Geochemistry of soils along a transect from Central Mexico to the Pacific Coast: A pilot study for continental-scale geochemical mapping
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The Mexican Geological Survey (SGM), the National Institute of Statistics, Geography and Informatics (INEGI) and the Autonomous University of San Luis Potosi (UASLP) have established a multidisciplinary team with the objective of creating a national program of geochemical mapping of soils in Mexico. This is being done as part of the North American Soil Geochemical Landscapes Project in partnership with the US Geological Survey and the Geological Survey of Canada. As the first step, a pilot study was conducted over a transect that extends from the Mexico-US border near Ciudad Juarez in the north to the Pacific Ocean in the south. This pilot transect was conducted in two phases, and this paper presents results from the first phase, which sampled soils at about a 40-km spacing along a 730-km transect beginning in Central Mexico and ending at the Pacific Coast. Samples were collected from the A and C horizons at each site and 60 elements were analyzed. This pilot study demonstrates that geochemical mapping based on a 40-km spacing is adequate to identify broad-scale geochemical patterns. Geologic influence (i.e., soil parent material) was the most important factor influencing the distribution of elements along the transect, followed by the influence of regional mineralization. The study also showed that influence by human activities over the transect is minimal except possibly in large mining districts. A comparison of element abundance in the A horizon with the environmental soil guidelines in Mexico showed that the natural concentrations of the studied soils were lower than the established threshold for soil restoration with the exception of V and As. The former had a median value (75 mg/kg) approximately equal to the value established in Mexico for soil restoration in agricultural and residential lands (78 mg/kg), and the latter had three values higher than the 22 mg/kg threshold for soil restoration in agricultural and residential lands. These cases demonstrate the importance of knowing the national- and regional-scale geochemistry of Mexican soils as a support for the decision-making process, particularly for the proper formulation and application of soil guidelines designed to protect human and ecosystem health. © 2009 Elsevier Ltd. All rights reserved.
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Decision making process; Distribution of element; Ecosystem health; Element abundances; Geochemical mapping; Geochemical patterns; Geological Survey of Canada; Human activities; Informatics; Me-xico; Median value; Mining district; Multi-disciplinary teams; National program; North American; Pacific ocean; Parent materials; Pilot studies; Soil restoration; Two phasis; US Geological Survey; Ecosystems; Exploratory geochemistry; Geological surveys; Landforms; Mapping; Markup languages; Mining; Oceanography; Restoration; Soils; ecosystem health; geochemical method; geochemistry; geological survey; human activity; informatics; mapping method; mineralization; residential location; soil chemistry; Chihuahua; Juarez; Mexico [North America]; North America; Pacific Coast [Mexico]; Pacific Coast [North America]; Pacific Coast [United States]; United States
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