SREL Reprint #2926
Ground layer carbon and nitrogen cycling and legume nitrogen inputs following fire in mixed pine forests
Sara D. Lajeunesse1, John J. Dilustro2, Rebecca R. Sharitz1,2, and Beverly S. Collins2
1Department of Plant Biology, University of Georgia, Athens, Georgia 30602 USA
2Savannah River Ecology Laboratory, P. O. Drawer E, Aiken, South Carolina 29802 USA
Abstract: Many mixed pine forests in the southeastern United States undergo prescribed burning to promote open pine savannas. In these systems, soil texture can influence fire's effect on vegetation and nutrient cycling. Our objectives were to examine fire and soil texture effects on carbon (C) and nitrogen (N) pools in ground layer vegetation. We measured biomass and tissue nutrient concentrations and estimated legume N inputs via N2 fixation in frequently burned sandy and clayey sites that were in the first and second seasons following a prescribed fire in 2002 (B02) or had been unburned since 2000 (B00). Mean belowground biomass was significantly greater on sandy than on clayey sites. Total aboveground mean biomass did not differ significantly between B00 and B02 sites, but grasses had greater aboveground biomass in clayey than in sandy sites. Carbon and N pools (measured in grams per square meter) in grasses were greater in clayey than in sandy sites, yet grasses had greater tissue concentrations of C (as a percentage) in sandy sites. Legumes showed significant interaction effects between soil texture and fire frequency for tissue C and N pools, above- and belowground biomass, and acetylene reduction activities. Results suggest that soil texture can influence fire effects on ground layer vegetation in southeastern mixed pine forests.
Key Words: fire frequency, ground layer biomass, herbaceous legumes, mixed pine forests, nitrogen, soil texture
SREL Reprint #2926
Lajeunesse, S. D., J. J. Dilustro, R. R. Sharitz, and B. S. Collins. 2006. Ground layer carbon and nitrogen cycling and legume nitrogen inputs following fire in mixed pine forests. American Journal of Botany 93(1): 84-93.
This information was provided by the University of Georgia's Savannah River Ecology Laboratory (srel.uga.edu).