2014 |
Copaja, S; Molina, X; Tessada, R Determination of Heavy Metals in Choapa River Sediments Using Bcr Sequential Extraction Procedure Artículo de revista Journal of the Chilean Chemical Society, 59 (1), pp. 2353-2358, 2014, ISSN: 0717-9707. Resumen | Enlaces | BibTeX | Etiquetas: basin, choapa copper, cu, extraction fractionation, heavy lead metals, pb, river sediments, sequential soils, speciation, zn @article{RN177, title = {Determination of Heavy Metals in Choapa River Sediments Using Bcr Sequential Extraction Procedure}, author = { S. Copaja and X. Molina and R. Tessada}, url = {/brokenurl#<Go to ISI>://WOS:000342613000022}, doi = {10.4067/S0717-97072014000100023}, issn = {0717-9707}, year = {2014}, date = {2014-01-01}, journal = {Journal of the Chilean Chemical Society}, volume = {59}, number = {1}, pages = {2353-2358}, abstract = {In recent years Chile has experienced a significant increase in mining activities, which has resulted in an increase in waste generation. The dispersion of these residues in the air, water and soil has led to negative changes in the environment., This main objective of this study is to identify the influence of the copper mine Los Pelambres (station E2) located in the Choapa River Basin (IV Region Coquimbo). To achieve this goal we performed an analysis of the physical and chemical composition of sediment samples in the summer season taken from the rithron to potamon areas of the watershed. River sediments can provide information and influence the degree of pollution in a given area due to mining discharges. The analysis was based on two types of determinations: total metal content, which provides an assessment of the level of contamination, and studies of different chemicals in which the metal is associated with the sediment., The results of this study showed that station E2 (Cuncumen River) has a particular behavior in the basin, showing higher content of metallic trace elements; for example, the concentration of Cu (total fraction) was 4814.1 mu gg(-1). In the rest of the stations the metal content was less than in E2 (total Cu from 42.4 mu gg(-1) in E1 to 136.2 mu gg(-1) in E5), therefore it is concluded that there is no direct influence of the mining activity of Los Pelambres station (E2) in the rest of the basin., BCR sequential extraction of sediments, developed under the auspices of the Community Bureau of Reference, indicated metal mobility. Metal mobility is closely associated with the chemical conditions of the system. In general, metals that could have greatest mobility in the basin are: Cu, Cd, Zn and Mn, found in the soluble acid fraction, together with oxidant (organic matter) and reducing (Fe and Mn oxides) conditions., The cluster analysis of the total fraction of metal content in sediments indicates that the mine discharge site (E2), has a unique behavior in the basin. Station E2 showed a similarity below 50%, while the rest of the basin showed a similarity above 70%., Overall the results indicate that the Los Pelambres Mine is not a direct source of heavy metals in the Choapa River Basin, which does not imply that station E2 (Cuncumen River) has no influence on the metal content of sediments. To determine the area of this season, the study area should be narrowed to Cuncumen River (E2) section of the Choapa River Basin, since the physical conditions of the system, hydrographic conditions and climatic do not allow a high rate of discharge and mobility of heavy metals from the mining area with high discharge to the last station (Huentelauquen).}, keywords = {basin, choapa copper, cu, extraction fractionation, heavy lead metals, pb, river sediments, sequential soils, speciation, zn}, pubstate = {published}, tppubtype = {article} } In recent years Chile has experienced a significant increase in mining activities, which has resulted in an increase in waste generation. The dispersion of these residues in the air, water and soil has led to negative changes in the environment., This main objective of this study is to identify the influence of the copper mine Los Pelambres (station E2) located in the Choapa River Basin (IV Region Coquimbo). To achieve this goal we performed an analysis of the physical and chemical composition of sediment samples in the summer season taken from the rithron to potamon areas of the watershed. River sediments can provide information and influence the degree of pollution in a given area due to mining discharges. The analysis was based on two types of determinations: total metal content, which provides an assessment of the level of contamination, and studies of different chemicals in which the metal is associated with the sediment., The results of this study showed that station E2 (Cuncumen River) has a particular behavior in the basin, showing higher content of metallic trace elements; for example, the concentration of Cu (total fraction) was 4814.1 mu gg(-1). In the rest of the stations the metal content was less than in E2 (total Cu from 42.4 mu gg(-1) in E1 to 136.2 mu gg(-1) in E5), therefore it is concluded that there is no direct influence of the mining activity of Los Pelambres station (E2) in the rest of the basin., BCR sequential extraction of sediments, developed under the auspices of the Community Bureau of Reference, indicated metal mobility. Metal mobility is closely associated with the chemical conditions of the system. In general, metals that could have greatest mobility in the basin are: Cu, Cd, Zn and Mn, found in the soluble acid fraction, together with oxidant (organic matter) and reducing (Fe and Mn oxides) conditions., The cluster analysis of the total fraction of metal content in sediments indicates that the mine discharge site (E2), has a unique behavior in the basin. Station E2 showed a similarity below 50%, while the rest of the basin showed a similarity above 70%., Overall the results indicate that the Los Pelambres Mine is not a direct source of heavy metals in the Choapa River Basin, which does not imply that station E2 (Cuncumen River) has no influence on the metal content of sediments. To determine the area of this season, the study area should be narrowed to Cuncumen River (E2) section of the Choapa River Basin, since the physical conditions of the system, hydrographic conditions and climatic do not allow a high rate of discharge and mobility of heavy metals from the mining area with high discharge to the last station (Huentelauquen). |
2012 |
Mera-Adasme, R; Mendizabal, F; González, M; Miranda-Rojas, S; Olea-Azar, C; Sundholm, D Computational Studies of the Metal-Binding Site of the Wild-Type and the H46r Mutant of the Copper, Zinc Superoxide Dismutase Artículo de revista Inorganic Chemistry, 51 (10), pp. 5561-5568, 2012, ISSN: 0020-1669. Resumen | Enlaces | BibTeX | Etiquetas: amyotrophic-lateral-sclerosis, approximation, correlation-energy, crystal-structures, cu, density efficient, functionals, sod1, solvents zn @article{RN85, title = {Computational Studies of the Metal-Binding Site of the Wild-Type and the H46r Mutant of the Copper, Zinc Superoxide Dismutase}, author = { R. Mera-Adasme and F. Mendizabal and M. Gonz\'{a}lez and S. Miranda-Rojas and C. Olea-Azar and D. Sundholm}, url = {/brokenurl#<Go to ISI>://WOS:000304215200011}, doi = {10.1021/ic202416d}, issn = {0020-1669}, year = {2012}, date = {2012-01-01}, journal = {Inorganic Chemistry}, volume = {51}, number = {10}, pages = {5561-5568}, abstract = {Impairment of the Zn(II)-binding site of the copper, zinc superoxide dismutase (CuZnSOD) protein is involved in a number of hypotheses and explanations for the still unknown toxic gain of function mutant varieties of CuZnSOD that are associated with familial forms of amyotrophic lateral sclerosis (ALS). In this work, computational chemistry methods have been used for studying models of the metal-binding site of the ALS-linked H46R mutant of CuZnSOD and of the wild-type variety of the enzyme. By comparing the energy and electronic structure of these models, a plausible explanation for the effect of the H46R mutation on the zinc site is obtained. The computational study clarifies the role of the D124 and D125 residues for keeping the structural integrity of the Zn(II)-binding site, which was known to exist but its mechanism has not been explained. Earlier results suggest that the explanation for the impairment of the Zn(II)-site proposed in this work may be useful for understanding the mechanism of action of the ALS-linked mutations in CuZnSOD in general.}, keywords = {amyotrophic-lateral-sclerosis, approximation, correlation-energy, crystal-structures, cu, density efficient, functionals, sod1, solvents zn}, pubstate = {published}, tppubtype = {article} } Impairment of the Zn(II)-binding site of the copper, zinc superoxide dismutase (CuZnSOD) protein is involved in a number of hypotheses and explanations for the still unknown toxic gain of function mutant varieties of CuZnSOD that are associated with familial forms of amyotrophic lateral sclerosis (ALS). In this work, computational chemistry methods have been used for studying models of the metal-binding site of the ALS-linked H46R mutant of CuZnSOD and of the wild-type variety of the enzyme. By comparing the energy and electronic structure of these models, a plausible explanation for the effect of the H46R mutation on the zinc site is obtained. The computational study clarifies the role of the D124 and D125 residues for keeping the structural integrity of the Zn(II)-binding site, which was known to exist but its mechanism has not been explained. Earlier results suggest that the explanation for the impairment of the Zn(II)-site proposed in this work may be useful for understanding the mechanism of action of the ALS-linked mutations in CuZnSOD in general. |
2014 |
Determination of Heavy Metals in Choapa River Sediments Using Bcr Sequential Extraction Procedure Artículo de revista Journal of the Chilean Chemical Society, 59 (1), pp. 2353-2358, 2014, ISSN: 0717-9707. |
2012 |
Computational Studies of the Metal-Binding Site of the Wild-Type and the H46r Mutant of the Copper, Zinc Superoxide Dismutase Artículo de revista Inorganic Chemistry, 51 (10), pp. 5561-5568, 2012, ISSN: 0020-1669. |