SiteIndexBiblio.pdf
Last revised: March 2011
© 2011, Timothy G. Gregoire, Yale University
Bibliography
Site Index/Site Quality
(293 entries)
1.
Roth, F. 1916. Concerning Site. Forestry Quarterly, XX:3-13.
2.
Spring, S. N. 1917. Notes and Comments: Site and Site Classes. Journal of Forestry
15:102.
3.
Watson, R. 1917. Site Determination, Classification, and Application. Journal of Forestry
15:552-563.
4.
Bates, C. G. 1918. Concerning Site. Journal of Forestry, 16:383-388.
5.
Frothingham, E. H. 1918. Height Growth as a Key to Site. Journal of Forestry 16:754-760.
6.
Roth, F. 1918. Another Word on Site. Journal of Forestry, 16:749-753.
7.
Frothingham, E. H. 1921. Site Determination and Yield Forecasts in the Southern
Appalachians. Journal of Forestry, 19:1-14.
8.
Frothingham, E. H. 1921. Classifying Forest Sites by Height Growth. Journal of Forestry,
19:374-381.
9.
Chapman, H. H., R. T. Fisher, C. D. Howe, D. Bruce, E. N. Munns, and W. N. Sparhawk,
Chairman. 1923. Classification of Forest Sites. Journal of Forestry, 21:139-147.
10.
Bull, H. 1931. The Use of Polymorphic Curves in Determining Site Quality in Young Red
Pine Plantations. Journal of Agricultural Research, 43:1-29.
11.
Anderson, R. T. 1937. The application of Fourier’s series in forest mensuration.
Journal of
Forestry 293-299.
12.
Meyer, H. A. 1940. A Mathematical Expression for Height Curves. Journal of Forestry,
38:415-420.
13.
Parker, H.A. 1942. Dominant Height and Average Diameter as a Measure of Site. Forestry
Chronicle 18(2):152-156.
14.
Gevorkiantz, S. R. and H. F. Scholz. 1944. Determining Site Quality in Understocked Oak
Forests. Journal of Forestry, 42:808-811.

Timothy G. Gregoire, Yale University
15.
Barnes, G. H. 1949. Site Classification for Even-Aged Stands of Western Hemlock.
Research Notes Issued by the Pacific Northwest Forest and Range Experiment Station, 50:1-7.
16.
1949. Acta Forestalia Fennica, 56. Society of Forestry in Finland, Helsinki.
17.
Lemmon, P.E., R.A. Johnson, and O.W. Krauter. 1955. Site Index Curves for Lodgepole
Pine in the Pumice Area of Central Oregon. Journal of Forestry 53(8):553-555.
18.
Spurr, S. H. 1955. Soils in relation to site index. Society of American Foresters
Proceedings. pp. 80-85.
19.
Carmean, W. H. 1956. Suggested Modifications of the Standard Douglas-fir Site Curves for
Certain Soils in Southwestern Washington. Forest Science, 2:242-250.
20.
Gevorkiantz, S. R. 1956. Site Index Curves for Aspen in the Lake States. Technical Notes,
Lake States Forest Experiment Station, U.S.D.A. Forest Service, No. 464, 463, and 465.
21.
Husch, B. 1956. Use of Age at D.B.H. as a Variable in the Site Index Concept. Journal of
Forestry, 54:340.
22.
Trimble, G. R., Jr. and S. Weitzman. 1956. Site Index Studies of Upland Oaks in the
Northern Appalachians. Forest Science, 2:162-173.
23.
Doolittle, W. T. 1957. Site Index of Scarlet and Black Oak in Relation to Southern
Appalachian Soil and Topography. Forest Science, 3:114-124.
24.
Lundqvist, B. 1957. On the height growth in cultivated stands of pine and spruce in Northern
Sweden. Meddelanden fran Statens Skogsforskningsinstitut 47(2): 64 pp.
25.
McLintock, T. F. and C. A. Bickford. 1957. A Proposed Site Index for Red Spruce in the
Northeast. Northeastern Forest Experiment Station, U.S.D.A. Forest Service, Station Paper No.
93:1-30.
26.
Furnival, G. M. and R. N. Rosett. 1958. Estimation of an Index of Site Productivity.
Cowles Foundation Discussion Paper No. 52. 5 pp.
27.
Wakeley, P. C. and J. Marrero. 1958. Five-Year Intercept as Site Index in Southern Pine
Plantations. Journal of Forestry, 56:332-336.
28.
Foster, R. W. 1959. Relation Between Site Indexes of Eastern White Pine and Red Maple.
Forest Science, 5:279-291.
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Timothy G. Gregoire, Yale University
29.
Day, M. W., C. F. Bey, and V. J. Rudolph. 1960. Site Index for Planted Red Pine by the 5-
Year Growth Intercept Method. Journal of Forestry, 58:198-202.
30.
Cooper, C. F. 1961. Equations for the Description of Past Growth in Even-Aged Stands of
Ponderosa Pine. Forest Science, 7:72-80.
31.
Vincent, A. B. 1961. Is Height/Age a Reliable Index of Site? Forestry Chronicle, 37:144-
150.
32.
Yellow-Poplar Site Index Curves. US Forest Service, Southeastern Forest Experiment
Station, Research Notes No. 180, 2 pages.
33.
Johnson, F. A. and N. P. Worthington. 1963. Procedure for Developing a Site Index
Estimating System from Stem Analysis Data. U.S.D.A. Forest Service, Research Paper PNW-7,
1-10.
34.
Mader, D. L. 1963. Volume Growth Measurement - An Analysis of Function and
Characteristics in Site Evaluation. Journal of Forestry, 61:192-198.
35.
Pluth, D. J. and H. F. Ameman. 1963. Forest soils and tree growth characteristics related to a synecological coordinate systems, p. 331-351. In C. T. Younberg (ed.). Forest soil relationships in North America. Oregon State University, Corvallis.
36.
Stage, A. R. 1963. A Mathematical Approach to Polymorphic Site Index Curves for Grand
Fir. Forest Science, 9:167-180.
37.
Curtis, R. O. 1964. A Stem-Analysis Approach To Site-Index Curves. Forest Science,
10:241-256.
38.
Strand, L. 1964. Numerical Constructions of Site-Index Curves. Forest Science, 10:410-
414.
39.
Cool, B. M. 1965. Comments on "An Appeal for a Better Index for Site." Journal of
Forestry 63:547.
40.
Jackson, D. S. 1965. Species siting, climate, soil and productivity. New Zealand Journal of
Forestry 10:90-102.
41.
Sammi, J. C. 1965. Better Index of Site. Journal of Forestry, 63:174-176.
42.
Brickell, J. E. 1966. Site Index Curves for Engelmann Spruce in the Northern and Central
Rocky Mountains. U.S.D.A. Forest Service, Research Note INT-42.
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Timothy G. Gregoire, Yale University
43.
King, J. E. 1966. Site Index Curves for Douglas-fir in the Pacific Northwest. Weyerhaeuser
Forestry Paper No. 8.
44.
Kormanik, P. P. 1966. Predicting Site Index for Virginia, Loblolly, and Shortleaf Pine in the
Virginia Piedmont. U.S.D.A. Forest Service, Research Paper SE-20.
45.
Wiant, H. V., Jr., and D. R. Porter. 1966. Notes and Observations: Site Index Comparisons for Redwood, Douglas-Fir, and Some Associated Hardwoods. Journal of Forestry, 64:541-543.
46.
Alexander, R. R. 1967. Site Indexes for Engelmann Spruce. U.S.D.A. Forest Service,
Research Paper RM-32.
47.
Curtis, R. O. 1967. Height-Diameter and Height-Diameter-Age Equations For Second-
Growth Douglas-Fir. Forest Science, 13:365-375.
48.
McGee, C. E. and J. L. Clutter. 1967. A Study of Site Index for Planted Slash Pine. Journal of Forestry, 65:491-493.
49.
Brickell, J.E. 1968. A method for constructing site index curves from measurements of tree age and height—its application to inland Douglas-fir. US Forest Service Research Paper INT-
47, 23 pages.
50.
Carmean, W. H. 1968. Tree height-growth patterns in relation to soil and site. In C. T.
Younberg and C. B. Davey (eds.). Tree growth and Forest Soils. OSU Press.
51.
Clutter, J. L. and J. D. Lenhart. 1968. Site Index Curves for Old-Field Loblolly Pine
Plantations in the Georgia Piedmont. Georgia Forest Research Council Report No. 22.
52.
Gunter, J. E. 1968. Site Index for Released Red Pine Plantations by the Modified Growth
Intercept Method. Journal of Forestry, 66:862-863.
53.
Heger, L. 1968. A Method of Constructing Site-Index Curves from Stem Analyses.
Forestry Chronicle, 44:11-15.
54.
Jones, J. R. 1969. Review and Comparison of Site Evaluation Methods. U.S.D.A. Forest
Service, Research Paper RM-51.
55.
Lundgren, A. L. and W. L. Dolid. 1970. Biological Growth Functions Describe Published
Site Index Curves for Lake States Timber Species. U.S.D.A. Forest Service, Research Paper
NC-36.
56.
Ballard, R. 1971. Interrelationships between site factors and productivity of radiata pine at
Riverhead forest, New Zealand. Plant and Soil 35:371-380.
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Timothy G. Gregoire, Yale University
57.
Beck, D. E. 1971. Polymorphic Site Index Curves for White Pine in the Southern
Appalachians. U.S.D.A. Forest Service, Research Paper SE-80.
58.
Beck, D. E. 1971. Height-Growth Patterns and Site Index of White Pine in the Southern
Appalachians. Forest Science 27:252-260.
59.
Ek, A. R. 1971. A Formula for White Spruce Site Index Curves. University of Wisconsin
Forestry Research Notes No. 161.
60.
Heger, L. 1971. Confidence Interval for Site Index Using Curves Based on Stem Analysis.
Canadian Journal of Forest Research, 1:241-245.
61.
Carmean, W. H. 1972. Site Index Curves for Upland Oaks in the Central States. Forest
Science, 18:109-120.
62.
Beck, D. E. and K. B. Trousdell. 1973. Site Index: Accuracy of Prediction. U.S.D.A.
Forest Service, Research Paper SE-108.
63.
Farrar, R. M., Jr. 1973. Southern Pine Site Index Equations. Journal of Forestry, 71:696-
697.
64.
Graney, D. L. and H. E. Burkhart. 1973. Polymorphic Site Index Curves for Shortleaf Pine in the Ouachita Mountains. U.S.D.A. Forest Service, Research Paper SO-85.
65.
Heger, L. 1973. Effect of Index Age on the Precision of Site Index. Canadian Journal of
Forest Research, 3:1-6.
66.
Bailey, R. L. and J. L. Clutter. 1974. Base-Age Invariant Polymorphic Site Curves. Forest
Science, 20:155-159.
67.
Curtis, R. O., D. J. DeMars, and F. R. Herman. 1974. Which Dependent Variable in Site
Index-Height-Age Regressions? Forest Science, 20:75-87.
68.
Payandeh, B. 1974. Formulated site index curves for major timber species in Ontario. Forest
Science, 20(2): 143-144.
69.
Trousdell, K. B., D. E. Beck, and F. T. Lloyd. 1974. Site Index for Loblolly Pine in the
Atlantic Coastal Plain of the Carolinas and Virginia. U.S.D.A. Forest Service, Research Paper
SE-115.
70.
Carmean, W. H. 1975. Forest Site Quality Evaluation in the United States. Advances in
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Timothy G. Gregoire, Yale University
Agronomy, 27:209-269.
71.
Hägglund, B. 1975. Estimating the accuracy of site index curves by means of simulation.
Studia Forstalia Suecica, 129:1-34.
72.
Lloyd, F.T. 1975. An Estimation of Variance for a Site Index Predictor Using a Family of
Cumulative Total Height Growth Curves as the Model. North Carolina State University, Ph.D. dissertation, 73 pages.
73.
Stage, A. R. 1975. Prediction of Height Increment for Models of Forest Growth. U.S.D.A.
Forest Service, Research Paper INT-164.
74.
Wiant, H. V., Jr. 1975. Schnur's site index curves for upland oaks formulated. Journal of
Forestry, 73:429.
75.
Matérn, B. 1976. On estimating the dominant height. Särtryck ur Sveriges
Skogvårdsförbunds Tidskrift, 74:51-53.
76.
Burkhart, H. E. and R. B. Tennent. 1977. Site Index Equations for Douglas Fir in Kaingaroa
Forest. New Zealand Journal of Forestry Science 7:417-419.
77.
Burkhart, H. E. and R. B. Tennent. 1977. Site Index Equations for Radiata Pine in New
Zealand. New Zealand Forest Service, 54:174-177.
78.
Hägglund, B. and J. E. Lundmark. 1977. Site index estimation by means of site properties:
Scots pine and Norway spruce in Sweden. Studia Forestalia Suecica, 138:1-38.
79.
Lloyd, F. T. and W. L. Hafley. 1977. Precision and the Probability of Misclassification in
Site Index Estimation. Forest Science, 23:493-499.
80.
Monserud, R. A. and A. R. Ek. 1977. Site Index Curves and Equations for Several Northern
Hardwood Forest Species. Res. Bull. R-2772.
81.
Tennent, R. B. and H. E. Burkhart. 1977. Height-Age Tables for Radiata Pine in New
Zealand and for Douglas Fir in Kaingaroa Forest. New Zealand Forest Service, Forest Research
Institute, Forest Mensuration Report No. 53 (unpublished).
82.
Hägglund, B. 1978. Evaluation of Site Quality in Connection with a Model for Large Scale
Forecasting of Timber Yields. FWS-1-78.
83.
Shrjvastava, M. B. and B. Ulrich. 1978. Quantitative assessment of forest site productivity.
Indian Forester. February.
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Timothy G. Gregoire, Yale University
84.
Zeide, B. 1978. Standardization of Growth Curves. Journal of Forestry, 76:289-292.
85.
Baker, J. B., and W. M. Broadfoot. 1979. Site Evaluation for commercially important southern hardwoods. U.S.D.A. Forest Service, General Technical Report SO-26. 51 p.
86.
Carmean, W. H. 1979. Site index comparisons among northern hardwoods in northern
Wisconsin and upper Michigan. U.S.D.A. Forest Service Research Paper NC-169.
87.
Cochran, P. H. 1979. Site Index and Height Growth Curves for Managed, Even-Aged
Stands of White or Grand Fir East of the Cascades in Oregon and Washington. Pacific
Northwest Forest and Range Experiment Station, U.S.D.A. Forest Service, Research Paper
PNW-252.
88.
Johnson, J. E., C. L. Haag, J. G. Bockheim, and G. G. Erdmann. 1979. Soil-site relationships and soil characteristics associated with even-aged red maple (acer rubrum) stands in Wisconsin and Michigan. Forest Ecology and Management 21-75-89.
89.
Popham, T. W., D. P. Feduccia, T. R. Dell, W. F. Mann, Jr., and T. E. Campbell. 1979. Site
Index for Loblolly Plantations on Cutover Sites in the West Gulf Coastal Plain. U.S.D.A. Forest
Service, Southern Forest Experiment Station Research Note SO-250.
90.
Shoulders, E., and F. V. Walker. 1979. Soil, slope, and rainfall affect height and yield in 15year-old southern pine plantations. U.S.D.A. Forest Service Research Paper SO-153. 52 p.
91.
Hoyer, G. E. and R. Chawes. 1980. Application of Zeide's Standardized Growth Curves and the Two-Point Curve Form Estimation System to Pacific Northwest Species. State of
Washington Department of Natural Resources, DNR Report No. 40.
92.
Sluder, E. R. 1980. A study of geographic variation in loblolly pine in Georgia-20th-year results. U.S.D.A. Forest Service Research Paper SE-213. 26 p.
93.
Wiant, H. V., Jr. and M. S. Fountain. 1980. Northeastern Forest Experiment Station.
U.S.D.A. Forest Service, Research Note NE-291.
94.
Bruce, D. 1981. Consistent Height-Growth and Growth-Rate Estimates for Remeasured
Plots. Forest Science, 27:711-725.
95.
Carmean, W. H., and J. T. Hahn. 1981. Revised Site Index Curves for Balsam Fir and White
Spruce in the Lake States. U.S.D.A. Forest Service, North Central Forest Experiment Station
Research Note NC-269.
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Timothy G. Gregoire, Yale University
96.
Farrar, R. M., Jr. 1981. A Site-Index Function for Naturally Regenerated Longleaf Pine in the East Gulf Area. Southern Journal of Applied Forestry, 79:150-153.
97.
Hägglund, B. 1981. Evaluation of forest site productivity. Forestry Abstracts, 42:515-527.
98.
Lloyd, F. T. 1981. How Many Tree Heights Should You Measure for Natural, Atlantic
Coastal Plain Loblolly Site Index? Southern Journal of Applied Forestry, 5:180-1983.
99.
Tesch, S. 1981. The Evolution of Forest Yield Determination and Site Classification.
Forest Ecology and Management, 3:169-182.
100.
Devan, J. S. and H. E. Burkhart. 1982. Polymorphic Site Index Equations for Loblolly
Pine Based on a Segmented Polynomial Differential Model. Forest Science, 28:544-555.
101.
Lloyd, F. T., H. D. Muse, and W. L. Hafley. 1982. A Regression Application for
Comparing Growth Potential of Environments at Different Points in the Growth Cycle.
Biometrics, 38:479-484.
102.
Lloyd, F.T. and Jones, E.P., Jr. 1982. Density effects on height growth and its implications for site index prediction and growth projection. In Jones, E.P., Jr. (ed.) Proceedings of the Second Biennial Southern Silvicultural Research Conference, 1982 November 4-5;
Atlanta, GA. General Technical Report SE-24. Ashville, NC: U.S. Department of Agriculture,
Forest Service, 1983. 329-333.
103.
Stout, B. B., and D. L. Shumway. 1982. Site Quality Estimation Using Height and
Diameter. Forest Science, 28:639-645.
104.
Garcia, O. 1983. A Stochastic Differential Equation Model for the Height Growth of
Forest Stands. Biometrics, 39:1059-1072.
105.
Hudson, B. D. 1983. The use of soil classification to predict forest site quality on the southeastern coastal plain. Doctoral dissertation. North Carolina State University Department of
Soil Science. 90 p.
106.
Auchmoody, L. R. and C. O. Rexrode. 1984. Black Cherry Site Index Curves for the
Allegheny Plateau. U.S.D.A. Forest Service, Northeastern Forest Experiment Station Research
Paper NE-549.
107.
Borders, B. E., R. L. Bailey, and K. D. Ware. 1984. Slash Pine Site Index From a
Polymorphic Model by Joining (Splining) Nonpolynomial Segments With an Algebraic
Difference Method. Forest Science, 30:411-423.
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Timothy G. Gregoire, Yale University
108.
Farr, W. A. 1984. Site Index and Height Growth Curves for Unmanaged Even-Aged
Stands of Western Hemlock and Sitka Spruce in Southeast Alaska. U.S.D.A. Forest Service,
Pacific Northwest Forest and Range Experiment Station Research Paper PNW-326.
109.
Hunter, I. R. and A. R. Gibson. 1984. Predicting Pinus Radiata Site Index From
Environmental Variables. New Zealand Journal of Forestry Science, 14:53-64.
110.
Klinka, K., R. N. Green, P. J. Courtin and F. C. Nuszdorfer. 1984. Site diagnosis, tree species, selection, and slash-burning guidelines for the Vancouver Forest Region. Land
Management Report No. 25. Ministry of Forests. British Columbia.
111.
Monserud, R. A. 1984. Height Growth and Site Index Curves for Inland Douglas-fir
Based on Stem Analysis Data and Forest Habitat Type. Forest Science, 30:943-965.
112.
Monserud, R. A. 1984. Problems with Site Index: An Opinionated Review. In: Forest
Land Classification: experiences, problems, perspectives (J. Backheim, ed.). U.S. Department of Agriculture, 167-180.
113.
Naikuang, J. 1984. Local Height-DBH Estimation Problem Using a Bayesian Approach.
Journal of Beijing Forestry College, 3:1-9.
114.
Ritchie, M. W. and D. W. Hann. 1984. Nonlinear equations for predicting diameter and squared diameter inside bark at breast height for Douglas-fir. Oregon State University, Forest
Research Lab, Research Paper 47.
115.
Smith, V. G. 1984. Asymptotic Site-Index Curves, Fact or Artifact? Forestry Chronicle,
60:150-156.
116.
Thompson, R., R. Alfaro, and G. Manning. 1984. Site index curves for logdepole pine from the southeastern Yukon. Canadian Forestry Service, Pacific Forest Research Centre, BC-
X-247.
117.
Vicary, B. P., T. B. Brann, and R. H. Griffin. 1984. Base-Age Invariant Polymorphic
Site Index Curves for Even-Aged Spruce-Fir Stands in Maine. Maine Agricultural Experiment
Station Bulletin 802.
118.
Amateis, R. L. and H. E. Burkhart. 1985. Site Index Curves for Loblolly Pine
Plantations on Cutover Site-Prepared Lands. Southern Journal of Applied Forestry, 9:166-169.
119.
Biging, G. S. 1985. Improved Estimates of Site Index Curves Using a Varying-
Parameter Model. Forest Science, 31:248-259.
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Timothy G. Gregoire, Yale University
120.
Brewer, J. A., P. Y. Burns, and Q. V. Cao. 1985. Short-Term Projection Accuracy of
Five Asymptotic Height-Age Curves for Loblolly Pine. Forest Science 31:414-418.
121.
Burkhart, H. E., D. C. Cloeren, and R. L. Amateis. 1985. Yield relationships in unthinned loblolly pine plantations on cutover, site-prepared lands. Southern Journal of Applied
Forestry 9:84-91.
122.
Cameron, I. R. 1985. Dynamics of Site Index Curves. British Columbia Ministry of
Forests, Research Branch, Unpublished Progress Report.
123.
Cochran, P. H. 1985. Site Index, Height Growth, Normal Yields, and Stocking Levels for Larch in Oregon and Washington. U.S.D.A. Forest Service, Pacific Northwest Forest Range
Experiment Station, Research Note PNW-424.
124.
Edminister, C. B., H. T. Mowrer, and W. D. Sheppard. 1985. Site Index Curves for
Aspen in the Central Rocky Mountains. USDA Forest Service, Rocky Mountain Forest and
Range Experiment Station, Research Note RM-453.
125.
Monserud, R. A. 1985. Comparison of Douglas-fir site index and height growth curves in the Pacific Northwest. Canadian Journal of Forest Research, 15:673-679.
126.
Monserud, R. A. 1985. Applying Height Growth and Site Index Curves for Inland
Douglas-fir. U.S. Department of Agriculture, Intermountain Research Station Research Paper
INT-347.
127.
Northway, S. M. 1985. Fitting Site Index Equations and Other Self-Referencing
Functions. Forest Science 31:233-235.
128.
Smith, J. H. G. 1985. New Methods and Data are Needed to Improve Height/Age
Curves for Natural and Managed Stands. Forestry Chronicle, 61:519-520.
129.
Chojnacky, D. C. 1986. Pinyon-Juniper Site Quality and Volume Growth Equations for
Nevada. U.S.D.A. Forest Service, Intermountain Forest and Range Experiment Station,
Research Paper INT-372.
130.
Harrington, C. A. and R. O. Curtis. 1986. Height Growth and Site Index Curves for Red
Alder. U.S.D.A. Forest Service, Pacific Northwest Forest and Range Experiment Station,
Research Paper PNW-358.
131.
Harrington, C. A. and B. M. Casson. 1986. SITEQUAL - A User's Guide:
Computerized Site Evaluation for 14 Southern Hardwood Species. U.S.D.A. Forest Service,
Southern Forest Experiment Station, General Technical Report SO-62.
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Timothy G. Gregoire, Yale University
132.
Lenhart, J. D., E. V. Hunt, Jr., and J. A. Blackard. 1986. Site Index Equations for
Loblolly and Slash Pine Plantations on Non-Old-Fields in East Texas. Southern Journal of
Applied Forestry, 10:109-112.
133.
Payandeh, B. 1986. Predictability of site index from soil factors and lesser vegetation in
Northern Ontario forest types. Information Report 0-X-373. Great Lakes Forestry Centre.
Canadian Forestry Service.
134.
Ritchie, M. W. and D. W. Hann. 1986. Development of a Tree Height Growth Model for Douglas-fir. Forest Ecology and Management, 15:135-145.
135.
Scott, C. T. and N. G. Voorhis. 1986. Northeastern Forest Survey Site Index Equations and Site Productivity Classes. Northern Journal of Applied Forestry 3:144-148.
136.
Steele, B. M. and S. V. Cooper. 1986. Predicting Site Index and Height for Selected
Tree Species of Northern Idaho. U.S.D.A. Forest Service, Intermountain Forest and Range
Experiment Station, Research Paper INT-365.
137.
DeMars, D. J. and F. R. Herman. 1987. Estimates of Site Index and Height Growth for
Douglas-Fir in High-Elevation Forests of the Oregon-Washington Cascade Range: Curves and
Tables for Field Application. U.S.D.A. Forest Service, Pacific Northwest Forest and Range
Station, Research Paper PNW-RP-378.
138.
Dolph, K. L. 1987. Site Index Curves for Young-Growth California White Fir on the
Western Slopes of the Sierra Nevada. U.S.D.A. Forest Service, Pacific Southwest Forest and
Range Experiment Station, Research Paper PSW-185.
139.
Gale, M. R. and D. F. Grigal. 1987. Performance of a soil productivity index model used to predict site quality and stand production. In Forest growth modelling and prediction volume 1. (Ek, A. R., Shifley, S. R., and T. E. Burk eds.) U.S.D.A. General Technical Report
NC-120. pp. 403-410.
140.
Hann, D. W. and J. A. Scrivani. 1987. Dominant-Height-Growth and Site-Index
Equations for Douglas-Fir and Ponderosa Pine in Southwest Oregon. Oregon State University
Forest Research Lab, Research Bulletin 59.
141.
Harrington, C. A. 1987. Site-Index Comparisons for Naturally Seeded Loblolly Pine and
Shortleaf Pine. Southern Journal of Applied Forestry, 11:86-91.
142.
Johnson, J.E., C.L. Haag, J.G. Bockheim, and G.G. Erdmann. 1987. Soil-site relationships and soil characteristics associated with even-aged red maple (Acer rubrum) stands in Wisconsin and Michigan. Forest Ecology and Management 21:75-89.
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Timothy G. Gregoire, Yale University
143.
Lamson, N. I. 1987. Estimating Northern Red Oak Site-Index Class from Total Height and Diameter of Dominant and Codominant Trees in Central Appalachian Hardwood Stands.
U.S.D.A. Forest Service, Northeastern Forest Experiment Station, NE-RP-605.
144.
Larsen, D. R. and D. W. Hann. 1987. Height-Diameter equations for seventeen tree species in Southwest Oregon. Oregon State University, Forest Research Lab, Research Paper 49.
145.
Lohrey, R. E. 1987. Site Index Curves for Direct-Seeded Slash Pines in Louisiana.
Southern Journal of Applied Forestry, 11:15-17.
146.
Monserud, R. A. 1987. Variations on the Theme of Site Index. USDA Forest Service,
North Central Forest Experiment Station, General Technical Report NC-120, pp. 419-427.
147.
Monserud, R. A. 1987. Modeling Regeneration and Site Productivity in Irregular Mixed
Species Stands. In: Proc. of the New England Growth and Yield Workshop (R.S. Seymour and
W. B. Leak, Eds.) 7-9 January, 1987, Durham, NH. Maine Agricultural Experiment Station,
Miscellaneous Report 325.
148.
Ritchie, M. W. and D. W. Hann. 1987. Equations for Predicting Height to Crown Base for Fourteen Tree Species in Southwest Oregon. Oregon State University Forest Research Lab,
Research Paper 50.
149.
Shohoji, T. and H. Sasaki. 1987. Individual Growth of Stature of Japanese. Growth
51:432-450.
150.
Wensel, L.C., W.J. Meerschaert, and G.S. Biging. 1987. Tree Height and Diameter
Growth Models for Northern California Conifers. Hilgardia 55(8):1-20.
151.
Alemdag, I. S. 1988. Site Index Equations for White Spruce in the Northwest
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