Atmospheric methane: Difference between revisions

Atmospheric Methane

Atmospheric methane is a potent greenhouse gas with significant implications for climate change and environmental science. It is the second most abundant anthropogenic greenhouse gas after carbon dioxide, contributing to global warming and climate change.

Sources of Atmospheric Methane

Methane is released into the atmosphere from both natural and anthropogenic sources.

Natural Sources

Wetlands: Wetlands are the largest natural source of methane, where anaerobic decomposition of organic material occurs.
Termites: Termites produce methane during the digestion of cellulose.
Oceans: Methane is released from the ocean floor and through biological processes in the water column.
Permafrost: Thawing permafrost releases methane trapped in ice.

Anthropogenic Sources

Agriculture: Livestock digestion and rice paddies are significant sources of methane emissions.
Fossil Fuels: Extraction and burning of fossil fuels, such as coal, oil, and natural gas, release methane.
Landfills: Decomposition of organic waste in landfills produces methane.
Biomass Burning: Burning of organic matter releases methane.

Atmospheric Chemistry and Lifetime

Methane has a relatively short atmospheric lifetime of about 9-12 years. It is removed from the atmosphere primarily through reaction with hydroxyl radicals (OH) in the troposphere, forming water vapor and carbon dioxide.

Impact on Climate

Methane is a powerful greenhouse gas, with a global warming potential approximately 28-36 times greater than that of carbon dioxide over a 100-year period. It absorbs infrared radiation, trapping heat in the atmosphere and contributing to the greenhouse effect.

Mitigation Strategies

Efforts to reduce atmospheric methane include:

Improving agricultural practices: Enhancing feed efficiency and manure management in livestock.
Capturing landfill gas: Utilizing methane from landfills as an energy source.
Reducing fossil fuel emissions: Implementing technologies to capture methane during extraction and transport.
Restoring wetlands: Managing water levels to reduce methane emissions.

Also see

Climate change

Overview
Causes of climate change Effects of climate change Climate change mitigation Climate change adaptation By country and region

Causes

Overview	Climate system Greenhouse effect (Carbon dioxide in Earth's atmosphere) Scientific consensus on climate change
Sources	Deforestation Fossil fuel Greenhouse gases Greenhouse gas emissions Carbon accounting Carbon footprint Carbon leakage from agriculture from wetlands World energy supply and consumption

History
History of climate change policy and politics History of climate change science Svante Arrhenius James Hansen Charles David Keeling United Nations Climate Change conferences Years in climate change 2019 2020 2021 2022 2023 2024

Effects and issues

Physical	Abrupt climate change Anoxic event Arctic methane emissions Arctic sea ice decline Atlantic meridional overturning circulation Drought Extreme weather Flood Coastal flooding Heat wave Marine Urban heat island Oceans acidification deoxygenation heat content sea surface temperature stratification temperature Ozone depletion Permafrost thaw Retreat of glaciers since 1850 Sea level rise Season creep Tipping points in the climate system Tropical cyclones Water cycle Wildfires
Flora and fauna	Biomes Mass mortality event Birds Extinction risk Forest dieback Invasive species Marine life Plant biodiversity
Social and economic	Agriculture Livestock Multi-breadbasket failure United States Children Cities Civilizational collapse Crime Depopulation of settlements Destruction of cultural heritage Disability Economic impacts U.S. insurance industry Fisheries Gender Health Mental health Human rights Indigenous peoples Infectious diseases Migration Poverty Psychological impacts Security and conflict Urban flooding Water scarcity Water security
By country and region	Africa Americas Antarctica Arctic Asia Australia Caribbean Europe Middle East and North Africa Small island countries by individual country

Mitigation

Economics and finance	Carbon budget Carbon emission trading Carbon offsets and credits Gold Standard (carbon offset standard) Carbon price Carbon tax Climate debt Climate finance Climate risk insurance Co-benefits of climate change mitigation Economics of climate change mitigation Fossil fuel divestment Green Climate Fund Low-carbon economy Net zero emissions
Energy	Carbon capture and storage Energy transition Fossil fuel phase-out Nuclear power Renewable energy Sustainable energy
Preserving and enhancing carbon sinks	Blue carbon Carbon dioxide removal Carbon sequestration Direct air capture Carbon farming Climate-smart agriculture Forest management afforestation forestry for carbon sequestration REDD and REDD+ reforestation Land use, land-use change, and forestry (LULUCF and AFOLU) Nature-based solutions
Personal	Individual action on climate change Plant-based diet

Society and adaptation

Society	Business action Climate action Climate emergency declaration Climate movement School Strike for Climate Denial Ecological grief Governance Justice Litigation Politics Public opinion Women
Adaptation	Adaptation strategies on the German coast Adaptive capacity Disaster risk reduction Ecosystem-based adaptation Flood control Loss and damage Managed retreat Nature-based solutions Resilience Risk Vulnerability The Adaptation Fund National Adaptation Programme of Action
Communication	Climate Change Performance Index Climate crisis (term) Climate spiral Education Media coverage Popular culture depictions art fiction video games Warming stripes
International agreements	Glasgow Climate Pact Kyoto Protocol Paris Agreement Cooperative Mechanisms under Article 6 of the Paris Agreement Nationally determined contributions Sustainable Development Goal 13 United Nations Framework Convention on Climate Change

Background and theory

Measurements	Global surface temperature Instrumental temperature record Proxy Satellite temperature measurement
Theory	Albedo Carbon cycle atmospheric biologic oceanic permafrost Carbon sink Climate sensitivity Climate variability and change Cloud feedback Cloud forcing Fixed anvil temperature hypothesis Cryosphere Earth's energy budget Extreme event attribution Feedbacks Global warming potential Illustrative model of greenhouse effect on climate change Orbital forcing Radiative forcing
Research and modelling	Climate change scenario Climate model Coupled Model Intercomparison Project Intergovernmental Panel on Climate Change (IPCC) IPCC Sixth Assessment Report Paleoclimatology Representative Concentration Pathway Shared Socioeconomic Pathways

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Template:Greenhouse gases

@@ Line 1: / Line 1: @@
-# Atmospheric Methane
+Atmospheric Methane
 Atmospheric methane is a potent greenhouse gas with significant implications for climate change and environmental science. It is the second most abundant anthropogenic greenhouse gas after carbon dioxide, contributing to global warming and climate change.
@@ Line 7: / Line 7: @@
 === Natural Sources ===
-* **Wetlands**: Wetlands are the largest natural source of methane, where anaerobic decomposition of organic material occurs.
+* '''Wetlands''': Wetlands are the largest natural source of methane, where anaerobic decomposition of organic material occurs.
-* **Termites**: Termites produce methane during the digestion of cellulose.
+* '''Termites''': Termites produce methane during the digestion of cellulose.
-* **Oceans**: Methane is released from the ocean floor and through biological processes in the water column.
+* '''Oceans''': Methane is released from the ocean floor and through biological processes in the water column.
-* **Permafrost**: Thawing permafrost releases methane trapped in ice.
+* '''Permafrost''': Thawing permafrost releases methane trapped in ice.
 === Anthropogenic Sources ===
-* **Agriculture**: Livestock digestion and rice paddies are significant sources of methane emissions.
+* '''Agriculture''': Livestock digestion and rice paddies are significant sources of methane emissions.
-* **Fossil Fuels**: Extraction and burning of fossil fuels, such as coal, oil, and natural gas, release methane.
+* '''Fossil Fuels''': Extraction and burning of fossil fuels, such as coal, oil, and natural gas, release methane.
-* **Landfills**: Decomposition of organic waste in landfills produces methane.
+* '''Landfills''': Decomposition of organic waste in landfills produces methane.
-* **Biomass Burning**: Burning of organic matter releases methane.
+* '''Biomass Burning''': Burning of organic matter releases methane.
 == Atmospheric Chemistry and Lifetime ==
@@ Line 26: / Line 26: @@
 == Mitigation Strategies ==
 Efforts to reduce atmospheric methane include:
-* **Improving agricultural practices**: Enhancing feed efficiency and manure management in livestock.
+* '''Improving agricultural practices''': Enhancing feed efficiency and manure management in livestock.
-* **Capturing landfill gas**: Utilizing methane from landfills as an energy source.
+* '''Capturing landfill gas''': Utilizing methane from landfills as an energy source.
-* **Reducing fossil fuel emissions**: Implementing technologies to capture methane during extraction and transport.
+* '''Reducing fossil fuel emissions''': Implementing technologies to capture methane during extraction and transport.
-* **Restoring wetlands**: Managing water levels to reduce methane emissions.
+* '''Restoring wetlands''': Managing water levels to reduce methane emissions.
 == Also see ==

Revision as of 16:42, 28 November 2024

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