Do published tolerance ratings and dispersal factors predict species distributions in bottomland hardwoods?
L. L. Battaglia1, B. S. Collins2, and R. R. Sharitz2
1Department
of Plant Biology, Southern Illinois University, Mail Code 6509, Carbondale,
IL 62901, USA
2Savannah
River Ecology Laboratory, University of Georgia, Drawer E, Aiken, SC
29802, USA
Abstract:
Species flood and shade tolerances are commonly used to explain regeneration
and distribution of canopy trees in bottomland hardwood forests. Restoration
planning and management decisions for these highly threatened forests
often match canopy species to site conditions based on published tolerance
ratings. We identified ‘regeneration strategies’ by combining
flood and shade-tolerance ratings with plant colonization traits, specifically
seed size and dispersal mode, and asked if they predict field regeneration
patterns of floodplain canopy species. From the literature, we identified
four groups of species with theoretically similar regeneration strategies.
We then used empirical evidence from three floodplain datasets to test
whether the a priori groups were useful predictors of regeneration responses
to gradients in canopy openness, flooding, and distance from forest edge.
Species with different published tolerance levels overlapped substantially;
minimum and maximum positions along each gradient overlapped, and the
medians alone were useful in the empirical tests of three of the four
defined strategy groups. Predicted responses for the strategy groups and
fidelity of species to the groups were not always met over flooding or
canopy openness and distance-to-seed-source gradients in the field. However,
responses of species within the groups, and the groups themselves, suggest
that flood and shade tolerances are coarse filters, or that they filter
species establishment following a dispersal filter on species colonization.
Thus, regeneration strategies based on a suite of characters related to
colonization and species sorting over elevation and canopy openness heterogeneity
have implications for BLH management and restoration. More empirical work
is needed to evaluate the full range of species responses to multiple
environmental gradients.
Keywords: Bottomland hardwoods; Dispersal; Flood tolerance; Regeneration;
Shade tolerance
SREL Reprint #3104
Battaglia,
L. L., B. S. Collins, and R. R. Sharitz. 2004. Do published tolerance
ratings and dispersal factors predict species distributions in bottomland
hardwoods? Forest Ecology and Management 198(2004): 15-30.
