Array Array
Array
DOI:
https://doi.org/10.33936/rev_bas_de_la_ciencia.v1i1.94Abstract
ArrayDownloads
Download data is not yet available.
References
Bin H., ZhaoJun Y., JianBo S. & GuiBin J. (2013). Review: Research progress of heavy metal pollution in China: Sources, analytical methods, status, and toxicity. Chin Sci Bull. 58,
134-140.
Bódog I., Polyák K., Csikós-Hartyányi Z. and Hlavay J. (1996). Microchem. J. 54 (3), 320-330.
Cappuyns V., Swennen R., Niclaes M. (2007). Application of the BCR sequential extraction scheme to dredged pond sediments contaminated by Pb–Zn mining: A combined geochemical and mineralogical approach. J. Geochem. Explor. 93, 78–90.
Colina M. (2001). Tesis Doctoral September 2001. Sheffield Hallam University, Inglaterra. da Silva I., Abate G., Lichtig J., Masini J. (2002). Heavy metal distribution in recent sediments of the Tietê-Pinheiros river system in São Paulo state, Brazil. Applied Geochemistry 17 (2), 105–116.
Davidson C., Thomas R., McVey S., Perala R., Littlejohn D., A Ure A. (1994). Evaluation of sequential extraction procedure for speciation of heavy metals in sediments. Anal. Chim. Acta, 291, 277-286.
Davidson C., Duncan A., Littlejohn D., Ure A., Garden L. (1998). A critical evaluation of the three-stage BCR sequential extraction procedure to assess the potential mobility and toxicity of heavy metals in industrially-contaminated land. Anal Chim Acta 363, 45-55.
Fernández E., Jiméneza R., Lallena A.M., Aguilar J. (2004). Evaluation of the BCR sequential extraction procedure applied for two unpolluted Spanish soils. Environ. Poll. 131, 355-364.
Fiedler H., López-Sánchez J., Rubio R., Rauret G., Quevauviller Ph., Ure A., Muntau H. (1994). Study of the stability of extractable trace metal contents in a river sediment using sequential extraction. Analyst 119, 1109-1114.
García-Ordiales E., Covelli S., Esbrí J., Loredo J., Higueras P. (2016). Sequential extraction procedure as a tool to investigate PTHE geochemistry and potential geoavailability of dam sediments (Almadén mining district, Spain). Catena 147, 394-403.
Gómez A., Giradles I., Sánchez-Rodas D., Morales E. (2000). Comparison of the feasibility of three extraction procedures for trace metal partitioning in sediments from south-west Spain Sci. Tot. Environ. 246 (2), 271-283.
Guo P., Duan T., Song X., Chen H. (2007). Evaluation of a sequential extraction for the speciation of thorium in soils from Baotou area, Inner Mongolia. Talanta 71, 778–783.
Idriss A.A., Ahmad A. K. (2013). Heavy Metals Nickel and Chromiumin Sediments in the Juru River, Penang, Malaysia. Journal of Environmental Protection, 4, 1245-1250.
Jiang M., Zeng G., Zhang C., Ma X., Chen M., et al. (2013) Assessment of Heavy Metal Contamination in the Surrounding Soils and Surface Sediments in Xiawangang River, Qingshuitang District. PLoS ONE 8(8): e71176. doi:10.1371/journal.pone.0071176.
Kheboian C., Bauer C. (1987). Accuracy of selective extraction procedures for metal speciation in model aquatic sediments. Anal. Chem. 59, 1417-1423.
Li X., Shen Z., Wai O. and Li Y. (2001). Chemical forms of Pb, Zn and Cu in the sediment profiles of the pearl river estuary. Mar. Pollution Bull. 42 (3), 215-223.
Mester Z., Cremisini C., Ghiara E., Morabito R. (1998). Comparison of two sequential extraction procedures for metal fractionation in sediment samples. Anal. Chim. Acta 359,
133-142.
Mittermüller M., Saatz J., Daus B. (2016). A sequential extraction procedure to evaluate the mobilization behavior of rare earth elements in soils and tailings materials. Chemosphere 147, 155-162.
Morillo A., Usero G., Gracia M. (2004). Heavy Metal Distribution in Marine Sediments From the Southwest Coast of Spain. Chemosphere. 55 (3), 431-442.
Nasirian H., Mahvi A.H., Hosseini M., Vazirianzadeh B., Sadeghi S.M.T., and Nazmara S. (2013). Study on the heavy metal bioconcentrations of the Shadegan international wetland mosquitofish, Gambusia affinis, by inductively coupled plasma technique. J. Environ. Health Sci. Eng. 11, 22.
Okoro H.K., Fatoki O.S., Adekola F.A., Ximba B.J., Snyman R.G. (2012). A Review of Sequential Extraction Procedures for Heavy Metals Speciation in Soil and Sediments. 1:
181. doi:10.4172/scientificreports.181.
Oughton D., Salbu B., Riise G., Lien H., Ostby G., Noren A. (1992). Radionuclide mobility and bioavailability in Norwegian and Soviet soils. Analyst 117, 481-486.
Pertsemli E., Voutsa D. (2007). Distribution of heavy metals in Lakes Doirani and Kerkini, Northern Greece. J. Hazard. Mater. 148, 529–537.
Rauret G., Rubio R., Lopez-Sanchez J. (1989). Optimization of tessier procedure for metals solid speciation in river sediments. Int. Environ. Anal. Chem. 36, 69-83.
Samhan S., Friese K., Tümpling W., Pöllmann H., Hoetzl H., Ghanem M. (2013). Anthropogenic influence of trace metals in sediments of the Al-Qilt catchment, West Bank, Palestine: 1. Contamination factor and bonding forms. Environ Earth Sci DOI 10.1007/s12665-013-2559-9.
Silveira M.L., Alleoni L.R.F., O’Connor G.A., Chang A.C. (2006). Heavy Metal Sequential Extraction Method - A Modification for Tropical Soils. Chemosphere 64, 1929–1938.
Svete P., Milačič R., Pihlar B. (2001). Partitioning of Zn, Pb, and Cd in river sediments from lead and zinc mining area using the BCR three-step sequential extraction procedure. J Environ Monit. 3, 586-590.
Tessier A., Campbell P., Bisson M. (1979). Sequential extraction procedure for the speciation of particulate trace metals. Anal Chem 51, 844-849.
Torres J., Colina M., Rivas Z. y Cano Y. (2006). Distribución de As, Pb, Se y V en muestras de sedimento del río Catatumbo, Venezuela. Ciencia. 14, 1-10.
Torres J. (2012). Flujo de nutrientes en la interfase agua-sedimento del sistema acuático tropical: Lago de Maracaibo. Tesis Doctoral. Facultad Experimental de Ciencias, Departamento de Química. Universidad del Zulia. Maracaibo, Venezuela, 114-118 pp.
Wen J., Yi Y., Zeng G. (2016). Effects of modified zeolite on the removal and stabilization of heavy metals in contaminated lake sediment using BCR sequential extraction. Journal of Environmental Management 178, 63-69.
134-140.
Bódog I., Polyák K., Csikós-Hartyányi Z. and Hlavay J. (1996). Microchem. J. 54 (3), 320-330.
Cappuyns V., Swennen R., Niclaes M. (2007). Application of the BCR sequential extraction scheme to dredged pond sediments contaminated by Pb–Zn mining: A combined geochemical and mineralogical approach. J. Geochem. Explor. 93, 78–90.
Colina M. (2001). Tesis Doctoral September 2001. Sheffield Hallam University, Inglaterra. da Silva I., Abate G., Lichtig J., Masini J. (2002). Heavy metal distribution in recent sediments of the Tietê-Pinheiros river system in São Paulo state, Brazil. Applied Geochemistry 17 (2), 105–116.
Davidson C., Thomas R., McVey S., Perala R., Littlejohn D., A Ure A. (1994). Evaluation of sequential extraction procedure for speciation of heavy metals in sediments. Anal. Chim. Acta, 291, 277-286.
Davidson C., Duncan A., Littlejohn D., Ure A., Garden L. (1998). A critical evaluation of the three-stage BCR sequential extraction procedure to assess the potential mobility and toxicity of heavy metals in industrially-contaminated land. Anal Chim Acta 363, 45-55.
Fernández E., Jiméneza R., Lallena A.M., Aguilar J. (2004). Evaluation of the BCR sequential extraction procedure applied for two unpolluted Spanish soils. Environ. Poll. 131, 355-364.
Fiedler H., López-Sánchez J., Rubio R., Rauret G., Quevauviller Ph., Ure A., Muntau H. (1994). Study of the stability of extractable trace metal contents in a river sediment using sequential extraction. Analyst 119, 1109-1114.
García-Ordiales E., Covelli S., Esbrí J., Loredo J., Higueras P. (2016). Sequential extraction procedure as a tool to investigate PTHE geochemistry and potential geoavailability of dam sediments (Almadén mining district, Spain). Catena 147, 394-403.
Gómez A., Giradles I., Sánchez-Rodas D., Morales E. (2000). Comparison of the feasibility of three extraction procedures for trace metal partitioning in sediments from south-west Spain Sci. Tot. Environ. 246 (2), 271-283.
Guo P., Duan T., Song X., Chen H. (2007). Evaluation of a sequential extraction for the speciation of thorium in soils from Baotou area, Inner Mongolia. Talanta 71, 778–783.
Idriss A.A., Ahmad A. K. (2013). Heavy Metals Nickel and Chromiumin Sediments in the Juru River, Penang, Malaysia. Journal of Environmental Protection, 4, 1245-1250.
Jiang M., Zeng G., Zhang C., Ma X., Chen M., et al. (2013) Assessment of Heavy Metal Contamination in the Surrounding Soils and Surface Sediments in Xiawangang River, Qingshuitang District. PLoS ONE 8(8): e71176. doi:10.1371/journal.pone.0071176.
Kheboian C., Bauer C. (1987). Accuracy of selective extraction procedures for metal speciation in model aquatic sediments. Anal. Chem. 59, 1417-1423.
Li X., Shen Z., Wai O. and Li Y. (2001). Chemical forms of Pb, Zn and Cu in the sediment profiles of the pearl river estuary. Mar. Pollution Bull. 42 (3), 215-223.
Mester Z., Cremisini C., Ghiara E., Morabito R. (1998). Comparison of two sequential extraction procedures for metal fractionation in sediment samples. Anal. Chim. Acta 359,
133-142.
Mittermüller M., Saatz J., Daus B. (2016). A sequential extraction procedure to evaluate the mobilization behavior of rare earth elements in soils and tailings materials. Chemosphere 147, 155-162.
Morillo A., Usero G., Gracia M. (2004). Heavy Metal Distribution in Marine Sediments From the Southwest Coast of Spain. Chemosphere. 55 (3), 431-442.
Nasirian H., Mahvi A.H., Hosseini M., Vazirianzadeh B., Sadeghi S.M.T., and Nazmara S. (2013). Study on the heavy metal bioconcentrations of the Shadegan international wetland mosquitofish, Gambusia affinis, by inductively coupled plasma technique. J. Environ. Health Sci. Eng. 11, 22.
Okoro H.K., Fatoki O.S., Adekola F.A., Ximba B.J., Snyman R.G. (2012). A Review of Sequential Extraction Procedures for Heavy Metals Speciation in Soil and Sediments. 1:
181. doi:10.4172/scientificreports.181.
Oughton D., Salbu B., Riise G., Lien H., Ostby G., Noren A. (1992). Radionuclide mobility and bioavailability in Norwegian and Soviet soils. Analyst 117, 481-486.
Pertsemli E., Voutsa D. (2007). Distribution of heavy metals in Lakes Doirani and Kerkini, Northern Greece. J. Hazard. Mater. 148, 529–537.
Rauret G., Rubio R., Lopez-Sanchez J. (1989). Optimization of tessier procedure for metals solid speciation in river sediments. Int. Environ. Anal. Chem. 36, 69-83.
Samhan S., Friese K., Tümpling W., Pöllmann H., Hoetzl H., Ghanem M. (2013). Anthropogenic influence of trace metals in sediments of the Al-Qilt catchment, West Bank, Palestine: 1. Contamination factor and bonding forms. Environ Earth Sci DOI 10.1007/s12665-013-2559-9.
Silveira M.L., Alleoni L.R.F., O’Connor G.A., Chang A.C. (2006). Heavy Metal Sequential Extraction Method - A Modification for Tropical Soils. Chemosphere 64, 1929–1938.
Svete P., Milačič R., Pihlar B. (2001). Partitioning of Zn, Pb, and Cd in river sediments from lead and zinc mining area using the BCR three-step sequential extraction procedure. J Environ Monit. 3, 586-590.
Tessier A., Campbell P., Bisson M. (1979). Sequential extraction procedure for the speciation of particulate trace metals. Anal Chem 51, 844-849.
Torres J., Colina M., Rivas Z. y Cano Y. (2006). Distribución de As, Pb, Se y V en muestras de sedimento del río Catatumbo, Venezuela. Ciencia. 14, 1-10.
Torres J. (2012). Flujo de nutrientes en la interfase agua-sedimento del sistema acuático tropical: Lago de Maracaibo. Tesis Doctoral. Facultad Experimental de Ciencias, Departamento de Química. Universidad del Zulia. Maracaibo, Venezuela, 114-118 pp.
Wen J., Yi Y., Zeng G. (2016). Effects of modified zeolite on the removal and stabilization of heavy metals in contaminated lake sediment using BCR sequential extraction. Journal of Environmental Management 178, 63-69.
Published
2016-12-01
Issue
Section
Ciencias Químicas
