PUBLIC RELEASE DATE: 6-Nov-2013
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Contact: Sarah Reed
s.j.reed@leeds.ac.uk
44-113-343-4196
University of Leeds
Natural aerosols, such as emissions from volcanoes or plants, may contribute more uncertainty than previously thought to estimates of how the climate might respond to greenhouse gas emissions.
An international team of researchers, led by the University of Leeds, has shown that the effect of aerosols on the climate since industrialisation depends strongly on what the atmosphere was like before pollution when aerosols were produced only from natural emissions. The research will be published in the journal Nature on 7 November.
Professor Ken Carslaw, from the School of Earth and Environment at the University of Leeds and lead author of the study, said: "We have shown that our poor knowledge of aerosols prior to the industrial revolution dominates the uncertainty in how aerosols have affected clouds and climate.
"In order to better understand climate change, we need to turn our attention towards understanding very clean regions of the atmosphere as might have existed in the mid-1700s. Such regions are incredibly rare now, but we are looking for them."
Aerosols tend to increase the brightness of clouds, which would increase the reflection of solar radiation to space, thereby partially masking the climate-warming effects of greenhouse gas emissions. Firmly establishing the effect of aerosol-induced changes on cloud brightness is an important challenge for climate scientists.
In an assessment of 28 factors that could affect the uncertainties in cloud brightness, the researchers found that 45% of the variance comes from natural aerosols, compared with 34% for human-generated aerosols. (Aerosol processes, such as how quickly they are removed from the atmosphere, account for the remaining uncertainty.)
"Our results provide a clear path for scientists to reduce the uncertainty in aerosol effects on climate because we have been able to rank the causes for the uncertainty," concludes Professor Carslaw.
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The research was funded by the Natural Environment Research Council, the EC Seventh Framework Programme and the National Centre for Atmospheric Science.
Further information
The study, 'Large contribution of natural aerosols to uncertainty in indirect forcing', will be published in the journal Nature on 7 November 2013.
Professor Ken Carslaw is available for interview. Please contact Sarah Reed, Press Officer, University of Leeds on 0113 34 34196 or email s.j.reed@leeds.ac.uk
University of Leeds
The University of Leeds is one of the largest higher education institutions in the UK and a member of the Russell Group of research-intensive universities.
The 2008 Research Assessment Exercise showed the University of Leeds to be the UK's eighth biggest research powerhouse and the University's vision is to secure a place among the world's leading universities by 2015. http://www.leeds.ac.uk
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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.
PUBLIC RELEASE DATE: 6-Nov-2013
[
]
Share
Contact: Sarah Reed
s.j.reed@leeds.ac.uk
44-113-343-4196
University of Leeds
Natural aerosols, such as emissions from volcanoes or plants, may contribute more uncertainty than previously thought to estimates of how the climate might respond to greenhouse gas emissions.
An international team of researchers, led by the University of Leeds, has shown that the effect of aerosols on the climate since industrialisation depends strongly on what the atmosphere was like before pollution when aerosols were produced only from natural emissions. The research will be published in the journal Nature on 7 November.
Professor Ken Carslaw, from the School of Earth and Environment at the University of Leeds and lead author of the study, said: "We have shown that our poor knowledge of aerosols prior to the industrial revolution dominates the uncertainty in how aerosols have affected clouds and climate.
"In order to better understand climate change, we need to turn our attention towards understanding very clean regions of the atmosphere as might have existed in the mid-1700s. Such regions are incredibly rare now, but we are looking for them."
Aerosols tend to increase the brightness of clouds, which would increase the reflection of solar radiation to space, thereby partially masking the climate-warming effects of greenhouse gas emissions. Firmly establishing the effect of aerosol-induced changes on cloud brightness is an important challenge for climate scientists.
In an assessment of 28 factors that could affect the uncertainties in cloud brightness, the researchers found that 45% of the variance comes from natural aerosols, compared with 34% for human-generated aerosols. (Aerosol processes, such as how quickly they are removed from the atmosphere, account for the remaining uncertainty.)
"Our results provide a clear path for scientists to reduce the uncertainty in aerosol effects on climate because we have been able to rank the causes for the uncertainty," concludes Professor Carslaw.
###
The research was funded by the Natural Environment Research Council, the EC Seventh Framework Programme and the National Centre for Atmospheric Science.
Further information
The study, 'Large contribution of natural aerosols to uncertainty in indirect forcing', will be published in the journal Nature on 7 November 2013.
Professor Ken Carslaw is available for interview. Please contact Sarah Reed, Press Officer, University of Leeds on 0113 34 34196 or email s.j.reed@leeds.ac.uk
University of Leeds
The University of Leeds is one of the largest higher education institutions in the UK and a member of the Russell Group of research-intensive universities.
The 2008 Research Assessment Exercise showed the University of Leeds to be the UK's eighth biggest research powerhouse and the University's vision is to secure a place among the world's leading universities by 2015. http://www.leeds.ac.uk
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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/2013-11/uol-ccs110513.php
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