Brian P. Oswald scite author profile

Brian P. Oswald

3Publications

83Citation Statements Received

121Citation Statements Given

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107

Affiliations

Temple College, Stephen F. Austin State University, College of Agriculture at Križevci

Publications

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Changes in understory vegetation of a ponderosa pine forest in northern Arizona 30 years after a wildfire

Bataineh

Oswald

Bataineh

et al. 2006

Forest Ecology and Management

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Wildland fires can cause shifts in understory species composition and production. Many studies have examined short-term changes in understory vegetation following a wildfire; however, very few long-term studies are available. The objective of this study was to examine changes in understory (herbaceous and shrub) species composition and production since the 1972 Rattle Burn wildfire on the Coconino National Forest near Flagstaff, Arizona. Understory species composition and production were originally sampled in 1972, 1974, and 1980 and were re-sampled during July and August of 2002 and 2003 on 30 plots in each of four sites: high severity burn, low severity burn, unburned site prescribed burned in 1977, and an unburned site. Repeated measures analysis was used to test for the effects of fire and time on understory species production. The effects of fire on understory species composition were tested using multi-response permutation procedures (MRPP). A lingering effect of the Rattle Burn wildfire on the understory plant production and composition was revealed. Severely burned sites, which had the least pine basal area, may have greater understory production as compared to unburned sites up to 30 years after a wildfire. However, species composition on all sites was altered. A significant, negative relationship was found between tree basal area and understory species composition and production for

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Effects of Slash Pile Burning on the Physical and Chemical Soil Properties of Vassar Soils

Oswald

Davenport

Neuenschwander

1998

Journal of Sustainable Forestry

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Nutrient Dynamics and Tree Growth of Silvopastoral Systems: Impact of Poultry Litter

et al. 2008

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Fertilizing pastures with poultry litter has led to an increased incidence of nutrient-saturated soils, particularly on highly fertilized, well drained soils. Applying litter to silvopastures, in which loblolly pine (Pinus taeda L.) and bahiagrass (Paspalum notatum) production are integrated, may be an ecologically desirable alternative for upland soils of the southeastern USA. Integrating subterranean clover (Trifolium subterraneum) into silvopastures may enhance nutrient retention potential. This study evaluated soil nutrient dynamics, loblolly pine nutrient composition, and loblolly pine growth of an annually fertilized silvopasture on a well drained soil in response to fertilizer type, litter application rate, and subterranean clover. Three fertilizer treatments were applied annually for 4 yr: (i) 5 Mg litter ha(-1) (5LIT), (ii) 10 Mg litter ha(-1) (10LIT), and (iii) an inorganic N, P, K pasture blend (INO). Litter stimulated loblolly pine growth, and neither litter treatment produced soil test P concentrations above runoff potential threshold ranges. However, both litter treatments led to accumulation of several nutrients (notably P) in upper soil horizons relative to INO and unfertilized control treatments. The 10LIT treatment may have increased N and P leaching potential. Subterranean clover kept more P sequestered in the upper soil horizon and conferred some growth benefits to loblolly pine. Thus, although these silvopasture systems had a relatively high capacity for nutrient use and retention at this site, litter should be applied less frequently than in this study to reduce environmental risks.

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Brian P. Oswald

Changes in understory vegetation of a ponderosa pine forest in northern Arizona 30 years after a wildfire

Effects of Slash Pile Burning on the Physical and Chemical Soil Properties of Vassar Soils

Nutrient Dynamics and Tree Growth of Silvopastoral Systems: Impact of Poultry Litter

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