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Shortleaf research, newspaper articles, fact sheets, conference proceedings, literature reviews, and brochures.
Modeling
A growth and yield model for naturally-regenerated mixed shortleaf pine forests in the southern United States of America
Schulte, B., & Buongiorno, J. (2004). A growth and yield model for naturally-regenerated mixed shortleaf pine forests in the southern United States of America. International Forestry Review, 6(1), 19-29. Retrieved from http://www.bioone.org/doi/abs/10.1505/ifor.6.1.19.32056
A Mixed-Effects Model for the dbh-Height Relationship of Shortleaf Pine (Pinus echinata Mill.)
Budhathoki, C. B., Lynch, T. B., & Guldin, J. M. (2008). A Mixed-Effects Model for the dbh–Height Relationship of Shortleaf Pine (Pinus echinata Mill.). Southern Journal of Applied Forestry, 32(1), 5-11. Retrieved from http://www.ingentaconnect.com/content/saf/sjaf/2008/00000032/00000001/art00002
A survival model for individual shortleaf pine trees in even-aged natural stands
Lynch, T. B., Huebschmann, M. M., & Murphy, P. A. (2000). A survival model for individual shortleaf pine trees in even-aged natural stands. North Central Research Station, General Technical Report NCRS-212. Retrieved from http://www.treesearch.fs.fed.us/pubs/2266
A survival model for shortleaf pine trees growing in uneven-aged stands
Lynch, T. B., Gering, L. R., Huebschmann, M. M., & Murphy, P. A. (1999). A survival model for shortleaf pine trees growing in uneven-aged stands. Paper presented at the Proceedings of Tenth Biennial Southern Silvicultural Research Conference Shreveport. LA, February 16-18, 1999. Retrieved from https://www.fs.usda.gov/treesearch/pubs/1938 
An individual-tree dbh-total height model with random plot effects for shortleaf pine
Budhathoki, C. B., Lynch, T. B., & Guldin, J. M. (2008). Nonlinear mixed modeling of basal area growth for shortleaf pine. Forest Ecology and Management, 255(8), 3440-3446. Retrieved from http://www.sciencedirect.com/science/article/pii/S0378112708001941
An individual-tree diameter growth model for managed uneven-aged oak-shortleaf pine stands in the Ozark Highlands of Missouri, USA
Lhotka, J. M., & Loewenstein, E. F. (2011). An individual-tree diameter growth model for managed uneven-aged oak-shortleaf pine stands in the Ozark Highlands of Missouri, USA. Forest Ecology and Management, 261(3), 770-778. Retrieved from http://www.sciencedirect.com/science/article/pii/S0378112710007085
An individual-tree growth and yield prediction system for even-aged natural shortleaf pine forests
Lynch, T. B., Hitch, K. L., Huebschmann, M. M., & Murphy, P. A. (1999). An individual-tree growth and yield prediction system for even-aged natural shortleaf pine forests. Southern Journal of Applied Forestry, 23(4), 203-211. Retrieved from http://www.ingentaconnect.com/content/saf/sjaf/1999/00000023/00000004/art00005
Application of the generalized Faustmann model to uneven-aged forest management
Chang, S. J., & Gadow, K. V. (2010). Application of the generalized Faustmann model to uneven-aged forest management. Journal of Forest Economics, 16(4), 313-325. Retrieved from http://www.sciencedirect.com/science/article/pii/S1104689910000140
Development of a shortleaf pine individual-tree growth equation using non-linear mixed modeling techniques
Budhathoki, C. B., Lynch, T. B., & Guldin, J. M. (2010). Development of a shortleaf pine individual-tree growth equation using non-linear mixed modeling techniques. General Technical Report-Southern Research Station, USDA Forest Service(SRS-121), 519-520. Retrieved from https://www.fs.usda.gov/treesearch/pubs/35933
Diameter--growth model across shortleaf pine range using regression tree analysis
Yaussy, D., Iverson, L., & Prasad, A. (1997). Diameter--growth model across shortleaf pine range using regression tree analysis. Empirical and process-based models for forest tree and stand growth simulation, 21, 27. Retrieved from https://www.nrs.fs.fed.us/pubs/jrnl/1999/ne_1999_yaussy_001.pdf |
