Independent Review of Simulation of Net Infiltration for Present-Day and Potential Future Climates Page: 21 of 45
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Hillel, D. 1998. Environmental Soil Physics. San Diego, CA: Academic Press.
Hogan, J.F., F.M. Phillips, and B.R. Scanlon (eds.). 2004. Groundwater Recharge in a
Desert Environment: The Southwestern United States, Water Science and
Applications Series, Vol. 9, American Geophysical Union, Washington, D.C., p.
Hyndman, D.W., A.D. Kendall, and N.R.H. Welty. 2007. Evaluating temporal and spatial
variations in recharge and streamflow using the Integrated Landscape Hydrology
Model (ILHM), p. 121-141 in Subsurface Hydrology: Data Integration for
Properties and Processes. Geophysical Monograph Series 171. American
Geophysical Union, Washington DC.
Jana, R., B.P. Mohanty, and E.P. Springer. 2007. Multi-scale pedo-transfer functions for
soil water retention. Vadose Zone Journal 6(4):868-878.
Ju, S.-H., and K.-J.S. Kung. 1993. Simulating funnel-type preferential flow and overall
flow properties induced by multiple soil layers. Journal of Environmental Quality
Jury, W.A., W.R. Gardner, and W.H. Gardner. 1991. Soil Physics, 5th edition. John Wiley
Kampf, S. and S.J. Burges. 2007. A framework for classifying and comparing distributed
hillslope and catchment hydrologic models. Water Resources Research
Kirkham, M.B. 2005. Principles of Soil and Plant Water Relations. New York: Elsevier -
Kung, K.-J.S. 1990. Preferential flow in a sandy vadose zone. I. Field observation.
Kung, K.-J.S. 1993. Laboratory observation of funnel flow mechanism and its influence
on solute transport. Journal of Environmental Quality 22:91-102.
Lagacherie, P., A.B. McBratney, and M. Voltz (eds.). 2007. Digital Soil Mapping. An
Introductory Perspective, Vol. 31. Amsterdam: Elsevier.
Lamotte, M., A. Bruand, M. Dabas, P. Donfack, G. Gabalda, A. Hesse, F.X. Humbel, and
R. H. 1994. Distribution of hardpan in soil cover of arid zones - Data from a
geoelectrical survey in northern Cameroon. Comptes Rendus de L'academie des
Sciences Serie 11318:961-968.
Mantoglou, A., and L.W. Gelhar. 1987. Stochastic modeling of large-scale transient
unsaturated flow systems. Water Resources Research 23 (1): 37-46.
Mata-Gonzilez, R., T. McLendon, and D.W. Martin. 2005. The inappropriate use of crop
transpiration coefficients (Kc) to estimate evapotranspiration in arid ecosystems: a
review, Arid Land Research and Management 19:285 - 295.
Mata-Gonzilez, R., T. McLendon, and D.W. Martin. 2006. A Review of: "Response to
"Comment on The Inappropriate Use of Crop Transpiration Coefficients (Kc) to
Estimate Evapotranspiration in Arid Ecosystems" by Or et al. (this issue)" Arid
Land Research and Management 20:179 - 181.
McBratney, A., M. Mendonga Santos, and B. Minasny. 2003. On digital soil mapping.
McCord, J.T. and D.B. Stephens. 1987. Lateral Moisture flow beneath a sandy hill slope
without an apparent impeding layer. Hydrologic Processes 1(3):225-238.
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Oak Ridge Institute for Science and Education. Independent Review of Simulation of Net Infiltration for Present-Day and Potential Future Climates, report, August 30, 2008; Oak Ridge, Tennessee. (https://digital.library.unt.edu/ark:/67531/metadc897028/m1/21/: accessed May 21, 2019), University of North Texas Libraries, Digital Library, https://digital.library.unt.edu; crediting UNT Libraries Government Documents Department.