Study of lead isotopes provides insight into aerosols transport from Asia to US
02 December 2010
In a first-of-its-kind study, scientists from the US Department of Energy’s Lawrence Berkeley National Laboratory and the California Air Resources Board tracked variations in the amount of lead transported across the Pacific over time. About a third of the airborne lead particles collected at two sites in the San Francisco Bay Area came from Asia, a finding that underscores the far-flung impacts of air pollution and heralds a new way to learn more about its journey across vast distances.
The team used the lead particles’ isotopic signature to trace some of the lead’s origins to coal and metal ore found only in Asia.
“The overall concentration of lead in our samples was small, but a significant portion of it is from Asia,” says John Christensen, a staff scientists in Berkeley Lab’s Earth Sciences Division. He co-authored a study describing this research that was recently published in the ACS journal Environmental Science & Technology.
It’s well known that particles and other aerosols cover long distances through the Earth’s atmosphere. But the details of this transport, such as that of the lead particles’ 7,000-mile journey from the smokestacks of China to the west coast of North America, are largely unknown.
This work shows that we can use lead as a tracer for airborne particles within the growing Asian industrial plume. We can use lead to more thoroughly understand the conditions over the Pacific Ocean that promote the transport of aerosols from Asia to the US.
—John Christensen
The team’s research could help scientists improve computer models that describe how dust-sized aerosols such as air pollution ride the winds across continents and oceans. It could also help air pollution regulators in the US account for pollution that wafts in from thousands of miles away, possibly making it more difficult for some regions to comply with air quality standards.
“Transport models are uncertain,” says Stephanie Ewing, lead author of the paper and an assistant professor of pedology and soil biogeochemistry at Montana State University. She conducted the research while a postdoctoral researcher in Berkeley Lab’s Earth Sciences Division.
When we can distinguish between sources with an isotopic tool, we have tremendous quantitative power because the measurements are precise and we don’t have to rely on a transport model. In fact, we can use the measurements to test and improve the models.
—Stephanie Ewing
The isotopic composition of lead varies over large regions of the Earth’s crust. In some cases, a lead isotopic signature can be almost unique to a region. In Asia, for example, mineral dust and other sources of lead such as coal and metal ore have particularly high proportions of 208Pb, the isotope that forms from radioactive decay of thorium.
Lead’s geographical diversity was elucidated in a study conducted a decade ago by Australian scientists. They catalogued the lead isotopic concentrations at various places around the world, and among many findings, found a distinction between aerosols collected in China versus North America.
Scientists from Berkeley Lab and the California Air Resources Board collected samples of fine airborne particles at two sites in the San Francisco Bay Area once a week from December 2007 to May 2008. One site was on Mt. Tamalpais, in Marin County. Another site was further inland at the Chabot Observatory in the East Bay.
Samples were taken to beamline 10.3.1 of Berkeley Lab’s Advanced Light Source, a national user facility that generates intense x-rays to probe the fundamental properties of substances. The facility enabled the scientists to identify the chemical composition of the samples and measure the concentrations of elements such as silicon, aluminum, iron, potassium, and lead.
They then chemically separated the lead from the other elements and used mass spectrometry to determine its isotopic composition. They found that a median value of 29% of the lead particles were of Asian origin.
The scientists also applied this analysis to archived air samples taken from urban sites in central California between 2003 and 2005. Although the prevalence of Asian lead varied from site to site and season to season, it was found throughout central California.
We can use this information to guide the development of particulate transport models. Analysis of lead isotopes provides a powerful indicator for improved understanding of global-scale transport of dust, black carbon, anthropogenic lead and pollutants that drive climate feedback processes.
—John Christensen
The research was supported in large part by the California Air Resources Board.
Resources
Stephanie A. Ewing, John N. Christensen, Shaun T. Brown, Richard A. Vancuren, Steven S. Cliff, and Donald J. Depaolo (2010) Pb Isotopes as an Indicator of the Asian Contribution to Particulate Air Pollution in Urban California. Environ. Sci. Technol., 44 (23), pp 8911–8916 doi: 10.1021/es101450t
I suppose we should slap a pollution tariff on Chinese goods.
Posted by: Engineer-Poet | 02 December 2010 at 08:48 AM
And coal fired power plants located in USA created acid rains in Eastern Canada for decades. Don't think that the lead content was ever measured.
Reality is that pollutants travel long distances and often pollute neighbors. Some of the heavy complex pollution from Alberta tar sands operations will find its way to USAs neighboring states, in addition to all the pollution created by burning this product at the rate 2.5+ million barrels a day in USA.
Posted by: HarveyD | 02 December 2010 at 09:20 AM
This is nothing really compared with pollution caused by the use of DEPLETED URANIUM ammunition.
It pollutes environment and lasts forever.
http://en.wikipedia.org/wiki/Depleted_uranium
Among other it says:
"In a three week period of conflict in Iraq during 2003 it was estimated over 1000 tons of depleted uranium munitions were used.[9]"
Or Google "depleted uranium gatling gun".
Those who use and approve it commit (war) crimes against humanity.
It's literally a weapon of genocide, it destroys genetic material, causes high rates of birth defects, cancer and leukemia.
First it was used in Iraq 1991, then 1999 in Serbia, later in Iraq from 2003 onwards, and is going to be used in future US wars.
How much did CNN and Fox news report on this, probably the most devastating (and long lasting) effect of the war?
It's even worse than those terrorists killing civilians, it kills current and future generations.
Posted by: MG | 02 December 2010 at 07:44 PM
DU ammunition is a waste of good FBR fuel anyway. Use tungsten instead, it's plenty heavy though not pyrophoric.
Posted by: Engineer-Poet | 02 December 2010 at 09:28 PM
China exports polluting lead in painted children`s toys and as aerosol pollutants. Clearly the healthcare cost has to be considered and a method of curtailing these emissions is needed. One could argue the tariff but that would likely set off a larger trade-tariff competition.
Seems better to address the source of pollution (industry) and create a labeling system that quantifies toxic emissions as a cost factor. A product would then be labeled with a factor reflecting the level of toxic pollution that created it. This would pressure larger polluters to clean up - in order to win higher ratings. Green organizations interested in public health and welfare can begin this rating process immediately.
Essentially this is the scheme used to quantify CO2 - except of course CO2 is not a pollutant. AEROSOL LEAD IS.
Posted by: Reel$$ | 03 December 2010 at 10:16 AM
To willfully and knowingly spread deadly pollutants on friends, neighbors and/or enemies should be punished.
Wikileaks may have an on-going mission because governments ++++ are involed.
Posted by: HarveyD | 04 December 2010 at 09:36 AM