Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)

The spatial distribution of metals in the water for consumption in the different supply sources, natural sources, family storage tanks and deep wells were studied. 16 samples were made for different municipalities belonging to the department of La Guajira upper part. The water samples were analyzed...

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Autores:: Garzon, N.
Espinosa, E.
Sarmiento-Rubiano, Luz Adriana
Manzolli, Rogerio Portantiolo
Cantero, R.
Castro-Suarez, J. R

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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repository_id_str
dc.title.spa.fl_str_mv	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
title	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
spellingShingle	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia) Trace-metal Water Guajira Colombia
title_short	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
title_full	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
title_fullStr	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
title_full_unstemmed	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
title_sort	Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)
dc.creator.fl_str_mv	Garzon, N. Espinosa, E. Sarmiento-Rubiano, Luz Adriana Manzolli, Rogerio Portantiolo Cantero, R. Castro-Suarez, J. R
dc.contributor.author.spa.fl_str_mv	Garzon, N. Espinosa, E. Sarmiento-Rubiano, Luz Adriana Manzolli, Rogerio Portantiolo Cantero, R. Castro-Suarez, J. R
dc.subject.spa.fl_str_mv	Trace-metal Water Guajira Colombia
topic	Trace-metal Water Guajira Colombia
description	The spatial distribution of metals in the water for consumption in the different supply sources, natural sources, family storage tanks and deep wells were studied. 16 samples were made for different municipalities belonging to the department of La Guajira upper part. The water samples were analyzed in 2016 and analyzed physically and chemically and microbiologically. The results were compared with national standards and those established by the WHO. The results found show some traces of metals in some of the sampling sites. The concentrations of Calcium, Magnesium exceeded the concentrations established by the standards. The results reinforce the need for better control of the physicochemical and microbiological parameters of the water consumed by the population.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-09-29T19:15:24Z
dc.date.available.none.fl_str_mv	2020-09-29T19:15:24Z
dc.date.issued.none.fl_str_mv	2020
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dc.relation.references.spa.fl_str_mv	[1] Zamora, J.R., 2009. Parámetros fisicoquímicos de dureza total en calcio y magnesio, pH, conductividad y temperatura del agua potable analizados en conjunto con las Asociaciones Administradoras del Acueducto,(ASADAS), de cada distrito de Grecia, cantón de Alajuela, noviembre. Pensamiento Actual, 9(12), pp.125-134. [2] Jobbágy, V., Altzitzoglou, T., Malo, P., Tanner, V. and Hult, M., 2017. A brief overview on radon measurements in drinking water. Journal of environmental radioactivity, 173, pp.18-24. [3] Giddings, E. M., Hornberger, M. I., Hadley, H. K. 2001. Trace-metal concentrations in sediment and water and health of aquatic macroinvertebratecommunities of streams near park city, summit county, Utah U.S. geological survey water-resources investigations report 01-4213 national water-quality assessment program salt lake city, utah. [4] Bhuyan, S. Md., Bakar, A. M., Akhtara, A., Hossain, M. B., Alid, Mir M., Md., Islam, S., 2017. Heavy metal contamination in surface water and sediment of the Meghna River, Bangladesh. Environmental Nanotechnology, Monitoring & Management. 8, 273–279. [5] Abraham, J., Dowling. K., Singarayer, F. 2017. Risk of post-fire metal mobilization into surface water resources: A review. Science of the Total Environment. 1740–1755. [6] Ebrahimian, F., Asl Zahedi, S., 2005. The effect of high calcium on activity of thyroid gland in rat. Endocr. Abstr. 89. 11 P775 [7] Chandra, A.K., Tripathy, S., Debnath, A., Ghosh, D., 2007 . Bioavailability of iodine and hardness (magnesium and calcium salt) in drinking water in the etiology of endemic goiter in Sundarban delta of West Bengal (India). J. Environ. Sci. Eng. 49, 139–142. [8] Broberg, K., Concha, G., Engstrom, K., Lindvall, M., Grander, M., Vahter, M. 2011. Lithium in drinking water and thyroid function. Environ. Health Perspect. 119 (6), 827–830. [9] Vita, A., De Peri, L., Sacchetti, E. 2015. Lithium in drinking water and suicide prevention: a review of the evidence. Int. Clin. Psychopharmacol. 30 (1), 1–5 [10] Harari, F., Bottai, M., Casimiro, E., Palm, B., Vahter, M., 2015. Exposure to lithium and cesium through drinking water and thyroid function during pregnancy: a prospective cohort study. Thyroid 25 (11), 1199–1208. [11] Harari. F., Åkesson. A., Casimiro, E., Lua, Y., Vaht, M. 2016. Exposure to lithium through drinking water and calcium homeostasis during pregnancy: A longitudinal study. Environmental Research 147. 1-7. [12] Dahl, C., Søgaard, J. A., Tell S.G., Forsén, L., Peder, F. T., Hongve, D., Kristin, O. T., Holvik. K., Meyer, H. E., Aamodt, G. 2015. Population data on calcium in drinking water and hip fracture: An association may depend on other minerals in water. A NOREPOS1 study. (81), 292-299. [13] Cabrera, L. M., Ortega, D. M., Quiroga, L.P. S., Lozano, P. R. J., Orenzon G. 1999. República de Colombia segunda comunicación nacional ante la convención marco de las naciones unidas sobre cambio climático. Capitulo 1. p 94. [14] Corpoguajira e Invemar. 2012. Atlas marino costero de La Guajira. Serie de Publicaciones Especiales de Invemar No. 27. Santa Marta, Colombia. 188p. ISBN: 978-958-8448-45-9 [15] Rodriguez, M. A. J., García, L. C. J., Galindo, M. M. L., Sabogal, R. J. A., Marin, L. S., Lozada, R. C. O.; Diaz, Q. F. A. 2016. Zika infection GIS-based mapping suggest high transmission activity in the border area of La Guajira, Colombia, a northeastern coast Caribbean department, 2015 - 2016: Implications for public health, migration and travel. Travel Medicine and Infectious Disease .14, 286 - 288. [16] Organización Mundial de la Salud. 2006. Guías para la calidad del agua potable [recurso electrónico]: incluye el primer apéndice. Vol. 1: Recomendaciones. Tercera edición. Versión electrónica para la Web. 1. Normas sobre el agua potable. 2. Normas sobre el agua. 3. Normas sobre la calidad del agua. 4. Directrices. I. Título. ISBN 92 4 154696 4 (Clasificación de la NLM: WA 675). [17] Kippler. M., Skrödera, H., Moshfiqur. S., Fahmida, R., Vahter. M.T. 2016. Elevated childhood exposure to arsenic despite reduced drinking water concentrations — A longitudinal cohort study in rural Bangladesh. Environment International. (86) 119-125. [18] Ferrándiz. J., Abellán, J. J., Gómez, R. V., López, Q. A., Sanmartín. Pilar., Abellán, C., Martínez. B. M. A., Melchor, I., Vanaclocha, H., Zurriaga, Ó., Ballester. F., Gil, J. M. Pérez, H. S., Ocaña, R. 2004. Spatial Analysis of the Relationship between Mortality from Cardiovascular and Cerebrovascular Disease and Drinking Water Hardness. Environmental Health Perspectives. 112 (9) 1037-1043. [19] Chandra Amar K., Haimanti Goswami, Pallav Sengupta. 2012 Dietary calcium induced cytological and biochemical changes in thyroid. Environmental toxicology and pharmacology. (3 4) 454–465.
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spelling	Garzon, N.Espinosa, E.Sarmiento-Rubiano, Luz AdrianaManzolli, Rogerio PortantioloCantero, R.Castro-Suarez, J. R2020-09-29T19:15:24Z2020-09-29T19:15:24Z20201757-89811757-899Xhttps://hdl.handle.net/11323/7131doi:10.1088/1757-899X/844/1/012020Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/The spatial distribution of metals in the water for consumption in the different supply sources, natural sources, family storage tanks and deep wells were studied. 16 samples were made for different municipalities belonging to the department of La Guajira upper part. The water samples were analyzed in 2016 and analyzed physically and chemically and microbiologically. The results were compared with national standards and those established by the WHO. The results found show some traces of metals in some of the sampling sites. The concentrations of Calcium, Magnesium exceeded the concentrations established by the standards. The results reinforce the need for better control of the physicochemical and microbiological parameters of the water consumed by the population.Garzon, N.Espinosa, E.Sarmiento-Rubiano, Luz Adriana-will be generated-orcid-0000-0002-8680-5816-600Manzolli, Rogerio Portantiolo-will be generated-orcid-0000-0002-0223-5634-600Cantero, R.Castro-Suarez, J. RengCorporación Universidad de la CostaCC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2IOP Conference Series: Materials Science and Engineeringhttps://iopscience.iop.org/article/10.1088/1757-899X/844/1/012020/metaTrace-metalWaterGuajiraColombiaEvaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)Artículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersion[1] Zamora, J.R., 2009. Parámetros fisicoquímicos de dureza total en calcio y magnesio, pH, conductividad y temperatura del agua potable analizados en conjunto con las Asociaciones Administradoras del Acueducto,(ASADAS), de cada distrito de Grecia, cantón de Alajuela, noviembre. Pensamiento Actual, 9(12), pp.125-134.[2] Jobbágy, V., Altzitzoglou, T., Malo, P., Tanner, V. and Hult, M., 2017. A brief overview on radon measurements in drinking water. Journal of environmental radioactivity, 173, pp.18-24.[3] Giddings, E. M., Hornberger, M. I., Hadley, H. K. 2001. Trace-metal concentrations in sediment and water and health of aquatic macroinvertebratecommunities of streams near park city, summit county, Utah U.S. geological survey water-resources investigations report 01-4213 national water-quality assessment program salt lake city, utah.[4] Bhuyan, S. Md., Bakar, A. M., Akhtara, A., Hossain, M. B., Alid, Mir M., Md., Islam, S., 2017. Heavy metal contamination in surface water and sediment of the Meghna River, Bangladesh. Environmental Nanotechnology, Monitoring & Management. 8, 273–279.[5] Abraham, J., Dowling. K., Singarayer, F. 2017. Risk of post-fire metal mobilization into surface water resources: A review. Science of the Total Environment. 1740–1755.[6] Ebrahimian, F., Asl Zahedi, S., 2005. The effect of high calcium on activity of thyroid gland in rat. Endocr. Abstr. 89. 11 P775[7] Chandra, A.K., Tripathy, S., Debnath, A., Ghosh, D., 2007 . Bioavailability of iodine and hardness (magnesium and calcium salt) in drinking water in the etiology of endemic goiter in Sundarban delta of West Bengal (India). J. Environ. Sci. Eng. 49, 139–142.[8] Broberg, K., Concha, G., Engstrom, K., Lindvall, M., Grander, M., Vahter, M. 2011. Lithium in drinking water and thyroid function. Environ. Health Perspect. 119 (6), 827–830.[9] Vita, A., De Peri, L., Sacchetti, E. 2015. Lithium in drinking water and suicide prevention: a review of the evidence. Int. Clin. Psychopharmacol. 30 (1), 1–5[10] Harari, F., Bottai, M., Casimiro, E., Palm, B., Vahter, M., 2015. Exposure to lithium and cesium through drinking water and thyroid function during pregnancy: a prospective cohort study. Thyroid 25 (11), 1199–1208.[11] Harari. F., Åkesson. A., Casimiro, E., Lua, Y., Vaht, M. 2016. Exposure to lithium through drinking water and calcium homeostasis during pregnancy: A longitudinal study. Environmental Research 147. 1-7.[12] Dahl, C., Søgaard, J. A., Tell S.G., Forsén, L., Peder, F. T., Hongve, D., Kristin, O. T., Holvik. K., Meyer, H. E., Aamodt, G. 2015. Population data on calcium in drinking water and hip fracture: An association may depend on other minerals in water. A NOREPOS1 study. (81), 292-299.[13] Cabrera, L. M., Ortega, D. M., Quiroga, L.P. S., Lozano, P. R. J., Orenzon G. 1999. República de Colombia segunda comunicación nacional ante la convención marco de las naciones unidas sobre cambio climático. Capitulo 1. p 94.[14] Corpoguajira e Invemar. 2012. Atlas marino costero de La Guajira. Serie de Publicaciones Especiales de Invemar No. 27. Santa Marta, Colombia. 188p. ISBN: 978-958-8448-45-9[15] Rodriguez, M. A. J., García, L. C. J., Galindo, M. M. L., Sabogal, R. J. A., Marin, L. S., Lozada, R. C. O.; Diaz, Q. F. A. 2016. Zika infection GIS-based mapping suggest high transmission activity in the border area of La Guajira, Colombia, a northeastern coast Caribbean department, 2015 - 2016: Implications for public health, migration and travel. Travel Medicine and Infectious Disease .14, 286 - 288.[16] Organización Mundial de la Salud. 2006. Guías para la calidad del agua potable [recurso electrónico]: incluye el primer apéndice. Vol. 1: Recomendaciones. Tercera edición. Versión electrónica para la Web. 1. Normas sobre el agua potable. 2. Normas sobre el agua. 3. Normas sobre la calidad del agua. 4. Directrices. I. Título. ISBN 92 4 154696 4 (Clasificación de la NLM: WA 675).[17] Kippler. M., Skrödera, H., Moshfiqur. S., Fahmida, R., Vahter. M.T. 2016. Elevated childhood exposure to arsenic despite reduced drinking water concentrations — A longitudinal cohort study in rural Bangladesh. Environment International. (86) 119-125.[18] Ferrándiz. J., Abellán, J. J., Gómez, R. V., López, Q. A., Sanmartín. Pilar., Abellán, C., Martínez. B. M. A., Melchor, I., Vanaclocha, H., Zurriaga, Ó., Ballester. F., Gil, J. M. Pérez, H. S., Ocaña, R. 2004. Spatial Analysis of the Relationship between Mortality from Cardiovascular and Cerebrovascular Disease and Drinking Water Hardness. Environmental Health Perspectives. 112 (9) 1037-1043.[19] Chandra Amar K., Haimanti Goswami, Pallav Sengupta. 2012 Dietary calcium induced cytological and biochemical changes in thyroid. Environmental toxicology and pharmacology. 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Evaluation of trace-metal concentrations in water consumption of streams near Guajira (Colombia)

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