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Full-Text Articles in Life Sciences
Reviewing Fire, Climate, Deer, And Foundation Species As Drivers Of Historically Open Oak And Pine Forests And Transition To Closed Forests, Brice B. Hanberry, Marc D. Abrams, Mary A. Arthur, J. Morgan Varner
Reviewing Fire, Climate, Deer, And Foundation Species As Drivers Of Historically Open Oak And Pine Forests And Transition To Closed Forests, Brice B. Hanberry, Marc D. Abrams, Mary A. Arthur, J. Morgan Varner
Forestry and Natural Resources Faculty Publications
Historically open oak and pine savannas and woodlands have transitioned to closed forests comprised of increased numbers of tree species throughout the eastern United States. We reviewed evidence for and against a suite of previously postulated drivers of forest transition focused on (1) change in fire regimes, (2) increased precipitation, (3) increased white-tailed deer densities, and (4) loss of American chestnut. We found that fire and fire exclusion provide a parsimonious mechanism for historical dominance by open forests of fire-tolerant oak and/or pine species and subsequent transition to closed forests with fire-sensitive tree species that fill the vertical profile. Based …
Phytophthora Cinnamomi Colonized Reclaimed Surface Mined Sites In Eastern Kentucky: Implications For The Restoration Of Susceptible Species, Kenton L. Sena, Kevin M. Yeager, Tyler J. Dreaden, Christopher D. Barton
Phytophthora Cinnamomi Colonized Reclaimed Surface Mined Sites In Eastern Kentucky: Implications For The Restoration Of Susceptible Species, Kenton L. Sena, Kevin M. Yeager, Tyler J. Dreaden, Christopher D. Barton
Forestry and Natural Resources Faculty Publications
Appalachian forests are threatened by a number of factors, especially introduced pests and pathogens. Among these is Phytophthora cinnamomi, a soil-borne oomycete pathogen known to cause root rot in American chestnut, shortleaf pine, and other native tree species. This study was initiated to characterize the incidence of P. cinnamomi on surface mined lands in eastern Kentucky, USA, representing a range of time since reclamation (10, 12, 15, and 20 years since reclamation). Incidence of P. cinnamomi was correlated to soil properties including overall soil development, as indicated by a variety of measured soil physical and chemical parameters, especially the …
The Effect Of Phosphite On Mycorrhiza Formation In American Chestnut (Castanea Dentata), Matthew T. Perkins
The Effect Of Phosphite On Mycorrhiza Formation In American Chestnut (Castanea Dentata), Matthew T. Perkins
Honors Theses
One of the primary hindrances to Castanea dentata restoration in the Southeast is the root rot disease caused by the fungus-like microorganism Phytophthora cinnamomi. Root rot can be combated by the application of mono- and di-potassium salts of phosphorous acid, which are marketed as phosphite fungicides. Despite its value in preventing infection by P. cinnamomi it is also thought that phosphite may impede root colonization by beneficial, ectomycorrhizal fungi. I hypothesized that plants given a routine application of phosphite will display fewer mycorrhizas in the root tips than those plants that were not treated with potassium phosphite. Therefore I attempted …