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Constraining recent lead pollution sources in the North Pacific using ice core stable lead isotopes Public Deposited

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https://ir.library.oregonstate.edu/concern/articles/vd66w1608

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  • Trends and sources of lead (Pb) aerosol pollution in the North Pacific rim of North America from 1850 to 2001 are investigated using a high-resolution (subannual to annual) ice core record recovered from Eclipse Icefield (3017 masl; St. Elias Mountains, Canada). Beginning in the early 1940s, increasing Pb concentration at Eclipse Icefield occurs coevally with anthropogenic Pb deposition in central Greenland, suggesting that North American Pb pollution may have been in part or wholly responsible in both regions. Isotopic ratios (²⁰⁸Pb/²⁰⁷Pb and ²⁰⁶Pb/²⁰⁷Pb) from 1970 to 2001 confirm that a portion of the Pb deposited at Eclipse Icefield is anthropogenic, and that it represents a variable mixture of East Asian (Chinese and Japanese) emissions transported eastward across the Pacific Ocean and a North American component resulting from transient meridional atmospheric flow. Based on comparison with source material Pb isotope ratios, Chinese and North American coal combustion have likely been the primary sources of Eclipse Icefield Pb over the 1970–2001 time period. The Eclipse Icefield Pb isotope composition also implies that the North Pacific mid-troposphere is not directly impacted by transpolar atmospheric flow from Europe. Annually averaged Pb concentrations in the Eclipse Icefield ice core record show no long-term trend during 1970–2001; however, increasing ²⁰⁸Pb/²⁰⁷Pb and decreasing ²⁰⁶Pb/²⁰⁷Pb ratios reflect the progressive East Asian industrialization and increase in Asian pollutant outflow. The post-1970 decrease in North American Pb emissions is likely necessary to explain the Eclipse Icefield Pb concentration time series. When compared with low (lichen) and high (Mt. Logan ice core) elevation Pb data, the Eclipse ice core record suggests a gradual increase in pollutant deposition and stronger trans-Pacific Asian contribution with rising elevation in the mountains of the North Pacific rim.
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  • Gross, B. H., K. J. Kreutz, E. C. Osterberg, J. R. McConnell, M. Handley, C. P. Wake, and K. Yalcin (2012), Constraining recent lead pollution sources in the North Pacific using ice core stable lead isotopes, J. Geophys. Res., 117, D16307, doi:10.1029/2011JD017270.
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  • 117
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  • D16307,
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  • This work was financially supported by NSF awards OPP-0136005 to KJK and OPP-0136146 to CPW, a Climate Change Institute research assistantship and Dan and Betty Churchill Exploration Fund award to B.H.G., and NSF award OPP-0909541, NASA award NAG04GI66G, and support from the Maki Chair of Hydrological Sciences to J.R.M.
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