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Explaining the methane mystery
September 28, 2006Scientists have explained why atmospheric levels of the greenhouse gas methane have stabilised
Scientists have explained why atmospheric levels of the greenhouse gas methane have stabilised in recent years, but warn that increases could resume in the near future.
In research published in Nature this week, an international team of scientists - including CSIRO researchers - has shown that it was a decline in emissions of methane from human activities in the 1990s that resulted in the recent slower growth of methane in the global atmosphere.
Since 1999, however, sources of methane from human activities have again increased, but their effect on the atmosphere has been counteracted by a reduction in wetland emissions of methane over the same period.
According to one of the authors of the Nature paper, Dr Paul Steele from CSIRO Marine and Atmospheric Research, prolonged drying of wetlands - caused by draining and climate change - has resulted in a reduction in the amount of methane released by wetlands, masking the rise in emissions from human activities.
"Had it not been for this reduction in methane emissions from wetlands, atmospheric levels of methane would most likely have continued rising," he says.
"This suggests that, if the drying trend is reversed and emissions from wetlands return to normal, atmospheric methane levels may increase again, worsening the problem of climate change."
The researchers used computer simulations of how the gas is transported in the atmosphere to trace back to the source of methane emissions, based on the past 20 years of atmospheric measurements.
The results indicate that a reduction and/or more efficient use of natural gas in the Northern Hemisphere was largely responsible for the drop in methane emissions in the 1990s, and that the more recent increase stemmed from strongly increasing emissions from fossil fuel use in north Asia.
The scientists also showed how changes in emissions from wetlands and, to a lesser extent, bushfires, accounted for variations in atmospheric methane from year to year.
The research is expected to help reduce uncertainties in future projections of climate change and to help design effective strategies to reduce methane emissions from human activities.
To date, reductions in major sources of methane from human activities include improved piping of natural gas and the capture of methane from landfill sites to generate electricity.
Methane is the second most important greenhouse gas after carbon dioxide and is estimated to have been responsible for a fifth of the enhanced greenhouse effect over the past 200 years. In addition to emissions from natural wetlands and many other natural sources, human activities including agriculture and the mining and use of fossil fuels produce large amounts of the gas.
CSIRO Australia
Since 1999, however, sources of methane from human activities have again increased, but their effect on the atmosphere has been counteracted by a reduction in wetland emissions of methane over the same period.
According to one of the authors of the Nature paper, Dr Paul Steele from CSIRO Marine and Atmospheric Research, prolonged drying of wetlands - caused by draining and climate change - has resulted in a reduction in the amount of methane released by wetlands, masking the rise in emissions from human activities.
"Had it not been for this reduction in methane emissions from wetlands, atmospheric levels of methane would most likely have continued rising," he says.
"This suggests that, if the drying trend is reversed and emissions from wetlands return to normal, atmospheric methane levels may increase again, worsening the problem of climate change."
The researchers used computer simulations of how the gas is transported in the atmosphere to trace back to the source of methane emissions, based on the past 20 years of atmospheric measurements.
The results indicate that a reduction and/or more efficient use of natural gas in the Northern Hemisphere was largely responsible for the drop in methane emissions in the 1990s, and that the more recent increase stemmed from strongly increasing emissions from fossil fuel use in north Asia.
The scientists also showed how changes in emissions from wetlands and, to a lesser extent, bushfires, accounted for variations in atmospheric methane from year to year.
The research is expected to help reduce uncertainties in future projections of climate change and to help design effective strategies to reduce methane emissions from human activities.
To date, reductions in major sources of methane from human activities include improved piping of natural gas and the capture of methane from landfill sites to generate electricity.
Methane is the second most important greenhouse gas after carbon dioxide and is estimated to have been responsible for a fifth of the enhanced greenhouse effect over the past 200 years. In addition to emissions from natural wetlands and many other natural sources, human activities including agriculture and the mining and use of fossil fuels produce large amounts of the gas.
CSIRO Australia
Methane Emissions Current Events and Methane Emissions News RSSInteractions with aerosols boost warming potential of some gases
For decades, climate scientists have worked to identify and measure key substances -- notably greenhouse gases and aerosol particles -- that affect Earth's climate.
Stressed crops emit more methane than thought
Scientists at the University of Calgary have found that methane emission by plants could be a bigger problem in global warming than previously thought.
Fish oils reduce greenhouse gas emissions from flatulent cows
The benefits to animals of omega 3 fatty acids in fish oils have been well documented - helping the heart and circulatory system, improving meat quality and reducing methane emissions.
Study: Soybean oil reduces carbon footprint in swine barns
One of agriculture's most versatile crops could one day play a role in combating climate change, Purdue University research shows.
Managing Carbon Loss
As the United States continues to develop alternative energy methods and push towards energy independence, cellulosic-based ethanol has emerged as one of the most commercially viable technologies.
Putting a green cap on garbage dumps
andfill sites produce the greenhouse gases, methane and carbon dioxide, as putrescible waste decays. Growing plants and trees on top of a landfill, a process known as 'Phytocapping', could reduce the production and release of these gases, according to Australian scientists writing in a forthcoming issue of International Journal of Environmental Technology and Management.
Methane gas levels begin to increase again
The amount of methane in Earth's atmosphere shot up in 2007, bringing to an end a period of about a decade in which atmospheric levels of the potent greenhouse gas were essentially stable, according to a team led by MIT researchers.
Permafrost Threatened by Rapid Retreat of Arctic Sea Ice, NCAR Study Finds
The rate of climate warming over northern Alaska, Canada, and Russia could more than triple during periods of rapid sea ice loss, according to a new study led by the National Center for Atmospheric Research (NCAR).
Greenhouse gas from English streams
English chalk streams are less healthy than we thought and are potentially even contributing to global warming, said Dr Mark Trimmer at a Science Media Centre press briefing today.
Methane from microbes: a fuel for the future
Microbes could provide a clean, renewable energy source and use up carbon dioxide in the process, suggested Dr James Chong at a Science Media Centre press briefing today.
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