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Contact: David Hosansky
hosansky@ucar.edu
303-497-8611
Zhenya Gallon
zhenya@ucar.edu
303-497-8607
National Center for Atmospheric Research/University Corporation for Atmospheric Research
BOULDERChina's Olympian attempt to improve air quality during the 2008 summer games did more than provide a healthier atmosphere for the athletes. It also demonstrated that widespread changes in transportation patterns could greatly reduce the threat of climate change.
New research by an international team of scientists led by the National Center for Atmospheric Research (NCAR) indicates that China's restrictions on motor vehicles had the side benefit of dramatically cutting emissions of carbon dioxide by 24,000 to 96,000 metric tons (about 26,500 to 106,000 U.S. tons) during the event.
To put this in perspective, the authors note that this reduction by a single city represents more than one-quarter of 1 percent of the emissions cut that would be necessary worldwide, on a sustained basis, to prevent the planet from heating up by more than about 2 degrees Celsius (3.6 degrees Fahrenheit) by the end of this century. That is the amount of heating generally considered to lead to major societal impacts.
While scientists have long known that reduced traffic would lead to lower carbon dioxide emissions, precise estimates for an actual urban area are difficult to calculate.
"The Beijing Olympics allowed us to actually measure what happens when people drive much less, and it turns out that it makes quite a substantial difference to our climate," says NCAR scientist Helen Worden, the lead author. "People may think their choice of how to commute to work doesn't make a difference, whether driving their cars or riding their bikes. But on a large scale, it really does."
Funded primarily by NASA, the study was published in Geophysical Research Letters, a publication of the American Geophysical Union. It was co-authored by researchers at the University of Iowa, the University of Tsinghua in Beijing, Argonne National Laboratory, and the Jet Propulsion Laboratory. NCAR is sponsored by the National Science Foundation.
-----Clearing the air for Olympians-----
As China has industrialized in recent decades, residents of Beijing and other major cities have been subjected frequently to unhealthy levels of air pollutants. To provide better air quality during the 2008 Olympics, Chinese officials imposed stringent limits on motor vehicle use, including banning 50 percent of privately owned vehicles on any single day because of alternate-day driving requirements. They also imposed limits on industry and temporarily suspended construction activity.
Recent research has confirmed that the restrictions successfully reduced levels of air pollutants such as carbon monoxide and ozone. Worden and her colleagues, using new methods in satellite observations and computer simulations, were also able to estimate the impact on carbon dioxide, a powerful greenhouse gas.
"This implies that sustained controls on urban transportation emissions, on the scale implemented in Beijing, could potentially provide a significant part of [emissions reduction]," the study concludes. "However, in this study, we do not address the sustainability of these controls or the feasibility of applying traffic restrictions in other cities."
The study measured the effect of driving reductions and did not focus on China's policy during the Olympics.
-----From monoxide to dioxide-----
The research required several steps. Worden and her colleagues first turned to an instrument developed by NCAR and the University of Toronto called MOPITT (Measurements of Pollution in the Troposphere), which flies aboard NASA's EOS-Terra Satellite. The instrument's measurements, analyzed with a new multispectral data product, enabled the researchers to estimate the amount of carbon monoxide in the Beijing atmosphere in August 2007, without traffic restrictions, and in August 2008, during the Olympics.
The researchers then inferred the amount of carbon dioxide emissions by drawing on other studies in Beijing that have measured the ratio of emissions of the two gases at 0.03 grams of carbon monoxide to 1.0 grams of carbon dioxide. They used simulations by the NCAR-based Weather Research and Forecasting model (WRF) to fill in gaps in the observations because MOPITT could not obtain measurements during overcast days. The computer model also enabled the researchers to focus on carbon dioxide emissions from motor vehicles as opposed to other sources, such as factories.
"We knew there had to be some reduction in carbon dioxide from the Beijing traffic restrictions, and this experiment enabled us to find out how much," Worden says.
She adds that the same study could not be done for this summer's London Olympics, partly because the surface and cloud conditions in London aren't as favorable for the measurements of carbon monoxide near the surface from MOPITT. In addition, London is very different from Beijing in terms of pollution controls and it has already restricted traffic in the central city for several years.
###
The University Corporation for Atmospheric Research manages the National Center for Atmospheric Research under sponsorship by the National Science Foundation. Any opinions, findings and conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
About the article
Title: Satellite-based estimates of reduced CO and CO2 emissions due to traffic restrictions during the 2008 Beijing Olympics
Authors: Helen Worden, Yafang Cheng, Gabriele Pfister, Gregory R. Carmichael, Qiang Zhang, David G. Streets, Merritt Deeter, David P. Edwards, John C. Gille, and John R. Worden.
Journal: Geophysical Research Letters
On the Web:
Additional news releases, images, and more: www.ucar.edu/atmosnews
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: David Hosansky
hosansky@ucar.edu
303-497-8611
Zhenya Gallon
zhenya@ucar.edu
303-497-8607
National Center for Atmospheric Research/University Corporation for Atmospheric Research
BOULDERChina's Olympian attempt to improve air quality during the 2008 summer games did more than provide a healthier atmosphere for the athletes. It also demonstrated that widespread changes in transportation patterns could greatly reduce the threat of climate change.
New research by an international team of scientists led by the National Center for Atmospheric Research (NCAR) indicates that China's restrictions on motor vehicles had the side benefit of dramatically cutting emissions of carbon dioxide by 24,000 to 96,000 metric tons (about 26,500 to 106,000 U.S. tons) during the event.
To put this in perspective, the authors note that this reduction by a single city represents more than one-quarter of 1 percent of the emissions cut that would be necessary worldwide, on a sustained basis, to prevent the planet from heating up by more than about 2 degrees Celsius (3.6 degrees Fahrenheit) by the end of this century. That is the amount of heating generally considered to lead to major societal impacts.
While scientists have long known that reduced traffic would lead to lower carbon dioxide emissions, precise estimates for an actual urban area are difficult to calculate.
"The Beijing Olympics allowed us to actually measure what happens when people drive much less, and it turns out that it makes quite a substantial difference to our climate," says NCAR scientist Helen Worden, the lead author. "People may think their choice of how to commute to work doesn't make a difference, whether driving their cars or riding their bikes. But on a large scale, it really does."
Funded primarily by NASA, the study was published in Geophysical Research Letters, a publication of the American Geophysical Union. It was co-authored by researchers at the University of Iowa, the University of Tsinghua in Beijing, Argonne National Laboratory, and the Jet Propulsion Laboratory. NCAR is sponsored by the National Science Foundation.
-----Clearing the air for Olympians-----
As China has industrialized in recent decades, residents of Beijing and other major cities have been subjected frequently to unhealthy levels of air pollutants. To provide better air quality during the 2008 Olympics, Chinese officials imposed stringent limits on motor vehicle use, including banning 50 percent of privately owned vehicles on any single day because of alternate-day driving requirements. They also imposed limits on industry and temporarily suspended construction activity.
Recent research has confirmed that the restrictions successfully reduced levels of air pollutants such as carbon monoxide and ozone. Worden and her colleagues, using new methods in satellite observations and computer simulations, were also able to estimate the impact on carbon dioxide, a powerful greenhouse gas.
"This implies that sustained controls on urban transportation emissions, on the scale implemented in Beijing, could potentially provide a significant part of [emissions reduction]," the study concludes. "However, in this study, we do not address the sustainability of these controls or the feasibility of applying traffic restrictions in other cities."
The study measured the effect of driving reductions and did not focus on China's policy during the Olympics.
-----From monoxide to dioxide-----
The research required several steps. Worden and her colleagues first turned to an instrument developed by NCAR and the University of Toronto called MOPITT (Measurements of Pollution in the Troposphere), which flies aboard NASA's EOS-Terra Satellite. The instrument's measurements, analyzed with a new multispectral data product, enabled the researchers to estimate the amount of carbon monoxide in the Beijing atmosphere in August 2007, without traffic restrictions, and in August 2008, during the Olympics.
The researchers then inferred the amount of carbon dioxide emissions by drawing on other studies in Beijing that have measured the ratio of emissions of the two gases at 0.03 grams of carbon monoxide to 1.0 grams of carbon dioxide. They used simulations by the NCAR-based Weather Research and Forecasting model (WRF) to fill in gaps in the observations because MOPITT could not obtain measurements during overcast days. The computer model also enabled the researchers to focus on carbon dioxide emissions from motor vehicles as opposed to other sources, such as factories.
"We knew there had to be some reduction in carbon dioxide from the Beijing traffic restrictions, and this experiment enabled us to find out how much," Worden says.
She adds that the same study could not be done for this summer's London Olympics, partly because the surface and cloud conditions in London aren't as favorable for the measurements of carbon monoxide near the surface from MOPITT. In addition, London is very different from Beijing in terms of pollution controls and it has already restricted traffic in the central city for several years.
###
The University Corporation for Atmospheric Research manages the National Center for Atmospheric Research under sponsorship by the National Science Foundation. Any opinions, findings and conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
About the article
Title: Satellite-based estimates of reduced CO and CO2 emissions due to traffic restrictions during the 2008 Beijing Olympics
Authors: Helen Worden, Yafang Cheng, Gabriele Pfister, Gregory R. Carmichael, Qiang Zhang, David G. Streets, Merritt Deeter, David P. Edwards, John C. Gille, and John R. Worden.
Journal: Geophysical Research Letters
On the Web:
Additional news releases, images, and more: www.ucar.edu/atmosnews
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2012-07/ncfa-rta072412.php
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