Shortleaf research, newspaper articles, fact sheets, conference proceedings, literature reviews, and brochures.
All Shortleaf publications and documents
Changes in Organic Matter And Nutrients in Forest Floor After Applying Several Reproductive Cutting Methods in Shortleaf Pine-Hardwood Stands
Liechty, H. O., & Shelton, M. G. (2004). Changes in Organic Matter And Nutrients in Forest Floor After Applying Several Reproductive Cutting Methods in Shortleaf Pine-Hardwood Stands. Southern Research Station, General Technical Report SRS-74. Retrieved from https://www.srs.fs.usda.gov/pubs/gtr/gtr_srs074/gtr_srs074-liechty001.pdf
Chromosomal locations of the ribosomal DNA genes in shortleaf pine
Islam-Faridi, N., Majid, M. A., & Nelson, C. D. (2007). Chromosomal locations of the ribosomal DNA genes in shortleaf pine. Shortleaf pine restoration and ecology in the Ozarks: proceedings of a symposium; 2006 November 7-9; Springfield, MO. Northern Research Station, General Technical Report NRS-P-15. Retrieved from https://www.nrs.fs.fed.us/pubs/gtr/gtr_p-15%20papers/14islam-faridi-p-15.pdf
Classification and evaluation of forest sites on the northern Cumberland Plateau
Smalley, G. W. (1986). Classification and evaluation of forest sites on the northern Cumberland Plateau. Southern Forest Experiment Station, General Technical Report SO-60. Retrieved from https://www.fs.usda.gov/treesearch/pubs/1646
Composition, structure, and dendroecology of an old-growth Quercus forest on the tablelands of the Cumberland Plateau, USA
Hart, J. L., Clark, S. L., Torreano, S. J., & Buchanan, M. L. (2012). Composition, structure, and dendroecology of an old-growth Quercus forest on the tablelands of the Cumberland Plateau, USA. Forest Ecology and Management, 266, 11-24. Retrieved from https://www.srs.fs.fed.us/pubs/ja/2012/ja_2012_hart_001.pdf
Cone characteristics and seed quality 10 years after an uneven-aged regeneration cut in shortleaf pine stands
Grayson, K. J., Wittwer, R. F., & Shelton, M. G. (2002). Cone characteristics and seed quality 10 years after an uneven-aged regeneration cut in shortleaf pine stands. Southern Research Station, General Technical Report SRS-48. Retrieved from http://www.srs.fs.usda.gov/pubs/viewpub.php?index=3140
Contamination of pine seeds by the pitch canker fungus
Dwinell, L. D., & Fraedrich, S. (1999). Contamination of pine seeds by the pitch canker fungus. Southern Research Station, General Technical Report SRS-25, p. 41-42. Retrieved from https://www.srs.fs.usda.gov/pubs/gtr/gtr_srs025_dwinell.pdf
Contrasting the effects of organic matter removal and soil compaction on root biomass of 9-year-old red oak, white oak, and shortleaf pine in a Missouri Ozark forest
Ponder Jr, F. (2011). Contrasting the effects of organic matter removal and soil compaction on root biomass of 9-year-old red oak, white oak, and shortleaf pine in a Missouri Ozark forest. Proceedings, 17th central hardwood forest conference; 2010 April 5-7; Lexington, KY; Gen. Tech. Rep. NRS-P-78. Newtown Square, PA: U.S. Department of Agriculture, Forest Service, Northern Research Station: 323-331. Retrieved from https://www.nrs.fs.fed.us/pubs/gtr/gtr-p-78papers/34ponderp78.pdf
Cubic-Foot Volume Tables for Shortleaf Pine in the Virginia-Carolina Piedmont
Haney, G. P., & Kormanik, P. P. (1962). Cubic-Foot Volume Tables for Shortleaf Pine in the Virginia-Carolina Piedmont. Southeastern Forest Experiment Station, Research Notes 170. Retrieved from https://www.srs.fs.usda.gov/pubs/osn/osn_se170.pdf
Cultural, environmental, and genetic factors interact to affect performance of planted shortleaf pine
Hallgren, S., Tauer, C., & Weeks, D. (1993). Cultural, environmental, and genetic factors interact to affect performance of planted shortleaf pine. Forest science, 39(3), 478-498. Retrieved from http://www.ingentaconnect.com/content/saf/fs/1993/00000039/00000003/art00007 |