Geoscience Reference
In-Depth Information
Brune, D.E., Drapcho, C.M., Radcliff, D.E., Harter, T., and Zhang, R., Electromagnetic survey to rapidly
assess water quality in agricultural watersheds, ASAE Paper No. 992176, ASAE, St. Joseph, MI, 1999.
Brus, D.J., Knotters, M., van Dooremolen, W.A., van Kernebeek, P., and van Seeters, R.J.M., The use of
electromagnetic measurements of apparent soil electrical conductivity to predict the boulder clay depth,
Geoderma
, 55, 79-93, 1992.
Bullock, D.S., and Bullock, D.G., Economic optimality of input application rates in precision farming,
Prec.
Agric.
, 2, 71-101, 2000.
Burger, H.R.,
Exploration Geophysics of the Shallow Subsurface
, Prentice Hall PTR, Upper Saddle River,
NJ, 1992.
Cameron, D.R., de Jong, E., Read, D.W.L., and Oosterveld, M., Mapping salinity using resistivity and electro-
magnetic inductive techniques,
Can. J. Soil Sci.
, 61, 67-78, 1981.
Cannon, M.E., McKenzie, R.C., and Lachapelle, G., Soil-salinity mapping with electromagnetic induction and
satellite-based navigation methods,
Can. J. Soil Sci.
, 74, 335-343, 1994.
Carter, L.M., Rhoades, J.D., and Chesson, J.H.. Mechanization of soil salinity assessment for mapping, ASAE
Paper No. 931557, 1993 ASAE Winter Meetings, 12-17 December 1993, Chicago, IL, ASAE, St. Joseph,
MI, 1993.
Chanzy, A., Judge, A., Bonn, F., and Tarussov, A., Soil water content determination using a digital ground
penetrating radar,
Soil Sci. Soc. Am. J.
, 60, 1318-1326, 1996.
Chernyak, G.Y., Dielectric methods for investigating moist soils, in
Works of the All-Union Research Institute
of Hydrology and Engineering Geology
, Ogil'vi, N.A., Ed., New Ser. No. 5, Israel Program for Scientific
Translations, Jerusalem, Israel, 1964.
Cook, P.G., and Kilty, S., A helicopter-borne electromagnetic survey to delineate groundwater recharge rates,
Water Resour. Res.
, 28, 2953-2961, 1992.
Cook, P.G., and Walker, G.R., Depth profiles of electrical conductivity from linear combinations of electro-
magnetic induction measurements,
Soil Sci. Soc. Am. Proc.
, 56, 1015-1022, 1992.
Cook, P.G., Walker, G.R., Buselli, G., Potts, I., and Dodds, A.R., The application of electromagnetic tech-
niques to groundwater recharge investigations,
J. Hydrol.
, 130, 201-229, 1992.
Corwin, D.L., Solute content and concentration—Measurement of solute concentration using soil water
extraction—Porous matrix sensors, in
Methods of Soil Analysis, Part 4—Physical Methods
, Dane, J.H.,
and Topp, G.C., Eds., Soil Sci. Soc. Am. Book Series 5. Soil Science Society of America, Madison, WI,
pp. 1269-1273, 2002.
Corwin, D.L., Geospatial measurements of apparent soil electrical conductivity for characterizing soil spatial
variability, in
Soil-Water-Solute Characterization: An Integrated Approach
, Álvarez-Benedí, J., and
Muñoz-Carpena, R., Eds., CRC Press, Boca Raton, FL, 2005.
Corwin, D.L., and Lesch, S.M., Application of soil electrical conductivity to precision agriculture: Theory,
principles, and guidelines,
Agron. J.
, 95, 455-471, 2003.
Corwin, D.L., and Lesch, S.M., Apparent soil electrical conductivity measurements in agriculture,
Comput.
Electron. Agric.
, 46, 11-43, 2005a.
Corwin, D.L., and Lesch, S.M., Characterizing soil spatial variability with apparent soil electrical conductiv-
ity: I. Survey protocols,
Comp. Electron. Agric.
, 46, 103-133, 2005b.
Corwin, D.L., and Lesch, S.M., Characterizing soil spatial variability with apparent soil electrical conductiv-
ity: II. Case study.
Comp. Electron. Agric.
, 46, 135-152, 2005c.
Corwin, D.L., and Plant, R.E., Eds., Applications of apparent soil electrical conductivity in precision agricul-
ture,
Comput. Electron. Agric.
, 46, 1-10, 2005.
Corwin, D.L., and Rhoades, J.D., An improved technique for determining soil electrical conductivity-depth
relations from above-ground electromagnetic measurements,
Soil Sci. Soc. Am. J.,
46, 517-520, 1982.
Corwin, D.L., and Rhoades, J.D., Measurement of inverted electrical conductivity profiles using electromag-
netic induction,
Soil Sci. Soc. Am. J.
, 48, 288-291, 1984.
Corwin, D.L., and Rhoades, J.D., Establishing soil electrical conductivity—Depth relations from electromag-
netic induction measurements,
Commun. Soil Sci. Plant Anal.
, 21, 861-901, 1990.
Corwin, D.L., Carrillo, M.L.K., Vaughan, P.J., Rhoades, J.D., and Cone, D.G., Evaluation of GIS-linked model
of salt loading to groundwater.
J. Environ. Qual.,
28, 471-480, 1999.
Corwin, D.L., Kaffka, S.R., Hopmans, J.W., Mori, Y., Lesch, S.M., and Oster, J.D., Assessment and field-scale
mapping of soil quality properties of a saline-sodic soil,
Geoderma
, 114, 231-259, 2003b.
Corwin, D.L., Lesch, S.M., Oster, J.D., and Kaffka, S.R., Monitoring management-induced spatio-temporal
changes in soil quality through soil sampling directed by apparent electrical conductivity,
Geoderma
, 131,
369-387, 2006.
