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References

Battaglia, M. and P.J. Sands. 1998. Process-based forest productivity models and their application in forest management. Forest Ecology and Management 102:13-32.

Bokalo, M. 1994. The use of growth models in forest inventory / by Mike Bokalo. MSc Thesis, University of Alberta, Edmonton. 58p.

Bokalo, M., Philip G. Comeau, Stephen J. Titus. 2007. Early development of tended mixtures of aspen and spruce in western Canadian boreal forests For.Ecol. Manage. 242, 175-184.

Bokalo, M., S.J. Titus, and D.P. Wiens. 1996. Sampling with partial replacement extended to include growth projections. Forest Science, 42(3): 328-334.

Buckmaster, G. 2003. Projecting height growth of understory Picea glauca in stands with an overstory dominated by Populus tremuloides. MSc Thesis , Department of Renewable Resources, University of Alberta, Edmonton, Alberta.

Comeau, P.G. 2001. Relationships between stand parameters and understory light in boreal aspen stands. B.C. Journal of Ecosystems and Management 1:1-8.

Ferguson, D.E., Stage, A.R. and Boyd, R.J. 1986. Predicting regeneration in the grand fir-cedar-hemlock ecosystem of the northern rocky mountains. For.Sci. Monogr. 26.

Hostin, P. and S.J. Titus, 1996. Indirect site productivity models for white spruce in Alberta's boreal mixedwood forest. Forestry Chronicle 72 (1):73-79.

Huang, S, 1992. Nonlinear simultaneous diameter and height growth models for major Alberta tree species. Ph.D. thesis, University of Alberta, Edmonton. 202p.

Huang, S. 1997. A subregion-based compatible height - site index - age model for young and mature white spruce in Alberta. Forest Management Research Note, Alberta Environmental Protection Land and Forest Service, Edmonton, Alberta. Publication NO. T/354.

Huang, S. 1997. Development of a subregion-based compatible height - site index - age model for black spruce in Alberta. Forest Management Research Note, Alberta Environmental Protection Land and Forest Service, Edmonton, Alberta. Publication NO. T/352.

Huang, S., S.J. Titus, and G. Klappstein. 1997. Development of a subregion-based compatible height - site index age model for young and mature lodgepole pine in Alberta. Forest Management Research Note, Alberta Environmental Protection Land and Forest Service, Edmonton, Alberta. Publication No. T/353.

Huang, S., S.J. Titus, and D.J. Morgan. 1997. A compatible height - site index - age model for young and mature aspen based on natural subregions. Forest Management Research Note, Alberta Environmental Protection Land and Forest Service, Edmonton, Alberta. Publication No. T/355.

Huang, S., S.J. Titus, and D. Wiens, 1992. Comparison of nonlinear height-diameter functions for major Alberta tree species. CJFR 22:1297-1304.

Huang, S. and S.J. Titus, 1993. An index of site productivity for uneven-aged or mixed-species stands. CJFR 23:558-562.

Huang, S, 1994. Ecologically based individual tree volume estimation for major Alberta tree species. Report #1, Individual tree volume estimation procedures for Alberta: methods of formulation and statistical foundations. Alberta Environmental Protection, Land and Forest Service, Forest Management Division, 80pp. Note that there are 11 other related reports summarizing the results for the different species and regions, including diameter/height functions.

Huang, S. and S.J. Titus, 1994. An age-independent individual tree height prediction model for boreal spruce-aspen stands in Alberta. CJFR 24:1295-1301.

Huang, S. and S.J. Titus, 1995. An individual tree diameter increment model for white spruce in Alberta. CJFR 25:1455-1465.

Huang, S., and S.J. Titus. 1999. An individual tree height increment model for mixed white spruce-aspen stands in Alberta, Canada. Forest Ecology and Management 123 (1999): 41-53.

Huang, S., S.J. Titus, D. Price, and D.J. Morgan. 1999. Validation of ecoregion-based taper equations for white spruce in Alberta. The Forestry Chronicle 75 (2): 281-292.

Huang, S., and S.J. Titus. 1999. Estimating a system of nonlinear simultaneous individual tree models for white spruce in boreal mixed-species stands. Canadian Journal of Forest Research 29(11): 1805-1811.

Kobe, R.K., and K.D. Coates. 1997. Models of sapling mortality as a function of growth to characterize interspecific variation in shade tolerance of eight tree species of northwestern British Columbia. CJFR 27: 227-236.

Lieffers, V.J., and K.J. Stadt. 1994. Growth of understory Picea glauca, Calamagrostis canadensis, and Epilobium angustifolium in relation to overstory light transmission. CJFR 24: 1193-1198.

MacIsaac, D.A., S. Lux, D. Sidders. and I. Edwards. 1999. Hotchkiss river mixedwood timber harvesting study. Forestry Chronicle 75: 435-438.

MacIsaac, D.A., P.G. Comeau, and S. E. Macdonald. 2006. Dynamics of regeneration gaps following harvest of aspen stands. Canadian Journal of Forest Research 36: 181-1833.

Nunifu, T.K. 2003. Calibrating the Mixedwood Growth Model (MGM) for lodgepole pine and associated species in Alberta. Ph.D. thesis, Department of Renewable Resources, University of Alberta, Edmonton, Alta.

Nunifu, T. 2009. Compatible diameter and height increment models for lodgepole pine, trembling aspen, and white spruce. Can. J. For. Res. 39: 180-192.

Stadt, K., Bokalo, M., Comeau P., and Titus, S, (In Prep) Midrotation to mature growth functions for aspen and white spruce in western boreal mixedwoods.

Stadt, K., Feng, Z., Ye, F., Bokalo, M, Comeau, P. (In Prep). New survival functions for juvenile to mature white spruce in the western Canadian boreal.

Qin, Yanguo, 1988. Ingrowth models and juvenile mixedwood stand dynamics. M.Sc. thesis, University of Alberta, Edmonton. 131p.

M.F. Voicu and P.G. Comeau., 2006. Microclimatic and spruce growth gradients adjacent to young aspen stands, Forest Ecology and Management 221: 13–26.

Wang, Y., S.J. Titus, and V. LeMay. 1998. Relationships between tree slenderness coefficients and tree or stand characteristics for major species in boreal mixedwood forests. CJFR 28(7): 1171-1183.

Wright. E.F., K.D. Coates, C.D. Canham, and P. Bartemucci. 1998. Species variability in growth response to light across a climatic in northwestern British Columbia. CJFR 28: 871-886.

Yang, Y. 2002. Mortality modeling of major boreal species in Alberta. Ph.D. thesis, Department of Renewable Resources, University of Alberta, Edmonton, Alta.

Yang Y. and S.J. Titus, 2002. Maximum size-density relationship for constraining individual tree mortality functions. Forest Ecology and Management 168:259-273 .

Yao, X., 1996. Modeling juvenile growth and mortality mixedwood stands of Alberta. Ph.D. thesis, University of Alberta, Edmonton. 193p.

Yao, X., Titus, S.J., and MacDonald, S.E., 2001. A generalized logistic model of individual tree mortality for aspen, white spruce, and lodgepole pine in Alberta mixedwood forests. Can. J. For. Res., 31 (2), 283-291.