EVALUACIÓN DEL CONTENIDO DE HUMEDAD DEL SUELO POR GRAVIMETRÍA Y REFLECTOMETRÍA
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Publicado:
sep 4, 2016
Palabras clave:
Humedad del suelo; método gravimétrico; profundidad del suelo; TDR
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Resumen
En suelos arcillosos, el uso o restricción de equipos basados en Reflectometría de Dominio Temporal para la determinación de la humedad del suelo, tiene que ser realizado previo a una evaluación y calibración de los equipos.
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1.
Pablo Quichimbo, Guamán J, Cajamarca M, Aguirre AJ. EVALUACIÓN DEL CONTENIDO DE HUMEDAD DEL SUELO POR GRAVIMETRÍA Y REFLECTOMETRÍA. EEC [Internet]. 4 de septiembre de 2016 [citado 24 de abril de 2024];4(1). Disponible en: https://revistaecuadorescalidad.agrocalidad.gob.ec/revistaecuadorescalidad/index.php/revista/article/view/25
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Artículos Científicos
Citas
K. Noborio (2001) “Measurement of soil water content and electrical conductivity by time domain reflectometry: a review”, Comput. Electron. Agric. 31(3), 213–237.
R. Černý (2009) “Time-domain reflectometry method and its application for measuring moisture content in porous materials: A review”, Measurement. 42(3), 329–336.
S. S. Zanetti, R. A. Cecílio, V. H. Silva, E. G. Alves (2015) “General calibration of TDR to assess the moisture of tropical soils using artificial neural networks”, J. Hydrol. 530, 657–666.
S. B. Jones, J. M. Wraith, D. Or (2002) “Time domain reflectometry measurement principles and applications”, Hydrol. Process. 16(1), 141–153.
Y. Zhao, D. Ling, Y. Wang, B. Huang, H. Wang (2016) “Study on a calibration equation for soil water content in field tests using time domain reflectometry”, J. Zhejiang Univ. Sci. A. 17(3), 240–252.
Campbell Scientific Inc. (2016) "CS650 and CS655 Water Content Reflectometers, Instruction Manual", Revision: 6/16. Utah, US. Campbell Scientific, Inc., 2012-2016.
J. L. Davis, W. J. Chudoviak (1975) “In situ meter for measuring relative permitive of soil”, Geological Survey of Canada, Otawa, ONT, Canada, Rep. Project 630049.
G. C. Topp, J. L. Davis, A. P. Annan (1980) “Electromagnetic Determination of Soil Water Content: Measurements in Coaxial Transmission Lines”, Water Resour. Res. 16(3), 574–582.
J. Ledieu, P. De Ridder, P. D. E. Clerck, S. Dautrebande (1989) “A method of measuring soil moisture by time-domain reflectometry”, J. Hydrol. 88, 319–328.
D. C. Nielsen, H. J. Lagae, R. L. Anderson (1995) “Time-Domain Reflectometry Measurements of Surface Soil Water Content”, Soil Sci. Soc. Am. J. 59(1), 103–105.
D. A. Robinson, S. B. Jones, J. M. Wraith, D. Or, S. P. Friedman (2003) “A Review of Advances in Dielectric and Electrical Conductivity Measurement in Soils Using Time Domain Reflectometry”, Vadose Zo. J. 2, 444–475.
K. Roth, R. Schulin, H. Flühler, W. Attinger (1990) “Calibration of Time Domain Reflectometry for water content measurement using a composite dielectric approach”, Water Resources Research. 26(10), 2267–2273.
W. Skierucha (2000) “Accuracy of soil moisture measurement by TDR technique”, Int. Agrophysics. 14, 417–426.
S. H. Jackson (2004) “In situ calibration of time domain reflectometry sensors in multiple soils”, Commun. Soil Sci. Plant Anal. 35(5–6), 865–878.
M. A. J. Inzunza Ibarra, M. A. Inzunza Ibarra, E. A. Catalan Valencia, M. Villa Casorena, Ma, G. Delgado Ramirez (2012) “Calibracion de TDR para estimar el contenido de humedad volumentrica en el suelo”, AGROFAZ. 12(3), 59–65.
Instituto Espacial Ecuatoriano (2012) “Generación de Geoinformación para la Gestión del Territorio a Nivel Nacional a escala 1:25000: información de Geopedología en formato shp”, Centro de Levantamientos Integrados de Recursos Naturales por Sensores Remotos (CLIRSEN), Quito, EC.
S. Shapiro, M. Wilk (1964) “An analysis of variance test for normality (complete samples)”, Biometrika. 52(3), 591–611.
M. S. Bartlett (1992) “Properties of Sufficiency and Statistical Tests”, in Breakthroughs in Statistics: Foundations and Basic Theory, S. Kotz and N. L. Johnson, Eds. New York, NY: Springer New York, pp. 113–126.
R. D. Cook (2000) “Detection of Influential Observation in Linear Regression”, Technometrics. 42(1), 65–68.
G. Box, D. Cox (1964) “An analysis of transformations”, J. R. Stat. Soc. Series B. 26(2), 211–252.
R. Sakia (1992) “The Box-Cox transformation technique: a review”, J. R. Stat. Soc. Series D. 41(2), 169–178.
O. J. Dunn (1961) “Multiple Comparisons Among Means”, J. Am. Stat. Assoc. 56(293), 52–64.
R. Lal, M. Shukla (2004) "Principles of soil physics", 1st Edition. New York, US, Marcel Dekker, pp. 390-391.
R. Černý (2009) “Time-domain reflectometry method and its application for measuring moisture content in porous materials: A review”, Measurement. 42(3), 329–336.
S. S. Zanetti, R. A. Cecílio, V. H. Silva, E. G. Alves (2015) “General calibration of TDR to assess the moisture of tropical soils using artificial neural networks”, J. Hydrol. 530, 657–666.
S. B. Jones, J. M. Wraith, D. Or (2002) “Time domain reflectometry measurement principles and applications”, Hydrol. Process. 16(1), 141–153.
Y. Zhao, D. Ling, Y. Wang, B. Huang, H. Wang (2016) “Study on a calibration equation for soil water content in field tests using time domain reflectometry”, J. Zhejiang Univ. Sci. A. 17(3), 240–252.
Campbell Scientific Inc. (2016) "CS650 and CS655 Water Content Reflectometers, Instruction Manual", Revision: 6/16. Utah, US. Campbell Scientific, Inc., 2012-2016.
J. L. Davis, W. J. Chudoviak (1975) “In situ meter for measuring relative permitive of soil”, Geological Survey of Canada, Otawa, ONT, Canada, Rep. Project 630049.
G. C. Topp, J. L. Davis, A. P. Annan (1980) “Electromagnetic Determination of Soil Water Content: Measurements in Coaxial Transmission Lines”, Water Resour. Res. 16(3), 574–582.
J. Ledieu, P. De Ridder, P. D. E. Clerck, S. Dautrebande (1989) “A method of measuring soil moisture by time-domain reflectometry”, J. Hydrol. 88, 319–328.
D. C. Nielsen, H. J. Lagae, R. L. Anderson (1995) “Time-Domain Reflectometry Measurements of Surface Soil Water Content”, Soil Sci. Soc. Am. J. 59(1), 103–105.
D. A. Robinson, S. B. Jones, J. M. Wraith, D. Or, S. P. Friedman (2003) “A Review of Advances in Dielectric and Electrical Conductivity Measurement in Soils Using Time Domain Reflectometry”, Vadose Zo. J. 2, 444–475.
K. Roth, R. Schulin, H. Flühler, W. Attinger (1990) “Calibration of Time Domain Reflectometry for water content measurement using a composite dielectric approach”, Water Resources Research. 26(10), 2267–2273.
W. Skierucha (2000) “Accuracy of soil moisture measurement by TDR technique”, Int. Agrophysics. 14, 417–426.
S. H. Jackson (2004) “In situ calibration of time domain reflectometry sensors in multiple soils”, Commun. Soil Sci. Plant Anal. 35(5–6), 865–878.
M. A. J. Inzunza Ibarra, M. A. Inzunza Ibarra, E. A. Catalan Valencia, M. Villa Casorena, Ma, G. Delgado Ramirez (2012) “Calibracion de TDR para estimar el contenido de humedad volumentrica en el suelo”, AGROFAZ. 12(3), 59–65.
Instituto Espacial Ecuatoriano (2012) “Generación de Geoinformación para la Gestión del Territorio a Nivel Nacional a escala 1:25000: información de Geopedología en formato shp”, Centro de Levantamientos Integrados de Recursos Naturales por Sensores Remotos (CLIRSEN), Quito, EC.
S. Shapiro, M. Wilk (1964) “An analysis of variance test for normality (complete samples)”, Biometrika. 52(3), 591–611.
M. S. Bartlett (1992) “Properties of Sufficiency and Statistical Tests”, in Breakthroughs in Statistics: Foundations and Basic Theory, S. Kotz and N. L. Johnson, Eds. New York, NY: Springer New York, pp. 113–126.
R. D. Cook (2000) “Detection of Influential Observation in Linear Regression”, Technometrics. 42(1), 65–68.
G. Box, D. Cox (1964) “An analysis of transformations”, J. R. Stat. Soc. Series B. 26(2), 211–252.
R. Sakia (1992) “The Box-Cox transformation technique: a review”, J. R. Stat. Soc. Series D. 41(2), 169–178.
O. J. Dunn (1961) “Multiple Comparisons Among Means”, J. Am. Stat. Assoc. 56(293), 52–64.
R. Lal, M. Shukla (2004) "Principles of soil physics", 1st Edition. New York, US, Marcel Dekker, pp. 390-391.