Analysis of atmospheric deposition in the Sugamuxi Valley

Authors

  • V. Palacios Universidad Pedagógica y Tecnológica de Colombia

DOI:

https://doi.org/10.24054/aaas.v5i1.1992

Keywords:

Dispersión de contaminantes, química atmosférica, contaminación atmosférica, precipitación, Tasas de inmisión

Abstract

The main pollutants present in the air in the Sugamuxi Valley area were analyzed. The assessment analyzed the spatial variability of the chemical composition of global atmospheric deposition, which includes the wet fraction composed of rainwater and the dry fraction. Sampling was carried out at 10 stations distributed throughout the urban area of the city of Sogamoso, of which five were selected for this study and 78 samples were analyzed by atomic absorption
. The geographical distribution factors of the identified pollutants were investigated in relation to atmospheric dynamics and immission concentrations for Ca2+, Na+, K+, Mg2+, Cl-, SO4 =, and CO3 -.

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References

ABDUS, Salam, ADEKOLA, F., OTUYO, M. (2011). Chemical composition of wet precipitation in ambient environment of Ilorin, north central Nigeria. Journal of Saudi Chemical Society, Octubre.

ALCALÁ, F. y CUSTODIO, E. (2004). La deposición atmosférica de cloruro al terreno en España 2004. Boletín Geológico y Minero, 115(Especial), 319-330.

ALEKSIC, N., ROYA, K., SISTLA, G., et al. (2009). Analysis of cloud and precipitation chemistry at Whiteface Mountain, NY. Atmospheric Environment, 43(17), 2709–2716.

ARÁNGUEZ, Emiliano, ORDÓÑEZ, José, SERRANO, Javier, et al. (2009). Contaminantes atmosféricos y su vigilancia. Revista Española de Salud Pública, 73, 123-132.

AZIMI, S., LUDWIG, A., THÉVENOT, D., et al. (2003). Trace metal determination in total atmospheric deposition in rural and urban areas. Science of the Total Environment, 308, 247-256.

BALLESTER, Ferran (2005). Contaminación atmosférica, cambio climático y salud. Revista Española de Salud Pública, 79, 159-175.

BALLESTER, Ferran (2005). El proyecto EMECAM: estudio multicéntrico español sobre la relación entre la contaminación atmosférica y la mortalidad. Antecedentes, participantes, objetivos y metodología. Revista Española de Salud Pública, 79, 229-242.

BESWICK, K., CHOULARTON, T., INGLIS, D., et al. (2003). Influences on long-term trends in ion concentration and deposition at Holme Moss. Atmospheric Environment, 37(14), 1927–1940.

BOHDALKOVA, L., NOVAK, M., VOLDRICHOVA, P., et al. (2012). Atmospheric deposition of beryllium in Central Europe: Comparison of soluble and insoluble fractions in rime and snow across a pollution gradient. Science of the Total Environment, 439, 26–34.

CHAVES, Aura, QUEROL, Xavier, ALASTUEY, Andres, et al. (2000). Sources of natural and anthropogenic sulphur around the Teruel power station, NE Spain. Inferences from sulphur isotope geochemistry. Atmospheric Environment, 34(2), 333-345.

INOMATA, Y., IGARASHI, Y., CHIBA, M., et al. (2009). Dry and wet deposition of water-insoluble dust and water-soluble chemical species during spring 2007 in Tsukuba, Japan. Atmospheric Environment, 43(29), 4503–4512.

INSTITUTO DE CIENCIAS DE LA SHIMADERA, H., KONDO, A., SHRESTHA, K., et al. (2011). Annual sulfur deposition through fog, wet and dry deposition in the Kinki Region of Japan. Atmospheric Environment, 45(35), 6299-6308.

SONG, F., GAO, Y. (2009). Chemical characteristics of precipitation at metropolitan Newark in the US East Coast. Atmospheric Environment, 43(32), 4903–4913.

SONG, Y., LI, D., WANG, Y., et al. (2011). Chemical Characteristics and Cause Analysis of Precipitation in the South of Liaodong Peninsula. Procedia Engineering, 18(18), 220–225.

SULLIVAN, Benjamin., SELMANTS, Paul., HART, S. (2012). New evidence that high potential nitrification rates occur in soils during dry seasons: Are microbial communities metabolically active during dry seasons?. Soil Biology & Biochemistry, 53, 28-31.

ZHANG, X., JIANG, H., ZHANG, Q. (2012). Chemical characteristics of rainwater in northeast China, a case study of Dalian. Atmospheric Research, 116, 151–160.

ZHANG, Y., LEE, X., CAO, F. (2011). Chemical characteristics and sources of organic acids in precipitation at a semi-urban site in Southwest China. Atmospheric Environment, 45(2), 413-419.

ZHANG, Y., SONG, L., LIU, X., et al. (2012). Atmospheric organic nitrogen deposition in China. Atmospheric Environment, 46, 195-204.

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Published

2014-06-30

How to Cite

Palacios, V. (2014). Analysis of atmospheric deposition in the Sugamuxi Valley. REVISTA AMBIENTAL AGUA, AIRE Y SUELO, 5(1), 1–12. https://doi.org/10.24054/aaas.v5i1.1992

Issue

Vol. 5 No. 1 (2014): January - June

Section

Artículos

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