abstract

• In San Luis Potosí, Mexico, the exploitation of minerals has historically been carried out as an activity that has left in its path environmental liabilities, with high concentrations of heavy metals. These metals have undergone weathering by rain and wind and have moved closer to inhabited locations as is the case of Cerro de San Pedro (CSP) and Villa de la Paz (VDP). The objective of this study is to show the biological alteration of soils due to the presence of heavy metals and metalloids like Cadmium (Cd), Copper (Cu), Lead (Pb) and Arsenic (As) and to find the relationship between contamination and risk indexes. Soil samples were obtained from sites with historical records of mining activity and their surroundings. Several analyses were performed, such as pH levels, organic matter, electrical conductivity, clays, heavy metals and As. Moreover, Community Level Physiological profiling (CLPP) were conducted. The obtained evidence showed high levels of contamination by As and heavy metals in both sites (CSP: 6485.1 mg/Kg of Pb and pH of 4.4; VDP: 7188.2 mg/Kg of As and pH of 7.8). According to the Metal Pollution Index (MPI), 607.0 in CSP and 1050.5 in VDP, presented a high environmental risk, apart from, risk to human health (SQGQI) 35.8 in CSP and 131.5 in VDP. At the same time, CLPPs showed that microbiological communities were selective in taking up substrate groups, in the following order: Carbohydrates > Polymers > Carboxylic acids > Amino acids > Amines/Amides. However, a positive correlation in CSP was only found between both indexes and Amines/Amides (r = 0.46, p < 0.05), and in VDP the D-Galactonic acid-γ-Lactone with the MPI (r = 0.49, p < 0.05), and with the SQGQI (r = 0.45, p < 0.05). Although this behavior was not homogeneous, it was possible to find negative correlations between both indexes and the AWCD with other substrates, influenced by the physicochemical characteristics presented in each studied site. Consequently, according to our findings, a combined effect between the physicochemical characteristics, As, and heavy metals took place, on the metabolic activity, causing alterations to soil functions. © 2020 The Authors

authors

• Cruz-Santiago O.
• García Arreola María Elena
• González Mille Donají Josefina
• Ilizaliturri Hernández César Arturo
• Martínez-Toledo A.
• Trejo-Acevedo A.

publication date

• 2021-01-01

funding provided via

• C19-FAI-05-36.36  Grant
• Consejo Nacional de Ciencia y Tecnología, CONACYT  Grant
• Universidad Nacional de San Luis, UNSL: 553  Grant

published in

• Ecotoxicology and Environmental Safety  Journal

keywords

• Community level physiological profiles; Heavy metals; Historical mining activity; Pollution indexes amide; amine; amino acid; arsenic; cadmium; carbohydrate; carboxylic acid; copper; dextro galactonic acid gamma lactone; gamma lactone derivative; lead; organic matter; polymer; unclassified drug; carbon; heavy metal; metalloid; carbon cycle; heavy metal; microbial community; mine waste; mining; physiological response; risk assessment; soil microorganism; soil pollution; Article; average well color development; carbon source; carbon utilization; Community Level Physiological profiling; concentration (parameter); controlled study; dry weight; electric conductivity; environmental parameters; limit of quantitation; Metal Pollution Index; Mexico; mining; pH; physical chemistry; precipitation; risk factor; soil analysis; soil microflora; soil pollution; solid waste; X ray fluorescence; bacterium; metabolism; microbiology; mining; soil pollutant; Mexico [North America]; San Luis Potosi; Potos; Bacteria; Carbon; Metalloids; Metals, Heavy; Mexico; Mining; Soil Microbiology; Soil Pollutants

Digital Object Identifier (DOI)

• 10.1016/j.ecoenv.2020.111493

PubMed ID

• 33120261

start page

end page

volume

• 208