Extreme-Value Climatology of Maximum Soil Freezing Depths in Contiguous United States
Publication: Journal of Cold Regions Engineering
Volume 16, Issue 2
Abstract
Extreme-value statistics for the maximum depth of soil freezing are developed based on a physical soil freezing model and a semiphysical soil water budgeting scheme. The model uses only daily air temperature, snow depth, and precipitation data. These data are available from a relatively dense network of observing stations, permitting the development of a national climatology of extreme soil freezing levels. A set of adjustment factors is also presented that allows conversion between the mapped base-soil freezing depths and those associated with other soil conditions. Surface cover characteristics of bare soil with and without ambient snow cover and turf are analyzed. The deepest soil freezing levels within the United States are found across the Dakotas, where persistent subfreezing winter temperatures, and relatively little soil moisture and snow cover combine to maximize soil freezing. Ample winter snow cover mitigates soil freezing extremes in the Great Lakes, northern New England, and western mountains. Soil freezing is unlikely south of northern Florida and the immediate Gulf Coast, along the California coast, and in southern Arizona.
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References
Aldrich, H. P., and Paynter, H. M. (1953). “Analytical studies of freezing and thawing of soils.” Tech. Rep. 42, 1st Interim Rep., U.S. Army Corps of Engineers, New England Div., Arctic Construction and Frost Effects Laboratory, Boston.
Benoit, G. R., and Mostaghimi, S.(1985). “Modeling soil frost depth under three tillage systems.” Trans. ASAE, St. Joseph, Mich., 28(5), 1499–1505.
Bruce, J. P., and Clark, R. H. (1966). Introduction to hydrometeorology, Pergamon, Tarrytown, N.Y.
Campbell, G. S. (1985). Soil physics with BASIC, Elsevier Science, New York.
Carr, D. A. (1988). “Snowpack modeling using daily climatological data.” Proc., 45th Eastern Snow Conf., Lake Placid, N.Y., 176–180.
Cary, J. W., Campbell, G. S., and Papendick, R. I.(1978). “Is the soil frozen or not? An algorithm using weather records.” Water Resour. Res., 14(6), 1117–1122.
Climate and man: Yearbook of agriculture 1941. (1941). U.S. Government Printing Office, Washington, D.C.
Cressman, G. P.(1959). “An operational objective analysis system.” Mon. Weather Rev., 87(10), 367–374.
DeGaetano, A. T., Eggleston, K. L., and Knapp, W. W.(1995). “A method to estimate missing daily maximum and minimum temperature observations.” J. Appl. Meteorol., 34(2), 371–380.
DeGaetano, A. T., Wilks, D. S., and McKay, M.(1996). “A physically-based model of soil freezing in humid climates using air temperature and snow cover data.” J. Appl. Meteorol., 35(6), 1009–1027.
DeGaetano, A. T., Wilks, D. S., and McKay, M.(1997). “Extreme-value statistics for frost penetration depths in northeastern United States.” J. Geotech. Geoenviron. Eng., 123(9), 828–835.
DeGaetano, A. T., Cameron, M. D., and Wilks, D. S.(2001). “Physical simulation of maximum seasonal soil freezing depths in the United States using routine weather observations.” J. Appl. Meteorol., 40(3), 546–555.
Flerchinger, G. N., and Saxton, K. E.(1989). “Simultaneous heat and water model of a snow-residue-soil system—I. Theory and development.” Trans. ASAE, St. Joseph, Mich., 32(2), 565–571.
Gel’fan, A. N.(1989). “Comparison of two methods of calculating soil freezing depth.” Soviet Met. Hydrol., 2(1), 78–83.
Gumbel, E. J.(1941). “The return period of flood flows.” Ann. Math. Stat., 12(2), 163–190.
Guttman, N. B., and Quayle, R. G.(1996). “A historical perspective of U.S. climate divisions.” Bull. Am. Meteorol. Soc., 77(2), 293–303.
Guymon, G. L., Berg, R. L., and Hromadka, T. V. (1993). “Mathematical model of frost heave and thaw settlement in pavements.” Rep. 93-2, U.S. Army Corps of Engineers, Cold Regions Research and Engineering Laboratory, Hanover, N.H.
Hutchinson, M. F. (2000). ANUSPLIN version 4.1 user guide, Centre for Resource and Environmental Studies, Australian National Univ., Canberra, Australia.
Hutchinson, M. F., and Gessler, P. E.(1994). “Splines—More than just a smooth interpolator.” Geoderma, 62(1), 45–67.
Karl, T. R.(1983). “Some spatial characteristics of drought duration in the United States.” J. Clim. Appl. Meteorol., 22(8), 1356–1366.
“Surface observations part IV: Supplementary observations.” (1996). Observing handbook number 7, National Oceanic and Atmospheric Administration, Spokane, Wash.
Palmer, W. C. (1965). “Meteorological drought.” U.S. Dept. of Commerce Research Paper No. 45, Washington, D.C.
Robinson, D. A. (1993). “Historical daily climatic data for the United States.” Preprints, American Meteorological Society 8th Conf. on Applied Climatology, Boston, 264–269.
Rosenberg, N. J. (1974). Microclimate: The biological environment, Wiley, New York.
Sellers, W. D. (1965). Physical climatology, University of Chicago Press, Chicago.
Sowers, G. F. (1979). “Introductory soil mechanics and foundations.” Geotechnical engineering, 4th Ed., Macmillan, New York.
Steurer, P. M.(1996). “Probability distributions used in 100-year return period of air-freezing index.” J. Cold Reg. Eng., 10(1), 25–35.
Steurer, P. M., and Crandell, J. H.(1995). “Comparison of methods used to create estimate of air-freezing index.” J. Cold Reg. Eng., 9(2), 64–74.
Thornthwaite, C. W.(1948). “An approach toward rational classification of climate.” Geogr. Rev., 38(2), 55–94.
Wendland, W. M.(1998). “A ground frost climatology for Illinois.” Trans., Illinois State Acad. Sci., Springfield, Ill., 91(1), 57–67.
Wilks, D. S. (1995). Statistical methods in the atmospheric sciences, Academic, San Diego.
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Information
Published In
Journal of Cold Regions Engineering
Volume 16 • Issue 2 • June 2002
Pages: 51 - 71
Copyright
Copyright © 2002 American Society of Civil Engineers.
History
Received: Apr 3, 2001
Accepted: Sep 18, 2001
Published online: May 15, 2002
Published in print: Jun 2002
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