Monitoring soil volume wetness in heterogeneous soils by electrical resistivity. A field-based pedotransfer function

Journal of Hydrology

Volumn 516, Issue , 2014, Pages 56-66

  Brillante, Luca ^a   Bois, Benjamin ^a,b   Mathieu, Olivier ^a   Bichet, Vincent ^c   Michot, Didier ^d,e   Lévêque, Jean ^a  

^a UNIVERSITÉ DE BOURGOGNE   (France)

^b UNIVERSITÉ DE BOURGOGNE   (France)

^c UNIVERSITÉ DE FRANCHE COMTÉ   (France)

^d AGROCAMPUS OUEST   (France)

^e UNIVERSITÉ EUROPÉENNE DE BRETAGNE   (France)

Author keywords

Electrical Resistivity Tomography (ERT); Grapevine; Hillslope; Pedotransfer function; Soil moisture; Time Domain Reflectometry (TDR)

Indexed keywords

CALCITE; CALCIUM CARBONATE; CALIBRATION; COST EFFECTIVENESS; ELECTRIC CONDUCTIVITY; HYDRAULIC CONDUCTIVITY; ORGANIC CARBON; PERMITTIVITY MEASUREMENT; REFLECTION; REFLECTOMETERS; SOIL MOISTURE; TEXTURES; TIME DOMAIN ANALYSIS;

ELECTRICAL RESISTIVITY TOMOGRAPHY; GRAPEVINE; HILLSLOPES; PEDO-TRANSFER FUNCTIONS; TIME DOMAIN REFLECTOMETRY;

SOIL SURVEYS;

CAMBISOL; CATION EXCHANGE CAPACITY; DATA ACQUISITION; ELECTRICAL RESISTIVITY; HILLSLOPE; IRRIGATION SYSTEM; PEDOTRANSFER FUNCTION; PH; SOIL MOISTURE; TIME DOMAIN REFLECTOMETRY; VINEYARD;

VITIS;

EID: 84945173653     PISSN: 00221694     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhydrol.2014.01.052     Document Type: Article

References (49)

1. AFNOR, 2003. NF X 31-107 standard, Qualite´ des sols, Analyse granulome´trique par se´dimentation, Me´thode de la pipette (in French).
2. Amato M., Basso B., Celano G., Bitella G., Morelli G., Rossi R. In situ detection of tree root distribution and biomass by multi-electrode resistivity imaging. Tree Physiol. 2008, 28:1441-1448.
3. Archie G.E. The electrical resistivity log as an aid in determining some reservoir characteristics. Trans. AIME 1942, 146:54-62.
4. Attia Al Hagrey S. Geophysical imaging of root-zone, trunk, and moisture heterogeneity. J. Exp. Bot. 2007, 58:839-854.
5. Besson A., Cousin I., Bourennane H., Nicoullaud B., Pasquier C., Richard G., Dorigny A., King D. The spatial and temporal organization of soil water at the field scale as described by electrical resistivity measurements. Eur. J. Soil Sci. 2010, 61:120-132.
6. Bernard-Ubertosi M., Dudoignon P., Pons Y. Characterization of structural profiles in clay-rich marsh soils by cone resistance and resistivity measurements. Soil Sci. Soc. Am. J. 2009, 73:46-54.
7. Brunet P., Cle´ment R., Bouvier C. Monitoring soil water content and deficit using Electrical Resistivity Tomography (ERT) - a case study in the Cevennes area, France. J. Hydrol. 2010, 380:146-153.
8. Calamita G., Brocca L., Perrone A., Piscitelli S., Lapenna V., Melone F., Moramarco T. Electrical resistivity and TDR methods for soil moisture estimation in central Italy test-sites. J. Hydrol. 2012, 454-455:101-112.
9. Campbell R.B., Bower C.A., Richards L.A. Change of electrical conductivity with temperature and the relation of osmotic pressure to electrical conductivity and ion concentration for soil extracts. Soil Sci. Soc. Am. Proc. 1948, 13:66-69.
10. Ciesielski H., Sterckeman T. A comparison between three methods for the determination of cation exchange capacity and exchangeable cations in soils. Agronomie 1997, 17:9-16.
11. Dingman S.L. Physical Hydrology 1994, Prentice Hall, Upper Saddle River, New Jersey, 575 pp.
12. Doussan C., Ruy S. Prediction of unsaturated soil hydraulic conductivity with electrical conductivity. Water Resour. Res. 2009, 45:W10408. 10.1029/2008WR007309.
13. FAO, 2006. World reference base for soil resources. 128 pp.
14. FAO, 2011. Save and grow. A Policymaker's Guide to the Sustainable Intensification of Smallholder Crop Production. 102 pp.
15. Friedman S.P. Soil properties influencing apparent electrical conductivity: a review. Comput. Electron. Agric. 2005, 46:45-70.
16. Friedman J.H. Multivariate adaptive regression splines. Ann Stat 1991, 19(1):1-67.
17. Frohlich R.K., Parke C.D. The electrical resistivity of the vadose zone-Field Survey. Ground Water 1989, 27:524-530.
18. Garre´ S., Javaux M., Vanderborght J., Page`s L., Vereecken H. Three-dimensional electrical resistivity tomography to monitor root zone water dynamics. Vadose Zo. J. 2011, 10:412-424.
19. Giao P., Chung S., Kim D., Tanaka H. Electric imaging and laboratory resistivity testing for geotechnical investigation of Pusan clay deposits. J. Appl. Geophys. 2003, 52:157-175.
20. Gupta S.C., Hanks R.J. Influence of water content on electrical conductivity of the soil. Soil Sci. Soc. Am. Proc. 1972, 36:855-857.
21. Hadzick Z.Z., Guber A.K., Pachepsky Y.A., Hill R.L. Pedotransfer functions in soil electrical resistivity estimation. Geoderma 2011, 164:195-202.
22. Hastie T., Tibshiranini R., Friedman J.H. The Element of Statistical Learning 2009, Springer, Netherlands, 745 pp. second ed.
23. Hillel D. Environmental Soil Physics 1998, Academic Press, San Diego, 771 pp.
24. Illiceto, V., 1969. Contribution a la prospection ge´ophysique des sites arche´ologiques, Ph.D. thesis, Univ. de Paris, Paris.
25. Jayawickreme D.H., Van Dam R.L., Hyndman D.W. Hydrological consequences of land-cover change: quantifying the influence of plants on soil moisture with time-lapse electrical resistivity. Geophysics 2010, 75:WA43-WA50.
26. Kuhn, M., Wing, J., Weston, S., Williams, A., Keefer, C., Engelhardt, A., Cooper, T., 2013. Caret: Classification and Regression Training. R package version 5.17-7. . http://CRAN.R-project.org/package=caret.
27. Laloy E., Javaux M., Vanclooster M., Roisin C., Bielders C.L. Electrical resistivity in a loamy soil: identification of the appropriate pedo-electrical model. Vadose Zo. J. 2011, 10:1023-1033.
28. Loke, M.H., 2013. Tutorial: 2-D and 3-D Electrical Imaging Surveys. Geotomo Software SDN. BHD. 162pp.
29. Linde N., Binley A., Tryggvason A., Pedersen L.B., Revil A. Improved hydrogeophysical characterization using joint inversion of cross-hole electrical resistance and ground-penetrating radar traveltime data. Water Resour. Res. 2006, 42:W12404.
30. MEA, 2005. Ecosystems and Human Well-Being: Current State and Trends: Findings of the Condition and Trends Working Group. Island Press. 917pp.
31. Metson, A.J., 1956. Methods of Chemical Analysis for Soil Survey Samples. N. Z. Soil Bur Bull No. 12.
32. Michot D., Benderitter Y., Dorigny A., Nicoullaud B., King D., Tabbagh A. Spatial and temporal monitoring of soil water content with an irrigated corn crop cover using surface electrical resistivity tomography. Water Resour. Res. 2003, 39(5):1138.
33. Milborrow, S., 2013. Derived from mda: mars by Trevor Hastie and Rob Tibshirani. Uses Alan Miller's Fortran utilities with Thomas Lumley's leaps wrapper. earth: Multivariate Adaptive Regression Spline Models. R package version 3.2-6.
34. Nadler A., Frenkel H. Determination of soil solution electrical conductivity from bulk soil electrical conductivity measurements by the four electrode method. Soil Sci. Soc. Am. J. 1980, 44(1980):1216-1221.
35. R Core Team 2012. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. ISBN 3-900051-07-0. . http://www.R-project.org/.
36. Revil A., Glover P.W.J. Nature of surface electrical conductivity in natural sands, sandstones and clay. Geophys. Res. Lett. 1998, 25:691-694.
37. Robinson D.A., Campbell C.S., Hopmans J.W., Hornbuckle B.K., Jones S.B., Knight R., Ogden F., Selker J., Wendroth O. Soil moisture measurement for ecological and hydrological watershed-scale observatories: a review. Vadose Zo. J. 2008, 7:358-389.
38. Samouelian A., Cousin I., Tabbagh A., Bruand A., Richard G. Electrical resistivity survey in soil science: a review. Soil Tillage Res. 2005, 83:173-193.
39. Schwartz B.F., Schreiber M.E., Yan T. Quantifying field-scale soil moisture using electrical resistivity imaging. J. Hydrol. 2008, 362:234-246.
40. Seneviratne S.I., Corti T., Davin E.L., Hirschi M., Jaeger E.B., Lehner I., Orlowsky B., Teuling A.J. Investigating soil moisture-climate interactions in a changing climate: a review. Earth-Sci. Rev. 2010, 99:125-161.
41. Shah, P.H., Singh, D.N., 2005. Generalized Archie' s Law for Estimation of Soil Electrical Conductivity. JAI 2:5, 20pp.
42. Srayeddin I., Doussan C. Estimation of the spatial variability of root water uptake of maize and sorghum at the field scale by electrical resistivity tomography. Plant Soil 2009, 319:185-207.
43. Tabbagh A., Dabas M., Hesse A., Panissod C. Soil resistivity: a non-invasive tool to map soil structure horizonation. Geoderma 2000, 97:393-404.
44. Tetegan M., Pasquier C., Besson A., Nicoullaud B., Bouthier A., Bourennane H., Desbourdes C., King D., Cousin I. Field-scale estimation of the volume percentage of rock fragments in stony soils by electrical resistivity. Catena 2012, 92:67-74.
45. Topp G.C., Davis J.L., Annan A.P. Electromagnetic determination of soil water content: measurements in coaxial transmission lines. Water Resour. Res. 1980, 16(3):574-582.
46. UNESCO, 2012. Managing Water Under Uncertainty and Risk. The United Nations World Water Development Report 4. vol. 1, 866pp.
47. Waxman M.H., Smits L.J.M. Electrical conductivities in oil-bearing shaly sands. Soc. Pet. Eng. J. 1968, 8:107-122.
48. Wo¨sten J.H.M., Pachepsky Y.A., Rawls W.J. Pedotransfer functions: bridging the gap between available basic soil data and missing soil hydraulic characteristics. J. Hydrol. 2001, 251:123-150.
49. Zhou Q.Y., Shimada J., Sato A. Three-dimensional spatial and temporal monitoring of soil water content using electrical resistivity tomography. Water Resour. Res. 2001, 37(2):273-285.