B21A-0018:
Geospatial Distribution of Heavy Metals in an Urban Soil, El Paso, Texas, USA

Tuesday, 16 December 2014
Maria A Amaya, Ali R Elkekli, Juan W Clague, Samia E Grimida and Nicholas E Pingitore Jr, University of Texas at El Paso, El Paso, TX, United States
Abstract:
Some 500 city blocks were selected randomly via population-based stratification. Equal volumes of soil collected from the public space (where present) in front of each house on a block yielded a composite sample. Composites provide neighborhood level “smoothing” relative to sampling many individual houses, and greatly decrease laboratory effort/cost.

In the laboratory 10 g of soil were comminuted in a ceramic ball mill, mixed with cellulose/ paraffin binder, and pressed (20 tons) into a pellet. A Panalytical Epsilon5 EDS-XRF, using 8 sequential secondary target conditions and 12 NIST and USGS multi-element rock standards provided analyses.

The concentration of Pb ranged from 11 to 420 ppm; Cr, 4.3 - 52 ppm; Cu, 6.5 - 390 ppm; Zn, 17 - 480 ppm; Cd, 0.4 - 12 ppm; and Sb, 2.9 - 20 ppm. High levels of all metals characterize the urban core area of El Paso, which dates to the late 19th Century. This area hosts both commercial and old residential structures, as well as major highways and a large railroad yard. There currently is, and was in the past, considerable light industry in the area. Two highly traveled highway and one railroad border crossing over the Rio Grande into contiguous Cd. Juarez (population close to 2 million) add to current and past contamination. A century-old Pb-Cu-Zn smelter, recently demolished, forms the western boundary of the urban core. Heavy metal pollution from the smelter is recognized near the former site. Its effect on the rest of the urban core is uncertain due to the current and former presence of other heavy metal sources.

 Aggressive post-World War II growth and expansion of El Paso into the surrounding desert, as is common in the US Southwest, placed newer housing onto more pristine land surfaces. This is reflected in generally low-to-background levels of heavy metals in these newer areas of the city. Thus there is a strong contamination and heavy metals exposure risk gradient between older and newer neighborhoods within a single city, El Paso. In contrast, in older cities (e.g., US Northeast) where metropolitan boundaries are long-established, the equivalent risk gradient would be between the city and surrounding suburbs, each subject to separate government (political) controls and different funding and resources for cleanup and prevention measures.

Research supported by NIEHS Grant 1RO1-ES11367.