Geoscience Reference
In-Depth Information
Doolittle, J. A., and M. E. Collins. 1995. Use of soil information to determine application of ground-penetrat-
ing radar.
J. Appl. Geophys.
33:101-108.
Doolittle, J. A., and M. E. Collins. 1998. A comparison of EM induction and GPR methods in areas of karst.
Geoderma.
85:83-102.
Doolittle, J. A., M. E. Collins, and H. R. Mount. 1998. Assessing the appropriateness of GPR with a soil geo-
graphic database. pp. 393-400. In: Plumb, R. G. (Ed.).
Proceedings Seventh International Conference
on Ground-Penetrating Radar
. May 27-30, 1998, Lawrence, KS. Radar Systems and Remote Sensing
Laboratory, University of Kansas. p. 786.
Doolittle, J., G. Hoffmann, P. McDaniel, N. Peterson, B. Gardner, and E. Rowan. 2000a. Ground-penetrating
radar interpretations of a fragipan in Northern Idaho.
Soil Survey Horizons.
41(3):73-82.
Doolittle, J. A., B. J. Jenkinson, D. P. Franzmeier, and W. Lynn. 2000b. Improved radar interpretations of
water table depths and groundwater flow patterns using predictive equations. pp. 488-495. In: Noon, D.
(Ed.).
Proceedings Eighth International Conference on Ground-Penetrating Radar.
May 23-26, 2000,
Goldcoast, Queensland, Australia. The University of Queensland. 908 p.
Doolittle, J. A., F. E. Minzenmayer, S. W. Waltman, and E. C. Benham. 2002. Ground-penetrating radar soil
suitability map of the conterminous United States. pp. 7-12. In: Koppenjan, S. K., and L. Hua (Eds.).
Ninth International Conference on Ground-Penetrating Radar. Proceedings of SPIE,
Volume 4158.
April 30-May 2, 2002. Santa Barbara, CA.
Farrish, K. W., J. A. Doolittle, and E. E. Gamble. 1990. Loamy substrata and forest productivity of sandy
glacial drift soils in Michigan.
Can. J. Soil Sci.
70:181-187.
Freeland, R. S., J. L. Branson, J. T. Ammons, and L. L. Leonard. 2001. Surveying perched water on anthropo-
genic soils using non-intrusive imagery.
Trans. ASAE
44(6):1955-1963.
Galagedara, L. W., G. W. Parkin, J. D. Redman, P. von Bertoldi, and A. L. Endres. 2005. Field studies of the
GPR ground wave method for estimating soil water content during irrigation and drainage.
J. Hydrol-
ogy
. 301(1-4):182-197.
Gish, T. J., W. P. Dulaney, K. J. S. Kung, C. S. T. Daughtry, J. A. Doolittle, and P. T. Miller. 2002. Evaluat-
ing use of ground-penetrating radar for identifying subsurface flow pathways.
Soil Sci. Soc. Am. J.
66(5):1620 -1629.
Gish, T. J., C. L. Walthall, C. S. T. Daughtry, and K. J. S. Kung. 2005. Using soil moisture and spatial yield
patterns to identify subsurface flow pathways.
J. Environ. Qual.
34(1):274-286.
Grote, K., S. Hubbard, and Y. Rubin. 2003. Field-scale estimation of volumetric water content using ground-
penetrating radar ground wave techniques.
Water Resour. Res.
39(11).
Hanninen, P. 1992. Application of ground penetrating radar techniques to peatland investigations. pp. 217-221.
In: Hanninen, P., and S. Autio (Eds.).
Fourth International Conference on Ground Penetrating Radar.
June 8-13, 1992. Rovaniemi, Finland. Geological Survey of Finland, Special Paper 16. pp. 365.
Hruska, J., J. Cermak, and S. Sustek. 1999. Mapping tree root systems with ground-penetrating radar.
Tree
Physiol.
19(2):125-130.
Hubbard, R. K., L. E. Asmussen, and H. F. Perkins. 1990. Use of ground-penetrating radar on upland Coastal
Plain soils.
J. Soil and Water Conserv.
45(4):399-404.
Huisman, J. A., J. Snepvangers, W. Bouten, and G. B. M. Heuvelink. 2002. Mapping spatial variation in
surface soil water content: Comparison of ground-penetrating radar and time domain reflectometry.
J. Hydrology
. 269(3-4):194-207.
Johnson, R. W., R. Glaccum, and R. Wojtasinski. 1980. Application of ground penetrating radar to soil survey.
Soil and Crop Science Society of Florida Proceedings
39:68-72.
Kowalsky, M. B., S. Finsterle, and Y. Rubin. 2004. Estimating flow parameter distributions using ground-
penetrating radar and hydrological measurements during transient flow in the vadose zone.
Adv. in
Water Resour.
27(6):583-599.
Mokma, D. L., R. J. Schaetzl, E. P. Johnson, and J. A. Doolittle. 1990a. Assessing Bt horizon character in sandy
soils using ground-penetrating radar: Implications for soil surveys.
Soil Survey Horizons.
30(2):1-8.
Mokma, D. L., R. J. Schaetzl, J. A. Doolittle, and E. P. Johnson. 1990b. Ground-penetrating radar study of
ortstein continuity in some Michigan Haplaquods.
Soil Sci. Soc. Am. J.
54:936-938.
Puckett, W. E., M. E. Collins, and G. W. Schellentrager. 1990. Design of soil map units on a karst area in West
Central Florida.
Soil Sci. Soc. Am. J.
54:1068-1073.
Schellentrager, G. W., J. A. Doolittle, T. E. Calhoun, and C. A. Wettstein. 1988. Using ground-penetrating
radar to update soil survey information.
Soil Sci. Soc. Am. J.
52:746-752.
