (the others being solid, liquid A liquid is a nearly incompressible fluid In physics, a fluid is a substance that continually Deformat ...
es in
Earth's atmosphere File:Atmosphere gas proportions.svg, Composition of Earth's atmosphere by volume, excluding water vapor. Lower pie represents trace gases that together compose about 0.043391% of the atmosphere (0.04402961% at April 2019 concentration ). Number ...

Earth's atmosphere
, and are responsible for up to one-third of near-term global heating. During 2019, about 60% (360 million tons) of
methane Methane (, ) is a chemical compound with the chemical formula (one carbon atom bonded to four hydrogen atoms). It is a group-14 hydride, the simplest alkane, and the main constituent of natural gas. The relative abundance of methane on Earth ...
released globally was from human activities, while natural sources contributed about 40% (230 million tons). Reducing methane emissions by capturing and utilizing the gas can produce simultaneous environmental and economic benefits. About one-third (33%) of
anthropogenic Anthropogenic ("human" + "generating") is an adjective that may refer to: * Anthropogeny, the study of the origins of humanity Counterintuitively, anthropogenic may also refer to things that have been generated by humans, as follows: * Human imp ...
emissions are from gas release during the and delivery of
fossil fuels A fossil fuel is a hydrocarbon In organic chemistry, a hydrocarbon is an organic compound , CH4; is among the simplest organic compounds. In chemistry, organic compounds are generally any chemical compounds that contain carbon-hydrogen che ...
; mostly due to
gas venting Gas venting, more specifically known as natural-gas venting or methane venting, is the intentional and controlled release of gases containing alkane hydrocarbons - predominately methane - into earth's atmosphere. It is a widely used method for ...
and gas leaks from both active fossil fuel infrastructure and orphan wells. Russia is the world's top methane emitter from oil and gas. Animal agriculture is a similarly large source (30%); primarily because of enteric fermentation by ruminant, ruminant livestock such as cattle and sheep. Human consumer waste flows, especially those passing through landfills and wastewater treatment, have grown to become a third major category (18%). Plant agriculture, including both food and biomass production, constitutes a fourth group (15%), with rice production being the largest single contributor. The world's wetlands contribute about three-quarters (75%) of the enduring natural sources of methane. Seepages from near-surface hydrocarbon and clathrate hydrate deposits, volcanic gas, volcanic releases, wildfires, and termite emissions account for much of the remainder. Contributions from the surviving wild populations of ruminant mammals are vastly overwhelmed by those of cattle, humans, and other livestock animals.

Atmospheric concentration and warming influence

The atmospheric methane (CH4) concentration is increasing and exceeded 1860 parts per billion in 2019, equal to two-and-a-half times the pre-industrial level. The methane itself causes ''direct radiative forcing'' that is second only to that of carbon dioxide (CO2). Due to interactions with oxygen compounds stimulated by sunlight, CH4 can also increase the atmospheric presence of shorter-lived ozone and water vapour, themselves potent warming gases: atmospheric researchers call this amplification of methane's near-term warming influence ''indirect radiative forcing''. When such interactions occur, longer-lived and less-potent CO2 is also produced. Including both the direct and indirect forcings, the increase in atmospheric methane is responsible for about one-third of near-term global heating. Though methane causes far more heat to be trapped than the same mass of carbon dioxide, less than half of the emitted CH4 remains in the atmosphere after a decade. On average, carbon dioxide warms for much longer, assuming no change in rates of carbon sequestration. The global warming potential (GWP) is a way of comparing the warming due to other gases to that from carbon dioxide, over a given time period. Methane's GWP20 of 85 means that a ton of CH4 emitted into the atmosphere creates approximately 85 times the atmospheric warming as a ton of CO2 over a period of 20 years.Myhre, G., D. Shindell, F.-M. Bréon, W. Collins, J. Fuglestvedt, J. Huang, D. Koch, J.-F. Lamarque, D. Lee, B. Mendoza, T. Nakajima, A. Robock, G. Stephens, T. Takemura and H. Zhang (2013
"Anthropogenic and Natural Radiative Forcing"
Table 8.7 on page 714. In: ''Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change''. Stocker, T.F., D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA
Anthropogenic and Natural Radiative Forcing
/ref> On a 100-year timescale, methane's GWP100 is in the range of 28–34.

List of emission sources

Abiogenic methane is stored in rocks and soil stems from the geologic processes that convert ancient biomass into fossil fuels. Biogenic methane is actively produced by microorganisms in a process called methanogenesis. Under certain conditions, the process mix responsible for a sample of methane may be deduced from the ratio of the isotopes of carbon, and through analysis methods similar to carbon dating.


A comprehensive Systems theory, systems method from describing the sources of methane due to human society is known as anthropogenic metabolism. , emission volumes from some sources remain more uncertain than others; due in part to localized emission spikes not captured by the limited global measurement capability. The time required for a methane emission to become well-mixed throughout earth's troposphere is about 1–2 years.


Natural sources have always been a part of the methane cycle. Wetland emissions have been declining due to draining for agricultural and building areas.

Importance of methane emissions

Methane emissions are important as reducing them can buy time to tackle carbon emissions.

Global monitoring

Uncertainties in methane emissions, including so-called "super-emitter" fossil extractions and unexplained atmospheric fluctuations, highlight the need for improved monitoring at both regional and global scale. Satellites have recently begun to come online with capability to measure methane and other more powerful greenhouse gases with improving resolution. The Tropomi instrument launched in year 2017 by the European Space Agency can measure methane, sulphur dioxide, nitrogen dioxide, carbon monoxide, aerosol, and ozone concentrations in earth's troposphere at resolutions of several kilometers. Japan's Greenhouse Gases Observing Satellite, GOSAT-2 platform launched in 2018 provides similar capability. Th
satellite launched in year 2016 by the Canadian fir
can resolve carbon dioxide and methane to as little as 50 meters, thus enabling its customers to pinpoint the source of emissions.

National reduction policies

China implemented regulations requiring coal plants to either capture methane emissions or convert methane into in 2010. According to a Nature Communications paper published in January 2019, methane emissions instead increased 50 percent between 2000 and 2015. In March 2020, Exxon called for stricter methane regulations, which would include detection and repair of leaks, minimization of venting and releases of unburned methane, and reporting requirements for companies. However, in August 2020, the U.S. Environmental Protection Agency rescinded a prior tightening of methane emission rules for the U.S. oil and gas industry.

Removal technology

Various approaches have been suggested to actively remove methane from the atmosphere. In 2019, researchers proposed a technique for removing methane from the atmosphere using zeolite. Each molecule of methane would be converted into , which has a far smaller impact on climate (99% less). Replacing all atmospheric methane with would reduce total greenhouse gas warming by approximately one-sixth. Zeolite is a crystalline material with a porous molecular structure. Powerful fans could push air through reactors of zeolite and catalysts to absorb the methane. The reactor could then be heated to form and release . Because of methane's higher GWP, at a carbon price of $500/ton removing one ton of methane would earn $12,000. In 2021, Methane Action proposed adding iron to seawater sprays from ship smokestacks. The group claimed that an amount equal to approximately 10% of the iron dust that already reaches the atmosphere could readily restore methane to pre-industrial levels. Another approach is to apply titanium dioxide paint to large surfaces.

See also

*Global Methane Initiative *China United Coalbed Methane *CO2 emissions *Fugitive gas emissions *Climate change feedback *Greenhouse Gases Observing Satellite-2


External links

* * {{cite web , title=Greenhouse Gas Emissions - Methane Emissions , website=Energy Information Administration, EIA , date=2011-03-31 , url= , ref={{sfnref , EIA , 2011 , access-date=2018-03-06 Greenhouse gas emissions Methane