Validation of a liquid chromatography method (HPLC-UV/Vis) to quantify aldehydes in rainwater and air
DOI:
https://doi.org/10.15359/ru.38-1.27Keywords:
Aldehydes, rainwater, chromatography, validation, detection limits, quantification limitsAbstract
Aldehydes are compounds in the atmosphere formed by the photochemical degradation of other organic compounds in the troposphere and can be emitted by natural or anthropogenic sources. [Objective] An analytical method was implemented to quantify aldehyde samples in matrices such as air and rainwater. [Methodology] Aldehyde sampling and analysis were conducted using method TO-11 from the United States Environmental Protection Agency (EPA). Sampling was carried out by using adsorption cartridges coated with a 2,4-DNPH solution, forming a hydrazone with the aldehydes present in the rainwater and the air, which were tested using a liquid chromatograph coupled to a UV-visible detector (HPLC-UV/Vis). To validate the analysis technique and the analytical quality of the results, the following was determined: linearity, sensitivity, quantification limits, detection limits, repeatability, reproducibility, and recovery percentage. In the case of repeatability, the comparison of the Horwitz coefficient of variation was used with the percentages of relative standard deviation (% RSD) of the samples. [Results] The detection and quantification limits obtained range between 0.18 μg/m3 and 3.20 μg/m3 for acetaldehyde and acrolein, respectively, while quantification limits are between 0.62 μg/m3 for acetaldehyde and 4.70 μg/m3 for heptanal, data that characterizes the method’s analytical quality. [Conclusions] In general, the analysis method for aldehydes showed linearity, with R2 values equal to or greater than 0.9991 for each calibration curve, and relative deviation percentage values less than 2.25 %, indicating good precision in the analysis.
References
Asthana, A., Bose, D., Kulshrestha, S., Pathak, S., Sanghi, S. y Kok, W. (1998). Determination of aldehydes in water samples by capillary electrophoresis after derivatization with hydrazino benzene sulfonic acid. Chromatographia, 48(11-12), 807-810. https://doi.org/10.1007/BF02467652
Barwick, V. J. y Ellison, S. L. R. (2000). Development and Harmonisation of Measurement Uncertainty Principles: Part (d): Protocol for uncertainty evaluation from validation data. Ediciones VAM.
Burns, D. T., Danzer, K. y Townshend, A. (2002). Use of the term “recovery” and “apparent recovery” in analytical procedures (IUPAC Recommendations 2002). Pure and Applied Chemistry, 74(11), 2201-2205. https://doi.org/10.1351/pac200274112201
Calderón, B., Venegas, J., Sibaja, J. P., Salazar, J. y Rodríguez, E. (2016). Determinación del contenido de plomo, cromo y mercurio total a nivel traza en matriz de cemento mediante las técnicas analíticas de FAAS, GFAAS y CVAAS: Validación del método de ensayo. Métodos & Materiales, 6(1), 1-18. https://doi.org/10.15517/MYM.V6I1.29700
Castillo, B. y González, R. (1996). Protocolo de validación de métodos analíticos para la cuantificación de fármacos. Revista Cubana de Farmacia, 30(1). http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S0034-75151996000100009
Delgado, B. (2009). Compuestos carbonílicos en muestras de interés medioambiental y agroalimentario. (Tesis de Doctorado). Universidad de la Laguna, España.
Di Rienzo, J. A., Casanoves, F., Balzarini, M. G., González, L., Tablada, M. y Robledo C. W. (2018). InfoStat. Grupo InfoStat, FCA, Universidad Nacional de Córdoba, Argentina. http://www.infostat.com.ar
Environmental Protection Agency (EPA). (1999). Compendium of Methods for the Determination of Toxic Organic Compounds in Ambient Air. U.S. Environmental Protection Agency. https://www3.epa.gov/ttnamti1/files/ambient/airtox/to-11ar.pdf
Ellison, S., Barwick, V. y Duguid, T. (2009). Practical Statistics for the Analytical Scientist: A Bench Guide. Ediciones The Royal Society of Chemistry.
Gallego, A., González, I., Sánchez, B., Fernández, P., Garcinuño, R., Bravo, J., Pradana, J., García, M. y Durand, J. (2012). Contaminación Atmosférica. Ediciones Universidad Nacional de Educación a Distancia.
Gasparini, F., Weinert, P., Lima, L., Pezza, L. y Pezza, H. (2008). A simple and green analytical method for the determination of formaldehyde. Journal of the Brazilian Chemical Society, 19(8), 1531-1537. https://doi.org/10.1590/S0103-50532008000800012
Guash, J. (1983). NTP 138: Pérdida de carga de los soportes de retención. Centro de Investigación y Asistencia Técnica de Barcelona. http://www.insht.es/InshtWeb/Contenidos/Documentacion/FichasTecnicas/NTP/Ficheros/101a200/ntp_138.pdf
Guimaraes, C., Custodio, D., Oliveira, R., Varandas, L. y Arbilla, G. (2010). Comparative study of automotive, aircraft and biogenic emissions of aldehydes and aromatic compounds. Bulletin of Environmental Contamination and Toxicology, 84(2), 180-184. https://doi.org/10.1007/s00128-009-9891-5
Harris, D. (2007). Análisis Químico Cuantitativo. Ediciones Reverté.
Hernández, A. (2001). NTP 609: Agentes biológicos: equipos de muestreo (I). Centro Nacional de Condiciones de Trabajo. http://www.insht.es/InshtWeb/Contenidos/Documentacion/FichasTecnicas/NTP/Ficheros/601a700/ntp_609.pdf
Herrington, J., Zhang, L., Whitaker, D., Sheldon, L. y Zhang, J. (2005). Optimizing dansylhydrazine (DNSH) based method for measuring airborne acrolein and other unsaturated carbonyls. Journal of Environment Monitoring, 7(10), 969-976. https://doi.org/10.1039/B502063H
Khare, P. P., Satsangi, P. G., Kumar, N. N., Kumari, M. M. y Srivastava, S. S. (1997). HCHO, HCOOH and CH3COOH in air and rainwater at a rural tropical site in North Central India. Atmospheric Environment, 31(23), 3867-3875. https://doi.org/10.1016/S1352-2310(97)00263-X
Luecken, D., Hutzell, W., Strum, M. y Pouliot, G. (2012). Regional sources of atmospheric formaldehyde and acetaldehyde, and implications for atmospheric modeling. Atmospheric Environment, 47, 477-490. https://doi.org/10.1016/j.atmosenv.2011.10.005
Luo, X., Yazdanpanah, M., Bhooi, N. y Lehotay, D. (1992). Determination of aldehydes and other lipid peroxidation products in biological samples by gas chromatography-mass spectrometry. Analytical Biochemmistry, 228(2), 294-298. https://doi.org/10.1006/abio.1995.1353
Mielke, L., Pratt, K., Shepson, P., McLuckey, S., Wisthaler, A. y Hansel, A. (2010). Quantitative determination of biogenic volatile organic compounds in the atmosphere using proton-transfer reaction linear ion trap mass spectrometry. Analytical Chemistry, 82(19), 7952-7957. https://doi.org/10.1021/ac1014244
Miller, J. y Miller, J. (2002). Estadística y Quimiometría para Química Analítica. Ediciones Pearson Education.
Muños, E. y Grau, M. (2013). Ingeniería Química. Ediciones Universidad Nacional de Educación a Distancia.
Peña, R., García, S., Herrero, C., Losada, M., Vásquez, A. y Lucas, T. (2002). Organic acids and aldehydes in rainwater in a northwest region of Spain. Atmospheric Environment, 36(34), 5277-5288. https://doi.org/10.1016/S1352-2310(02)00648-9
Peñuelas, J. y Llusià, J. (2002). Linking photorespiration, monoterpenes and thermotolerance in Quercus. New Phytologist, 155(2), 227-228. https://doi.org/10.1046/j.1469-8137.2002.00457.x
Pichersky, E. y Gershenzon, J. (2002). The formation and function of plant volatiles: perfumes for pollinator attraction and defense. Current Opinion in Plant Biology, 5(3), 237-243. https://doi.org/10.1016/s1369-5266(02)00251-0
Salazar, B. (2016). Evaluación de la concentración de aldehídos en el aire de la Reserva Biológica Monteverde y del Campus Omar Dengo de la Universidad Nacional, durante la época seca y la lluviosa. (Tesis de Licenciatura). Universidad Nacional, Costa Rica.
Seinfeld, J. y Pandis, S. (2006). Atmospheric Chemistry and Physics from Air Pollution to Climate Change. Ediciones John Wiley & Sons.
Sierra, I., Gómez, S., Pérez, D. y Morante, S. (2010). Análisis Instrumental. Algunas herramientas de enseñanza-aprendizaje adoptadas al Espacio Europeo de Educación Superior. Ediciones Gesbiblo.
Ramsey, M. H. y Ellison, S. L. (2007). Eurachem/EUROLAB/ CITAC/Nordtest/AMC Guide: Measurement uncertainty arising from sampling: a guide to methods and approaches. Ediciones Eurechem.
Taylor, J. K. (1983). Validation of analytical methods. Analytical Chemistry, 55(6), 600A-608A. https://doi.org/10.1021/ac00257a721
Triola, M. (2004). Estadística. Ediciones Pearson Education.
Vega, D. (2000). Aplicación de dos técnicas analíticas de muestreo para la determinación de aldehídos en aire y en agua de lluvia en tres zonas de Costa Rica. (Tesis de Maestría). Universidad Nacional, Costa Rica.
Wade, L. (2012). Química Orgánica. Ediciones Pearson Education.
Yu, Y., We, S., Lu, H., Feng, Y., Wang, X., Sheng, G. y Fu, J. (2008). Characteristics of atmospheric carbonyls and VOCs in Forest Park in South China. Environmental Monitoring and Assessment, 137(1-3), 275-285. https://doi.org/10.1007/s10661-007-9759-2
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