http://www.noaanews.noaa.gov/stories2005/s2412.htm AFTER TWO LARGE ANNUAL GAINS, RATE OF ATMOSPHERIC CO2 INCREASE RETURNS TO AVERAGE, NOAA REPORTS March 31,Mar 31, 2005 1 of 2View Sourcehttp://www.noaanews.noaa.gov/stories2005/s2412.htm
AFTER TWO LARGE ANNUAL GAINS, RATE OF ATMOSPHERIC CO2 INCREASE
RETURNS TO AVERAGE, NOAA REPORTS
March 31, 2005 � A spike in the amount of carbon dioxide released into the atmosphere between 2001 and 2003 appears to be a temporary phenomenon and apparently does not indicate a quickening build-up of the gas in the atmosphere, according to an analysis by NOAA climate experts. Carbon dioxide (CO2) is released into the atmosphere by the burning of wood, coal, oil and gas. Increases in the amount of CO2 in the atmosphere are of special interest to scientists because carbon dioxide is a significant heat-trapping greenhouse gas. (Click NOAA image for larger view of carbon cycle greenhouse gases monitoring programs around the world. Click here for high resolution version, which is a large file. Please credit �NOAA.�)
As measured in air samples collected from more than 60 sites in the NOAA Global Cooperative Observing Network, the amount of CO2 in the atmosphere increased by nearly 5 parts per million (ppm) between 2001 and 2003. The increase in 2002 was 2.43 ppm; the increase in 2003 was 2.30 ppm. In other words, more than two additional carbon-dioxide molecules were added to each million molecules of air each year during that period. The annual increase was higher than the long-term average annual CO2 increase of approximately 1.5 ppm.
Included in the global average carbon dioxide measurements are those from the NOAA Mauna Loa Observatory in Hawaii where the CO2 record is the world's longest continuous observations of atmospheric carbon-dioxide levels, having begun in 1958.
The increased CO2 levels interested scientists who questioned whether some unknown mechanism might be causing the atmosphere to retain higher levels of CO2.
However, according to David Hofmann, director of the NOAA Climate Monitoring and Diagnostics Laboratory in Boulder, Colo., the rate of carbon-dioxide increase returned to the long-term average level of about 1.5 ppm per year in 2004, indicating that the temporary fluctuation was probably due to changes in the natural processes that remove CO2 from the atmosphere.
Global combustion of fossil fuels and other materials places almost 7 billion tons of carbon, in the form of CO2, into the atmosphere each year. On average, Earth's oceans, trees, plants and soils absorb about one-half of this carbon. The balance remains in the air and is responsible for the annual increase.
Most of the variability in the year-to-year CO2 uptake is related to natural processes, including droughts and fires as well as such factors as global temperatures, rainfall amounts and volcanic eruptions.
Understanding these processes is key to forecasting annual CO2 increases, thus providing important information for future CO2 management. NOAA's Carbon Cycle Research Program, which includes surface-, ocean- and space-based measurements of CO2 and other important atmospheric gases, is aimed at developing a comprehensive picture of how CO2 is stored and released. The carbon-cycle studies are a part of NOAA's Climate Program, an integral part of the U.S. Climate Change Science Program.
"Reducing scientific uncertainties of carbon sources and sinks is a priority for the Climate Change Science Program, as carbon dioxide is the single largest forcing agent of climate change," said James R. Mahoney, NOAA deputy administrator and CCSP director.
NOAA scientists have been tracking CO2 levels around the world for more than 25 years. The oldest record comes from the Mauna Loa Observatory, which is located atop a Hawaiian volcano. There, Charles Keeling began CO2 measurements in 1958. Following NOAA's formation in 1970, measurements continued at Mauna Loa and began at other places around the world. There are now more than 60 monitoring sites worldwide.
Mahoney adds, "The measurement capabilities established at NOAA's Mauna Loa and other sites around the world demonstrates the importance of observational networks as a contribution to understanding the complexities of the carbon cycle."
Each year since global measurements of CO2 began, the amount of carbon dioxide in the atmosphere has increased.
Scientific measurements of levels of CO2 contained in cylinders of ice, called ice cores, indicate that the pre-industrial carbon dioxide level was 278 ppm. That level did not vary more than 7 ppm during the 800 years between 1000 and 1800 A.D.
Atmospheric CO2 levels have increased from about 315 ppm in 1958 to 378 ppm at the end of 2004, which means human activities have increased the concentration of atmospheric CO2 by 100 ppm or 36 percent.
NOAA is dedicated to enhancing economic security and national safety through the prediction and research of weather and climate-related events and providing environmental stewardship of the nation�s coastal and marine resources. NOAA is part of the U.S. Department of Commerce.
Relevant Web Sites
NOAA Climate Monitoring and Diagnostics Laboratory
NOAA Climate Page
Peter West, NOAA Research, (301) 713-2483 ext. 181
... fyi... This is what I think is going on here... Our loading of the atmosphere with accumulating and long lasting CO2 is causing out_of_control rapid globalApr 1, 2005 1 of 2View Source
> What is really going on here?
This is what I think is going on here...
Our loading of the atmosphere with accumulating and long lasting CO2
is causing out_of_control rapid global warming.
The rate of change in climate is likely to be catastophic for many
species of plants and animals which evolved during 50 million years of
global cooling from the Eocene to Pleistocene.
The Apr 1, 2005 article by James Reynolds titled "Greenhouse gases
reach a new high," ... (below) ... helps explain what is really going
Greenhouse gases reach a new high, say researchers
LEVELS of carbon dioxide, the greenhouse gas chiefly responsible for
global warming, have risen to a new high, according to measurements
taken at the world's leading climate science laboratory.
Concentrations of CO2 in the atmosphere have increased to 378 parts
per million (ppm), according to results gathered at Hawaii's Mauna Loa
Although the rise from an average of 375.64 ppm in 2003 is smaller
than in the previous two years, experts say it again fits the pattern
of increases in emissions driving the warming of the Earth's
atmosphere and oceans.
The research was carried out by the US government's climate monitoring
diagnostics laboratory, part of the National Oceanic and Atmospheric
The new figures are likely to be a powerful tool in the battle to
convince the United States, the world's biggest polluter, that it
urgently needs to join efforts to slow down emissions of carbon
dioxide, which are created through the burning of fossil fuels such as
Dr Pieter Tans, the laboratory's director, said: "The most striking
thing about the data is that we've seen an increase in carbon dioxide
levels every single year since 1958."
Greenhouse gases that cause climate change have a delayed effect, like
a "disease" with a long incubation period.
This inertia means that the consequences of the emissions that have
already been released into the environment will not be felt for some
years. Even if emissions of CO2 were stopped immediately tomorrow,
certain changes to the global climate over the next 50 years would
still take place.
According to Dr Tans, one significant finding is that the annual rate
at which CO2 is rising is increasing, and the growth rate over the
past decade has been about twice as fast as that found in the 1960s.
He believes that variations in this growth rate year by year can be
explained by natural factors, such as changes in the rate at which
plants and the oceans absorb CO2. However, Dr Tans and fellow
researchers have concluded that the steady rise overall can be
attributed to manmade, or anthropogenic, emissions of carbon.
Measurements began in 1957, at the observatory on top of the Mauna Loa
volcano, which at an altitude of 11,500ft ranks amongst the most
remote scientific outposts in the world.
Since then the station has grown to become the premier long-term
atmospheric monitoring facility on Earth, largely because its altitude
means the air it samples is stable, and free from the traffic
pollution present round the Hawaiian coast.
Pacific air is also well-mixed, meaning there is no immediate source
of pollution such as heavy industry, and there is no natural "carbon
sink" nearby, such as a forest which would absorb CO2.
Tony Blair, the Prime Minister, has already revealed that he intends
to use his presidency of the G8 group meeting at Gleneagles to bring
Mr Bush back into negotiations on ways of preventing global warming.