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Estimation of Water Erosion and the Transportation of Sediments in the Upper Basin of Cuxtepeques River, Chiapas, Mexico

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dc.contributor.authorGutierrez Lopez, Ricardospa
dc.contributor.authorMuciño Porras, Juan Joséspa
dc.contributor.authorArellano Monterrosas, Jose Luisspa
dc.contributor.authorGuichard Romero, Delva del Rocíospa
dc.contributor.authorAguilar Suárez, Miguel Ángelspa
dc.date.accessioned2020-12-31 14:30:36
dc.date.accessioned2022-06-17T20:20:55Z
dc.date.available2020-12-31 14:30:36
dc.date.available2022-06-17T20:20:55Z
dc.date.issued2020-12-31
dc.description.abstractChanges in land use and increased intensity of rainfall are factors of greater influence that accelerate the soil erosion process. The application of basin scale sedimentological models integrated to Geographic Information Systems (GIS), is a tool that allows the definition of critical zones, and of this the establishment of measures of control of processes of production and transport of sediments. This study evaluates the water erosion using the Universal Soil Loss Equation (USLE), five scenarios were studied: corresponding to the start of operations of the El Portillo II (1980) dam, and the before and after the two extreme events in the basin (September 1998 and October 2005). The transport of sediments was evaluated by regression, using full annually records (eight years) of flows of two gauging stations in the basin. Overall, variations in erosion rates were observed with changes in the vegetal coverage and statistical homogeneity in the gauging data, which allowed adjust them to a regression model, with correlation coefficient upper to 88%.spa
dc.description.abstractChanges in land use and increased intensity of rainfall are factors of greater influence that accelerate the soil erosion process. The application of basin scale sedimentological models integrated to Geographic Information Systems (GIS), is a tool that allows the definition of critical zones, and of this the establishment of measures of control of processes of production and transport of sediments. This study evaluates the water erosion using the Universal Soil Loss Equation (USLE), five scenarios were studied: corresponding to the start of operations of the El Portillo II (1980) dam, and the before and after the two extreme events in the basin (September 1998 and October 2005). The transport of sediments was evaluated by regression, using full annually records (eight years) of flows of two gauging stations in the basin. Overall, variations in erosion rates were observed with changes in the vegetal coverage and statistical homogeneity in the gauging data, which allowed adjust them to a regression model, with correlation coefficient upper to 88%.eng
dc.format.mimetypeapplication/pdfeng
dc.identifier.doi10.24050/reia.v18i35.1445
dc.identifier.eissn2463-0950
dc.identifier.issn1794-1237
dc.identifier.urihttps://repository.eia.edu.co/handle/11190/5125
dc.identifier.urlhttps://doi.org/10.24050/reia.v18i35.1445
dc.language.isoengeng
dc.publisherFondo Editorial EIA - Universidad EIAspa
dc.relation.bitstreamhttps://revistas.eia.edu.co/index.php/reveia/article/download/1445/1395
dc.relation.citationeditionNúm. 35 , Año 2021spa
dc.relation.citationendpage14
dc.relation.citationissue35spa
dc.relation.citationstartpage35013 pp. 1
dc.relation.citationvolume18spa
dc.relation.ispartofjournalRevista EIAspa
dc.relation.referencesArellano-Monterrosas, J. L. (1994). Degradación del Suelo por Erosión Hídrica en Chiapas: Evaluación y Principios Tecnológicos para su Control, tesis (Ingeniero Agrónomo), México, Universidad Autónoma de Chapingo, pp. 149-251.eng
dc.relation.referencesArellano-Monterrosas, J. L. (2005). Apropiación Territorial, Degradación Ambiental y Gestión de Recursos Hídricos en la Cuenca Superior del río Custepec, Chiapas, tesis (Maestría en Ciencias), México, Universidad Autónoma de Chapingo, pp. 46-481.eng
dc.relation.referencesBauman, J. and Arellano-Monterrosas, J. L. (2003). Measuring Rainfall Erosivity Characteristics and Annual R-Factors for Adjustment of the USLE in a Tropical Climate. In: 25 years of assessment of erosion-proccedings. Gheat, Belgium. D. Gabriels and W. Cornelis (eds.), pp. 69-74.eng
dc.relation.referencesCampos-Aranda, D. F. (2010). Verificación de la Homogeneidad Regional Mediante Tres Pruebas Estadísticas. Tecnología y Ciencias del Agua, 1(4) octubre-diciembre, pp. 157-165. Disponible en: http://www.revistatyca.org.mx/ojs/index.php/tyca/article/view/78.eng
dc.relation.referencesCampos-Aranda, D. F. (2011). Estimación de Envolventes de Diseño por Subregiones Hidrológicas. Tecnología y Ciencias del Agua, 2(4) octubre-diciembre, pp. 175-194. Disponible en: http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S2007-24222011000400012&lng=es&nrm=iso .eng
dc.relation.referencesCastro-Quintero, A. F., Lince-Salazar, L. A. y Riñao-Melo, O. (2017). Determinación del Riesgo a la Erosión Potencial Hídrica en la Zona Cafetera del Quindío, Colombia. Revista de Investigación Agraria y Ambiental, [e-journal] 8(1) enero-junio, pp. 17-26. Disponible en: https://doi.org/10.22490/21456453.1828.eng
dc.relation.referencesChallenger, A. y Dirzo, R. (2009). Estado de Conservación y Tendencia de Cambio, Primera parte: Factores de cambio y estado de la biodiversidad, En: CONABIO: Capital Natural de México, Vol. 2, México, pp. 35-73.eng
dc.relation.referencesCORTOLIMA (2006). Fase de diagnóstico: Pérdida de Suelos. En: Plan de Ordenación y Manejo de la Cuenca Hidrográfica Mayor del Río Totare [e-book]. Ibagué, Colombia: Coorporación Regional Autónoma de Tolima, pp. 834-838. Disponible en: http://www.cortolima.gov.co/sites/default/files/images/stories/centro_documentos/pom_totare/diagnostico/m_212perdida_de_suelos_totare.pdf.eng
dc.relation.referencesCuevas, M. L., Garrido, A., Pérez-Damián, J. L. y Iura-González, D. (2010). Procesos de Cambio de Uso de Suelo y Degradación de la Vegetación Natural, En: INECC: Las Cuencas Hidrográficas de México, pp. 96-103.eng
dc.relation.referencesDesmet, P. y, Govers, G. (1996). A GIS Procedure for Automatically Calculating the USLE LS Factor on Topographically Complex Landscape Units. Journal of Soil and Water Conservation, 51(5), pp. 427-433. Available at: http://search.ebscohost.com/login.aspx?direct=true&db=edsagr&AN=edsagr.US9633753&lang=es&site=eds-live.eng
dc.relation.referencesDurigón, V. L., Antunes, M. H., Sánchez de Oliveira, P. T., Fonseca de Carvalho, D. and Fernándes, M. M. (2014). NDVI Time Series for Monitoring RUSLE Cover Management Factor in a Tropical Watershed. International Journal of Remote Sensing, [e-journal] 35(2), pp. 441-453. Available at: https://doi.org/10.1080/01431161.2013.871081.eng
dc.relation.referencesESRI (Enviromental System Research Institute), 2017. ArcGis Desktop/ArcMap 10. [Computer Program]. Redlands, California, U.S.A.: Enviromental System Research Institute Inc.eng
dc.relation.referencesFabián-Rivera, J. G., Mejía-Zermeño, R., Soto-Cortéz, G. y Val-Segura, R. (2005). Aspectos de la Medición de Sedimentos. En: Rivera-Trejo, F., Gutiérrez-López, A., Val-Segura, R., Mejía-Zermeño, R., Sánchez-Ruiz, P. A., Aparicio-Mijares, J., y Díaz-Flores, L. L., eds. La Medición de Sedimentos en México. Jiutepec, Morelos: IMTA-UJAT, pp. 11-15.eng
dc.relation.referencesFAO. (2006). World Reference Base for Soil Resources 2006. A Framework for International Classification, Correlation and Communication, Roma, FAO, 2006.eng
dc.relation.referencesFlores-López, H. E., Martínez-Menes, M., Oropeza-López, J. L., Mejía-Saens, E. y Carrillo-González, R. (2003). Integración de la EUPS a un SIG para Estimar la Erosión Hídrica del Suelo en Una Cuenca Hidrográfica de Tepatitlán, Jalisco, México. Terra Latinoamericana, 21(2) abril-junio, pp. 233-244. Disponible en: https://www.redalyc.org/articulo.oa?id=573/57315595010.eng
dc.relation.referencesGottschalk, C. L. (1964). Sedimentation. Part. I. Reservoir Sedimentation, In: Chow, V. T. Handbook of Applied Hydrology: A Compendium of Water-Resources Technology, Section 17-I, New York: McGraw-Hill, pp. 1418.eng
dc.relation.referencesHexagón Geospatial, 2017. Erdas Imagine 8.3. [Computer Program] Stockholm, Sweden: Hexagon AB Inc.eng
dc.relation.referencesKrysanova, V., Williems, J., Bürger, G. and Ósterle, H. (2002). The Linkage Between Hydrological Processes and Sediment Transport at The River Basin Scale: A Modelling Study, In: Summer, W. y Walling, D. E., eds. Modelling Erosion, Sediment Transport and Sediment Yield, Thechnical Documents in Hydrology. No. 60. Paris, France: UNESCO-IHP, pp. 147-174.eng
dc.relation.referencesPereyra-Díaz, D., Gómez-Romero, L. y Loeza-Hernández, F. (2005). Pérdida de Suelo por Erosión Hídrica, En: Rivera-Trejo, F., Gutiérrez-López, A., Val-Segura, R., Mejía-Zermeño, R., Sánchez-Ruiz, P. A., Aparicio-Mijares, J., y Díaz-Flores, L. L., eds. La Medición de Sedimentos en México. Jiutepec, Morelos: IMTA-UJAT, pp. 61-84.eng
dc.relation.referencesPérez-Nieto, S. (2013). Erosión Hídrica en Cuencas Costeras de Chiapas y Estrategias para su Restauración Hidrológico Ambiental, tesis (Doctorado en Ingeniería), México, Colegio de Posgraduados, pp. 2.53-2.67.eng
dc.relation.referencesSecretaría de Recursos Hidráulicos. (1972). Segunda Parte: Datos Hidrométricos y de Acarreo de Azolves en Suspensión, En: Boletín Hidrológico Núm. 38: Regiones Hidrológicas Núm. 30 (Grijalva Usumacinta), Núm. 31 (Yucatán oeste), Núm. 32 (Yucatán norte) y Núm. 33 (Yucatán este), Tomo I. México, D. F.eng
dc.relation.referencesUSGS (United States Geological Survey). (2018). GloVis. (United States Department of the Interior). https://glovis.usgs.gov/app.eng
dc.relation.referencesWalling, D. E. (2009). The Impact of Global Change on Erosion and Sediment Transport by Rivers: Current Progress and Future Challenges. The United Nations World Water Assessment Program. Scientific Paper. Paris, France: UNESCO-IHP, pp. 2-22.eng
dc.relation.referencesWischmeier, W. H. y, Smith, D. D. (1978). Agriculture Handbook 537: Predicting Rainfall Erosion Losses, a Guide to Conservation Planning, Washington DC, USA: United States Department of Agriculture, pp. 4-34.eng
dc.rightsRevista EIA - 2020eng
dc.rights.accessrightsinfo:eu-repo/semantics/openAccesseng
dc.rights.coarhttp://purl.org/coar/access_right/c_abf2eng
dc.rights.creativecommonsEsta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-SinDerivadas 4.0.eng
dc.rights.urihttps://creativecommons.org/licenses/by-nc-nd/4.0eng
dc.sourcehttps://revistas.eia.edu.co/index.php/reveia/article/view/1445eng
dc.subjectLand useeng
dc.subjectWater Erosioneng
dc.subjectBasineng
dc.subjectGISeng
dc.subjectSedimentseng
dc.subjectUSLEeng
dc.subjectExtreme Eventseng
dc.subjectPlant Covereng
dc.subjectStatistic Homogeneityeng
dc.subjectCorrelationeng
dc.subjectLand usespa
dc.subjectWater Erosionspa
dc.subjectBasinspa
dc.subjectGISspa
dc.subjectSedimentsspa
dc.subjectUSLEspa
dc.subjectExtreme Eventsspa
dc.subjectPlant Coverspa
dc.subjectStatistic Homogeneityspa
dc.subjectCorrelationspa
dc.titleEstimation of Water Erosion and the Transportation of Sediments in the Upper Basin of Cuxtepeques River, Chiapas, Mexicospa
dc.title.translatedEstimation of Water Erosion and the Sediment Transportation in the Upper Basin of Cuxtepeques River, Chiapas, Mexicoeng
dc.typeArtículo de revistaspa
dc.typeJournal articleeng
dc.type.coarhttp://purl.org/coar/resource_type/c_6501eng
dc.type.coarhttp://purl.org/coar/resource_type/c_6501eng
dc.type.coarversionhttp://purl.org/coar/version/c_970fb48d4fbd8a85eng
dc.type.contentTexteng
dc.type.driverinfo:eu-repo/semantics/articleeng
dc.type.redcolhttp://purl.org/redcol/resource_type/ARTREFeng
dc.type.versioninfo:eu-repo/semantics/publishedVersioneng
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