SREL Reprint #1875
Woody plant regeneration in four floodplain forests
Robert H. Jones1, Rebecca R. Sharitz2,3, Philip M. Dixon2, Debra S. Segal4, and Rebecca L. Schneider5
1School of Forestry, Auburn University, Auburn, Alabama 36849-5418 USA
2Savannah River Ecology Laboratory, Aiken, South Carolina 29802 USA
3Department of Botany, University of Georgia, Athens, Georgia 30602 USA
4KBN Engineering and Applied Sciences, 1034 Northwest 57th Street, Gainesville, Florida 32605 USA
5Department of Ecology, Cornell University, Ithaca, New York 14853 USA
Abstract: Between 1987 and 1990, we estimated seedfall and recorded age, growth, and survival of 10,933 tree and vine seedlings growing in the understories of four bottomland hardwood forests in South Carolina. The forests differed in flood frequency, soils, and vegetation structure but had a number of woody plant species in common.
Several demographic processes were consistent for all four forests as well as for floodplain forests described in other published studies. Smaller seeded species had larger numbers of seeds dispersed, germinants, and established seedlings. Seed size, however, was not clearly related to seedling survival. Published rankings of shade and flood tolerances were also unrelated to survival, at least during the first growing season after germination. Seedling survival rates were least during the first growing season and greater in subsequent years. Within a growing season, early germinants had greater survival. For some species, survival was negatively related to basal area of neighboring conspecific adult trees.
Some aspects of the regeneration process were more site specific. Within species, seedfall densities relative to adult tree abundance differed across forests by an order of magnitude. First-year seedling mortality rates were significantly affected by site and site x species interactions. Mortality in subsequent years was also significantly affected by site. Although the role of flooding in site-specific mortality was not clear, small elevation changes within flooded sites were correlated with changes in germination and survival for some species.
Keywords: Acer rubrum; bottomland hardwood forest; demography; floodplain forests; forest regeneration; life history traits; Liquidambar styraciflua; Nyssa sylvatica var. biflora; population dynamics; Quercus spp.; seed size; seedling recruitment; shade tolerance
SREL Reprint #1875
Jones, R.H., R.R. Sharitz, P.M. Dixon, D.S. Segal, and R.L. Schneider. 1994. Woody plant regeneration in four floodplain forests. Ecological Monographs 64:345-367.
This information was provided by the University of Georgia's Savannah River Ecology Laboratory (srel.uga.edu).