Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México
Purpose: San Luis Potosí is one of the largest metal producers; mining activity has been responsible for metal emissions for over 100 years, from several sources (deposits, tailings, effluents, and dusts) generating effects in human and ecosystem health. The objective of this study was to evaluate the effect of the concentrations of heavy metals in the soil health of four municipalities of San Luis Potosí contaminated with mine tailings, using enzyme activity as a biochemical endpoint. Materials and methods: Four municipalities contaminated with residues of historical mining activity were analyzed (25 topsoil samples per type of site contaminated and reference). The parameters that were analyzed included pH; organic matter (OM); electrical conductivity (EC); percentage of clay, As, Cd, Cr, Cu, Hg, Pb, and Zn; and arylsulfatase (ARS), β-glucosidase (BG), urease (UR), and fluorescein diacetate hydrolysis (FDA) activities in soil. Differences among the parameters per municipality and type of site were evaluated using a factorial analysis of variance. The relationships were analyzed by Pearson’s correlation and a stepwise distance-based linear model permutation test (DistLM). Results were visualized using a distance-based redundancy analysis (dbRDA). A hazard quotient (HQ) for metals was calculated in order to estimate the effects on soil microbial processes. Results and discusión: A concentration gradient (mg/kg) of Zn (4744.5–65,585.7), Pb (1321.0–31,932.2), As (ND-8736.7), and Cu (130.9–8475.4) was found in the contaminated sites. The HQ showed a very high hazard level for the elements detected in all contaminated sites (1.4–655.8). The pattern of enzymatic inhibition found was ARS (95.8 %), UR (90.6 %), FDA (86.9 %), and BG (76.0 %). Strong negative relationships were observed among enzymatic activities and heavy metals in the following inhibitory effect Cu > As > Zn > Pb. Metals and covariables explained from 84 to 86 % of variability in enzyme activity. EC, Cu, and As showed a strong inhibitory effect; and parameters such as OM, pH, and clay were found to have a slightly inducing effect. Conclusions: In this study, the heavy metal concentrations were higher than the ones obtained in other reports for this region. The HQ reveals the presence of possible risks for the health of life in the region. The decrease of enzyme activities in soil could trigger adverse changes in the flow of matter and energy in ecosystems. This study provides a field baseline that could be part of a long-term monitoring program for these locations.
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| Subjects: | Metales pesados, Contaminación de suelos, Enzimas del suelo, Riesgo a la salud, Evaluación de riesgos ecológicos, Minas, |
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Metales pesados Contaminación de suelos Enzimas del suelo Riesgo a la salud Evaluación de riesgos ecológicos Minas Metales pesados Contaminación de suelos Enzimas del suelo Riesgo a la salud Evaluación de riesgos ecológicos Minas |
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Metales pesados Contaminación de suelos Enzimas del suelo Riesgo a la salud Evaluación de riesgos ecológicos Minas Metales pesados Contaminación de suelos Enzimas del suelo Riesgo a la salud Evaluación de riesgos ecológicos Minas Martínez Toledo, Ángeles autora Montes Rocha, Ángel autor González Mille, Donaji Josefina autora 12434 Espinosa Reyes, Guillermo autor 12435 Torres Dosal, Arturo Doctor autor 12288 Mejia Saavedra, Jesús J. autor Ilizaliturri Hernández, César Arturo autor 12431 Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| description |
Purpose: San Luis Potosí is one of the largest metal producers; mining activity has been responsible for metal emissions for over 100 years, from several sources (deposits, tailings, effluents, and dusts) generating effects in human and ecosystem health. The objective of this study was to evaluate the effect of the concentrations of heavy metals in the soil health of four municipalities of San Luis Potosí contaminated with mine tailings, using enzyme activity as a biochemical endpoint. Materials and methods: Four municipalities contaminated with residues of historical mining activity were analyzed (25 topsoil samples per type of site contaminated and reference). The parameters that were analyzed included pH; organic matter (OM); electrical conductivity (EC); percentage of clay, As, Cd, Cr, Cu, Hg, Pb, and Zn; and arylsulfatase (ARS), β-glucosidase (BG), urease (UR), and fluorescein diacetate hydrolysis (FDA) activities in soil. Differences among the parameters per municipality and type of site were evaluated using a factorial analysis of variance. The relationships were analyzed by Pearson’s correlation and a stepwise distance-based linear model permutation test (DistLM). Results were visualized using a distance-based redundancy analysis (dbRDA). A hazard quotient (HQ) for metals was calculated in order to estimate the effects on soil microbial processes. Results and discusión: A concentration gradient (mg/kg) of Zn (4744.5–65,585.7), Pb (1321.0–31,932.2), As (ND-8736.7), and Cu (130.9–8475.4) was found in the contaminated sites. The HQ showed a very high hazard level for the elements detected in all contaminated sites (1.4–655.8). The pattern of enzymatic inhibition found was ARS (95.8 %), UR (90.6 %), FDA (86.9 %), and BG (76.0 %). Strong negative relationships were observed among enzymatic activities and heavy metals in the following inhibitory effect Cu > As > Zn > Pb. Metals and covariables explained from 84 to 86 % of variability in enzyme activity. EC, Cu, and As showed a strong inhibitory effect; and parameters such as OM, pH, and clay were found to have a slightly inducing effect. Conclusions: In this study, the heavy metal concentrations were higher than the ones obtained in other reports for this region. The HQ reveals the presence of possible risks for the health of life in the region. The decrease of enzyme activities in soil could trigger adverse changes in the flow of matter and energy in ecosystems. This study provides a field baseline that could be part of a long-term monitoring program for these locations. |
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Metales pesados Contaminación de suelos Enzimas del suelo Riesgo a la salud Evaluación de riesgos ecológicos Minas |
| author |
Martínez Toledo, Ángeles autora Montes Rocha, Ángel autor González Mille, Donaji Josefina autora 12434 Espinosa Reyes, Guillermo autor 12435 Torres Dosal, Arturo Doctor autor 12288 Mejia Saavedra, Jesús J. autor Ilizaliturri Hernández, César Arturo autor 12431 |
| author_facet |
Martínez Toledo, Ángeles autora Montes Rocha, Ángel autor González Mille, Donaji Josefina autora 12434 Espinosa Reyes, Guillermo autor 12435 Torres Dosal, Arturo Doctor autor 12288 Mejia Saavedra, Jesús J. autor Ilizaliturri Hernández, César Arturo autor 12431 |
| author_sort |
Martínez Toledo, Ángeles autora |
| title |
Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| title_short |
Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| title_full |
Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| title_fullStr |
Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| title_full_unstemmed |
Evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México |
| title_sort |
evaluation of enzyme activities in long-term polluted soils with mine tailing deposits of san luis potosí, méxico |
| url |
https://link.springer.com/article/10.1007/s11368-016-1529-8 |
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KOHA-OAI-ECOSUR:580352024-03-11T15:22:39ZEvaluation of enzyme activities in long-term polluted soils with mine tailing deposits of San Luis Potosí, México Martínez Toledo, Ángeles autora Montes Rocha, Ángel autor González Mille, Donaji Josefina autora 12434 Espinosa Reyes, Guillermo autor 12435 Torres Dosal, Arturo Doctor autor 12288 Mejia Saavedra, Jesús J. autor Ilizaliturri Hernández, César Arturo autor 12431 textengPurpose: San Luis Potosí is one of the largest metal producers; mining activity has been responsible for metal emissions for over 100 years, from several sources (deposits, tailings, effluents, and dusts) generating effects in human and ecosystem health. The objective of this study was to evaluate the effect of the concentrations of heavy metals in the soil health of four municipalities of San Luis Potosí contaminated with mine tailings, using enzyme activity as a biochemical endpoint. Materials and methods: Four municipalities contaminated with residues of historical mining activity were analyzed (25 topsoil samples per type of site contaminated and reference). The parameters that were analyzed included pH; organic matter (OM); electrical conductivity (EC); percentage of clay, As, Cd, Cr, Cu, Hg, Pb, and Zn; and arylsulfatase (ARS), β-glucosidase (BG), urease (UR), and fluorescein diacetate hydrolysis (FDA) activities in soil. Differences among the parameters per municipality and type of site were evaluated using a factorial analysis of variance. The relationships were analyzed by Pearson’s correlation and a stepwise distance-based linear model permutation test (DistLM). Results were visualized using a distance-based redundancy analysis (dbRDA). A hazard quotient (HQ) for metals was calculated in order to estimate the effects on soil microbial processes. Results and discusión: A concentration gradient (mg/kg) of Zn (4744.5–65,585.7), Pb (1321.0–31,932.2), As (ND-8736.7), and Cu (130.9–8475.4) was found in the contaminated sites. The HQ showed a very high hazard level for the elements detected in all contaminated sites (1.4–655.8). The pattern of enzymatic inhibition found was ARS (95.8 %), UR (90.6 %), FDA (86.9 %), and BG (76.0 %). Strong negative relationships were observed among enzymatic activities and heavy metals in the following inhibitory effect Cu > As > Zn > Pb. Metals and covariables explained from 84 to 86 % of variability in enzyme activity. EC, Cu, and As showed a strong inhibitory effect; and parameters such as OM, pH, and clay were found to have a slightly inducing effect. Conclusions: In this study, the heavy metal concentrations were higher than the ones obtained in other reports for this region. The HQ reveals the presence of possible risks for the health of life in the region. The decrease of enzyme activities in soil could trigger adverse changes in the flow of matter and energy in ecosystems. This study provides a field baseline that could be part of a long-term monitoring program for these locations. Purpose: San Luis Potosí is one of the largest metal producers; mining activity has been responsible for metal emissions for over 100 years, from several sources (deposits, tailings, effluents, and dusts) generating effects in human and ecosystem health. The objective of this study was to evaluate the effect of the concentrations of heavy metals in the soil health of four municipalities of San Luis Potosí contaminated with mine tailings, using enzyme activity as a biochemical endpoint. Materials and methods: Four municipalities contaminated with residues of historical mining activity were analyzed (25 topsoil samples per type of site contaminated and reference). The parameters that were analyzed included pH; organic matter (OM); electrical conductivity (EC); percentage of clay, As, Cd, Cr, Cu, Hg, Pb, and Zn; and arylsulfatase (ARS), β-glucosidase (BG), urease (UR), and fluorescein diacetate hydrolysis (FDA) activities in soil. Differences among the parameters per municipality and type of site were evaluated using a factorial analysis of variance. The relationships were analyzed by Pearson’s correlation and a stepwise distance-based linear model permutation test (DistLM). Results were visualized using a distance-based redundancy analysis (dbRDA). A hazard quotient (HQ) for metals was calculated in order to estimate the effects on soil microbial processes. Results and discusión: A concentration gradient (mg/kg) of Zn (4744.5–65,585.7), Pb (1321.0–31,932.2), As (ND-8736.7), and Cu (130.9–8475.4) was found in the contaminated sites. The HQ showed a very high hazard level for the elements detected in all contaminated sites (1.4–655.8). The pattern of enzymatic inhibition found was ARS (95.8 %), UR (90.6 %), FDA (86.9 %), and BG (76.0 %). Strong negative relationships were observed among enzymatic activities and heavy metals in the following inhibitory effect Cu > As > Zn > Pb. Metals and covariables explained from 84 to 86 % of variability in enzyme activity. EC, Cu, and As showed a strong inhibitory effect; and parameters such as OM, pH, and clay were found to have a slightly inducing effect. Conclusions: In this study, the heavy metal concentrations were higher than the ones obtained in other reports for this region. The HQ reveals the presence of possible risks for the health of life in the region. The decrease of enzyme activities in soil could trigger adverse changes in the flow of matter and energy in ecosystems. This study provides a field baseline that could be part of a long-term monitoring program for these locations. Metales pesadosContaminación de suelosEnzimas del sueloRiesgo a la saludEvaluación de riesgos ecológicosMinasJournal of Soils and Sedimentshttps://link.springer.com/article/10.1007/s11368-016-1529-8Disponible para usuarios de ECOSUR con su clave de acceso |