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Konferencja
International Conference on Environment and Electrical Engineering (17 ; 06-09.06.2017 ; Milan, Italy)
Języki publikacji
Abstrakty
This paper presents the study of the relationship between electrical properties and physical characteristics of the soil. Measures of apparent electrical resistivity of the soil were made for different types of soil, varying moisture content gradually while maintaining a constant compaction, and then varying the compaction and relating it to a constant humidity. Development of a correlation surface is proposed in order to identify granulometry of the soil from moisture and compaction measurements. For the study of spatial variability, two areas were chosen to allow the change of moisture content and compaction in order to verify the measurement capacity of apparent electrical resistivity of the soil as methodology to identify change in soil dynamics. Results obtained show correlations among apparent electrical resistivity of the soil, moisture, soil compaction and clay content.
Wydawca
Rocznik
Tom
Strony
37--44
Opis fizyczny
Bibliogr. 11 poz., rys.
Twórcy
autor
- Federal University of Goias, Brazil
autor
- Federal University of Goias, Brazil
autor
- Federal University of Goias, Brazil
autor
- Federal University of Goias, Brazil
autor
- Federal University of Goias, Brazil
autor
- Federal University of Goias, Brazil
autor
- Brazilian Agricultural Research Corporation, Ministry of Agriculture, Brazil
Bibliografia
- [1] E.D. Lund, P.E. Colin, D. Christy, and P.E. Drummond. Applying Soil Electrical Conductivity Technology to Precision Agriculture. Saint Paul: Proceedings ASA/CSSA/SSSA, 1998.
- [2] A. Tabbagh, M. Dabas, A. Hesse, and C. Panissod. Soil resistivity: A Non-invasive Tool to Map Soil Structure Horizontal. Geoderma, vol.97, p. 393-404, 2000.
- [3] E.L. Eisenreich. Electrical Conductivity Mapping for Precision Agriculture. Proceedings. Montpellier, Ecole National Superiure Agronomique: European Conference on Precision Agriculture, v. 3, 2001.
- [4] A.M. Silva Filho, G.P. Furriel, W.P. Calixto, A.J. Alves, F.A. Profeta, J.L. Domingos, E.G. Domingues, and M.G. NARCISO. Methodology to Correlate the Humidity, Compaction and Soil Apparent Electrical Conductivity. IEEE Congreso Chileno de Ingenieria Electrica, Electronica, Tecnologias de la Informacion y Comunicaciones (IEEE CHILECON 2015), 2015, Santiago. ACTAS de IEEE Chilecon 2015, Universidad Central de Chile, p. 1-7, 2015.
- [5] D.L. Corwin and S.M. Lesch. Application of soil electrical conductivity to Precision Agriculture:Theory, Principles, and Guidelines. Agronomy Journal, v. 95, n. 3, 2003.
- [6] S.P. Friedman. Soil properties influencing apparent electrical conductivity: a review. Computers and electronics in agriculture, 2005.
- [7] W.M. Telford, L.P. Geldart, and R.E. Sheriff. Applied Geophysics, Cambridge University Press, 1990.
- [8] J.D. Rhoades, and R.D. Ingvalson. Determining Salinity in Soils with Soil Resistance Measurements. Soil Science of American Proceedings, vol. 35, 1971.
- [9] O. Banton, M.K. Seguin, and M.A. Cimon. Mapping Field-Scale Physical Properties of Soil with Electrical Resistivity. Soil Science Societies American Journal, vol. 61, 1a. ed. SSSAJ, 1997.
- [10] B.G. Williams, and D. Hoey. The use of electromagnetic Induction to Detect the Spatial Variability of the Salt and Clay Content of Soil. Australian Journal of Research, v. 25, n. 1, p. 21-7, Melbourne, 1987.
- [11] W.P. Calixto, A.P. Coimbra, B. Alvarenga, J.P. Molin, A. Cardoso, and L. Martins Neto. 3-D Soil Stratification Methodology for Geoelectrical Prospection. IEEE Transactions on Power Delivery, v. 27, p. 1636-1643, 2012.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
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