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9.3: Reference

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    D.H. Alban, “An Improved Growth Intercept Method for Estimating Site Index of Red Pine,” U.S. Forest Serv., North Central Forest Expt. Sta., Res. Paper NC-80, 1972, p. 7.

    T.E. Avery and H.E. Burkhart, Forest Measurements,. McGraw-Hill, 1994, p. 408.

    R.P. Belanger, “Volume and Weight Tables for Plantation-grown Sycamore,” U.S. Forest Serv. Southeast. Forest Expt. Sta. Res. Paper SE-107, 1973, p. 8.

    D.M. Belcher, “TWIGS: The Woodman’s Ideal Growth Projection System,” Microcomputers, a New Tool for Foresters, Purdue University Press, 1982, p. 70.

    D.R. Bower, “Volume-weight Relationships for Loblolly Pine Sawlogs,” J. Forestry 60, 1962, pp. 411-412.

    R.R. Buckman, “Growth and Yield of Red Pine in Minnesota,” U.S. Department of Agriculture,Technical Bulletin 1272, 1962.

    H.E. Burkhart, “Cubic-foot Volume of Loblolly Pine to Any Merchantable Top Limit,” So. J. Appl. For. 1, 1977, pp. 7-9.

    C.V. Bylin, “Volume Prediction from Stump Diameter and Stump Height of Selected Species in Louisiana,” U.S. Forest Serv., Southern Forest. Expt. Sta., Res. Paper SO-182, 1982, p. 11.

    J.R. Clutter Et al., Timber Management: A Quantitative Approach, Wiley, 1983, p. 333.

    T.S. Coile and F. X. Schumacher, Soil-site Relations, Stand Structure, and Yields of Slash and Loblolly Pine Plantations in the Southern United States, T.S. Coile, 1964.

    G.E. Dixon (Comp.), “Essential FVS: A User’s Guide to the Forest Vegetation Simulator,” Internal Report. U.S. Department of Agriculture, Forest Service, Forest Management Service Center,2002, p. 189.

    M.B. Edwards and W.H. McNab, “Biomass Prediction for Young Southern Pines,” J. Forestry, 77, 1979, pp. 291-292.

    A.D. Kozak, D.D. Munro, and J.H.G. Smith, “Taper Functions and Their Application in Forest Inventory,” Forestry Chronicle 45, 1969, pp. 278-283.

    A.L. MacKinney and L.E. Chaiken, “Volume, Yield, and Growth of Loblolly Pine in the Mid-Atlantic Coastal Region,” U.S. Forest. Serv. Appalachian Forest Expt. Sta., Tech. Note 33, 1939, p. 30.

    C.L. Miner, N.R. Walters, and M.L. Belli, “A Guide to the TWIGS Program for the North Central United States,” USDA Forest Serv., North Central Forest Exp.Sta., Gen. Tech. Rep. NC-125, 1988, p. 105.

    J.W. Moser, Jr. and O.F. Hall, “Deriving Growth and Yield Functions for Uneven-aged Forest Stands,” Forest Sci. 15, 1969, pp. 183-188.

    F.J. Richards, “A Flexible Growth Function for Empirical Use,” J. Exp. Botany, vol. 10, no. 2 1959, pp. 290-300.

    Society of American Foresters, Terminology of Forest Science, Technology, Practice, and Products,Washington,D.C., Society of American Foresters, 1971, p. 349.

    A.R. Stage, “Prognosis Model for Stand Development,” U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Expt. Sta., Res. Pa INT-137, 1973, p. 32.

    L.M. Tritton and J.W. Hornbeck, “Biomass Equations for Major Tree Species of the Northeast,” USDA For. Serv. Gen. Tech. Rep. NE-GTR-69, 1982.

    K.B. Trousdell, D.E. Beck, and F.T. Lloyd, “Site Index for Loblolly Pine in the Atlantic Coastal Plain of the Carolinas and Virginia,” U.S. Southeastern Forest Expt. Sta., 1974, p. 115.

    H.J. Wiant et al., “Equations for Predicting Weights of Some Appalachian Hardwoods,” West Virginia Univ. Agric. and Forest Expt. Sta., Coll.. of Agric. and Forest. West Virginia Forest. Notes, no. 7, 1979.

    W.R. Wykoff, N.L. Crookston, and A.R. Stage, “User’s Guide to the Stand Prognosis Model,” U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Expt. Sta., Gen. Tech. Re INT-133, 1982, p. 112.

    This page titled 9.3: Reference is shared under a CC BY-NC-SA 3.0 license and was authored, remixed, and/or curated by Diane Kiernan (OpenSUNY) via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.